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1

Lau, Ivan, Ashu Gupta, Abdul Ihdayhid, and Zhonghua Sun. "Clinical Applications of Mixed Reality and 3D Printing in Congenital Heart Disease." Biomolecules 12, no. 11 (October 24, 2022): 1548. http://dx.doi.org/10.3390/biom12111548.

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Анотація:
Understanding the anatomical features and generation of realistic three-dimensional (3D) visualization of congenital heart disease (CHD) is always challenging due to the complexity and wide spectrum of CHD. Emerging technologies, including 3D printing and mixed reality (MR), have the potential to overcome these limitations based on 2D and 3D reconstructions of the standard DICOM (Digital Imaging and Communications in Medicine) images. However, very little research has been conducted with regard to the clinical value of these two novel technologies in CHD. This study aims to investigate the usefulness and clinical value of MR and 3D printing in assisting diagnosis, medical education, pre-operative planning, and intraoperative guidance of CHD surgeries through evaluations from a group of cardiac specialists and physicians. Two cardiac computed tomography angiography scans that demonstrate CHD of different complexities (atrial septal defect and double outlet right ventricle) were selected and converted into 3D-printed heart models (3DPHM) and MR models. Thirty-four cardiac specialists and physicians were recruited. The results showed that the MR models were ranked as the best modality amongst the three, and were significantly better than DICOM images in demonstrating complex CHD lesions (mean difference (MD) = 0.76, p = 0.01), in enhancing depth perception (MD = 1.09, p = 0.00), in portraying spatial relationship between cardiac structures (MD = 1.15, p = 0.00), as a learning tool of the pathology (MD = 0.91, p = 0.00), and in facilitating pre-operative planning (MD = 0.87, p = 0.02). The 3DPHM were ranked as the best modality and significantly better than DICOM images in facilitating communication with patients (MD = 0.99, p = 0.00). In conclusion, both MR models and 3DPHM have their own strengths in different aspects, and they are superior to standard DICOM images in the visualization and management of CHD.
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2

Kang, Sok-Leng, and Lee Benson. "Recent advances in cardiac catheterization for congenital heart disease." F1000Research 7 (March 26, 2018): 370. http://dx.doi.org/10.12688/f1000research.13021.1.

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Анотація:
The field of pediatric and adult congenital cardiac catheterization has evolved rapidly in recent years. This review will focus on some of the newer endovascular technological and management strategies now being applied in the pediatric interventional laboratory. Emerging imaging techniques such as three-dimensional (3D) rotational angiography, multi-modal image fusion, 3D printing, and holographic imaging have the potential to enhance our understanding of complex congenital heart lesions for diagnostic or interventional purposes. While fluoroscopy and standard angiography remain procedural cornerstones, improved equipment design has allowed for effective radiation exposure reduction strategies. Innovations in device design and implantation techniques have enabled the application of percutaneous therapies in a wider range of patients, especially those with prohibitive surgical risk. For example, there is growing experience in transcatheter duct occlusion in symptomatic low-weight or premature infants and stent implantation into the right ventricular outflow tract or arterial duct in cyanotic neonates with duct-dependent pulmonary circulations. The application of percutaneous pulmonary valve implantation has been extended to a broader patient population with dysfunctional ‘native’ right ventricular outflow tracts and has spurred the development of novel techniques and devices to solve associated anatomic challenges. Finally, hybrid strategies, combining cardiosurgical and interventional approaches, have enhanced our capabilities to provide care for those with the most complex of lesions while optimizing efficacy and safety.
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3

Lau, Ivan, Ashu Gupta, and Zhonghua Sun. "Clinical Value of Virtual Reality versus 3D Printing in Congenital Heart Disease." Biomolecules 11, no. 6 (June 14, 2021): 884. http://dx.doi.org/10.3390/biom11060884.

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Анотація:
Both three-dimensional (3D) printing and virtual reality (VR) are reported as being superior to the current visualization techniques in conveying more comprehensive visualization of congenital heart disease (CHD). However, little is known in terms of their clinical value in diagnostic assessment, medical education, and preoperative planning of CHD. This cross-sectional study aims to address these by involving 35 medical practitioners to subjectively evaluate VR visualization of four selected CHD cases in comparison with the corresponding 3D printed heart models (3DPHM). Six questionnaires were excluded due to incomplete sections, hence a total of 29 records were included for the analysis. The results showed both VR and 3D printed heart models were comparable in terms of the degree of realism. VR was perceived as more useful in medical education and preoperative planning compared to 3D printed heart models, although there was no significant difference in the ratings (p = 0.54 and 0.35, respectively). Twenty-one participants (72%) indicated both the VR and 3DPHM provided additional benefits compared to the conventional medical imaging visualizations. This study concludes the similar clinical value of both VR and 3DPHM in CHD, although further research is needed to involve more cardiac specialists for their views on the usefulness of these tools.
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4

Spanaki, Adriani, Saleha Kabir, Natasha Stephenson, Milou P. M. van Poppel, Valentina Benetti, and John Simpson. "3D Approaches in Complex CHD: Where Are We? Funny Printing and Beautiful Images, or a Useful Tool?" Journal of Cardiovascular Development and Disease 9, no. 8 (August 15, 2022): 269. http://dx.doi.org/10.3390/jcdd9080269.

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Анотація:
Echocardiography, CT and MRI have a crucial role in the management of congenital heart disease (CHD) patients. All of these modalities can be presented in a 2D or a 3D rendered format. The aim of this paper is to review the key advantages and potential limitations, as well as the future challenges of a 3D approach in each imaging modality. The focus of this review is on anatomic rather than functional assessment. Conventional 2D echocardiography presents limitations when imaging complex lesions, whereas 3D imaging depicts the anatomy in all dimensions. CT and MRI can visualise extracardiac vasculature and guide complex biventricular repair. Three-dimensional printed models can be used in depicting complex intracardiac relationships and defining the surgical strategy in specific lesions. Extended reality imaging retained dynamic cardiac motion holds great potential for planning surgical and catheter procedures. Overall, the use of 3D imaging has resulted in a better understanding of anatomy, with a direct impact on the surgical and catheter approach, particularly in more complex cases.
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5

Carberry, Thomas, Raghav Murthy, Albert Hsiao, Colin Petko, John Moore, John Lamberti, and Sanjeet Hegde. "Fontan Revision: Presurgical Planning Using Four-Dimensional (4D) Flow and Three-Dimensional (3D) Printing." World Journal for Pediatric and Congenital Heart Surgery 10, no. 2 (January 10, 2019): 245–49. http://dx.doi.org/10.1177/2150135118799641.

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Анотація:
Pulmonary arteriovenous malformations (AVMs) can be a complication of certain postoperative Fontan patients whose hepatic venous blood return is not distributed evenly to both lungs. A ten-year-old female, who had previously undergone staged single ventricle palliation for complex congenital heart disease, underwent a Fontan revision due to significant left-sided pulmonary AVMs and increasing arterial oxygen desaturation. The combination of four-dimensional flow cardiac magnetic resonance imaging and three-dimensional printing enabled presurgical planning for a Fontan takedown and diversion of hepatic venous flow to the azygous vein that resulted in significant clinical improvement.
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6

Anwar, Shafkat, Gautam K. Singh, Justin Varughese, Hoang Nguyen, Joseph J. Billadello, Elizabeth F. Sheybani, Pamela K. Woodard, Peter Manning, and Pirooz Eghtesady. "3D Printing in Complex Congenital Heart Disease." JACC: Cardiovascular Imaging 10, no. 8 (August 2017): 953–56. http://dx.doi.org/10.1016/j.jcmg.2016.03.013.

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7

Hadeed, Khaled, Philippe Acar, Yves Dulac, Fabio Cuttone, Xavier Alacoque, and Clément Karsenty. "Cardiac 3D printing for better understanding of congenital heart disease." Archives of Cardiovascular Diseases 111, no. 1 (January 2018): 1–4. http://dx.doi.org/10.1016/j.acvd.2017.10.001.

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8

Sun, Lau, Wong, and Yeong. "Personalized Three-Dimensional Printed Models in Congenital Heart Disease." Journal of Clinical Medicine 8, no. 4 (April 16, 2019): 522. http://dx.doi.org/10.3390/jcm8040522.

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Анотація:
Patient-specific three-dimensional (3D) printed models have been increasingly used in cardiology and cardiac surgery, in particular, showing great value in the domain of congenital heart disease (CHD). CHD is characterized by complex cardiac anomalies with disease variations between individuals; thus, it is difficult to obtain comprehensive spatial conceptualization of the cardiac structures based on the current imaging visualizations. 3D printed models derived from patient’s cardiac imaging data overcome this limitation by creating personalized 3D heart models, which not only improve spatial visualization, but also assist preoperative planning and simulation of cardiac procedures, serve as a useful tool in medical education and training, and improve doctor–patient communication. This review article provides an overall view of the clinical applications and usefulness of 3D printed models in CHD. Current limitations and future research directions of 3D printed heart models are highlighted.
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9

Han, Frank, Jennifer Co-Vu, Dalia Lopez-Colon, John Forder, Mark Bleiweis, Karl Reyes, Curt DeGroff, and Arun Chandran. "Impact of 3D Printouts in Optimizing Surgical Results for Complex Congenital Heart Disease." World Journal for Pediatric and Congenital Heart Surgery 10, no. 5 (September 2019): 533–38. http://dx.doi.org/10.1177/2150135119852316.

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Анотація:
Planning corrective and palliative surgery for patients who have complex congenital heart disease often relies on the assessment of cardiac anatomy using two-dimensional noninvasive cardiac imaging modalities (echocardiography, cardiac magnetic resonance imaging, and computed tomography scan). Advances in cardiac noninvasive imaging now include the use of three-dimensional (3D) reconstruction tools that produce 3D images and 3D printouts. There is scant evidence available in the literature as to what effect the availability of 3D printouts of complex congenital heart defects has on surgical outcomes. Surgical outcomes of study subjects with a 3D cardiac printout available and their paired control subject without a 3D cardiac printout available were compared. We found a trend toward shorter surgical times in the study group who had the benefit of 3D models, but no statistical significance was found for bypass time, cross-clamp time, total time, length of stay, or respiratory support. These preliminary results support the proposal that 3D modeling be made readily available to congenital cardiac surgery teams, for use in patients with the most complex congenital heart disease.
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10

Lee, Shenyuan, Andrew Squelch, and Zhonghua Sun. "Quantitative Assessment of 3D Printed Model Accuracy in Delineating Congenital Heart Disease." Biomolecules 11, no. 2 (February 12, 2021): 270. http://dx.doi.org/10.3390/biom11020270.

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Анотація:
Background: Three-dimensional (3D) printing is promising in medical applications, especially presurgical planning and the simulation of congenital heart disease (CHD). Thus, it is clinically important to generate highly accurate 3D-printed models in replicating cardiac anatomy and defects. The present study aimed to investigate the accuracy of the 3D-printed CHD model by comparing them with computed tomography (CT) images and standard tessellation language (STL) files. Methods: Three models were printed, comprising different CHD pathologies, including the tetralogy of Fallot (ToF), ventricular septal defect (VSD) and double-outlet right-ventricle (DORV). The ten anatomical locations were measured in each comparison. Pearson’s correlation coefficient, Bland–Altman analysis and intra-class correlation coefficient (ICC) determined the model accuracy. Results: All measurements with three printed models showed a strong correlation (r = 0.99) and excellent reliability (ICC = 0.97) when compared to original CT images, CT images of the 3D-printed models, STL files and 3D-printed CHD models. Conclusion: This study demonstrated the high accuracy of 3D-printed heart models with excellent correlation and reliability when compared to multiple source data. Further investigation into 3D printing in CHD should focus on the clinical value and the benefits to patients.
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11

Illmann, Caroline F., Rouzbeh Ghadiry-Tavi, Martin Hosking, and Kevin C. Harris. "Utility of 3D printed cardiac models in congenital heart disease: a scoping review." Heart 106, no. 21 (July 29, 2020): 1631–37. http://dx.doi.org/10.1136/heartjnl-2020-316943.

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Анотація:
ObjectiveThree-dimensional printing (3DP) is a novel technology with applications in healthcare, particularly for congenital heart disease (CHD). We sought to explore the spectrum of use of 3D printed CHD models (3D-CM) and identify knowledge gaps within the published body of literature to guide future research.MethodsWe conducted a scoping review targeting published literature on the use of 3D-CMs. The databases of MEDLINE, EMBASE and Web of Science were searched from their inception until 19 July 2019. Inclusion criteria were primary research; studies reporting use of 3D-CMs; and human subjects. Exclusion criteria were studies where 3D-CMs were generated for proof of concept but not used; and studies focused on bioprinting or computational 3D-CMs. Studies were assessed for inclusion and data were extracted from eligible articles in duplicate.ResultsThe search returned 648 results. Following assessment, 79 articles were included in the final qualitative synthesis. The majority (66%) of studies are case reports or series. 15% reported use of a control group. Three main areas of utilisation are for (1) surgical and interventional cardiology procedural planning (n=62), (2) simulation (n=25), and (3) education for medical personnel or patients and their families (n=17). Multiple studies used 3D-CMs for more than one of these areas.Conclusions3DP for CHD is a new technology with an evolving literature base. Most of the published literature are experiential reports as opposed to manuscripts on scientifically robust studies. Our study has identified gaps in the literature and addressed priority areas for future research.
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12

Sun, Zhonghua. "Use of Three-dimensional Printing in the Development of Optimal Cardiac CT Scanning Protocols." Current Medical Imaging Formerly Current Medical Imaging Reviews 16, no. 8 (October 19, 2020): 967–77. http://dx.doi.org/10.2174/1573405616666200124124140.

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Анотація:
Three-dimensional (3D) printing is increasingly used in medical applications with most of the studies focusing on its applications in medical education and training, pre-surgical planning and simulation, and doctor-patient communication. An emerging area of utilising 3D printed models lies in the development of cardiac computed tomography (CT) protocols for visualisation and detection of cardiovascular disease. Specifically, 3D printed heart and cardiovascular models have shown potential value in the evaluation of coronary plaques and coronary stents, aortic diseases and detection of pulmonary embolism. This review article provides an overview of the clinical value of 3D printed models in these areas with regard to the development of optimal CT scanning protocols for both diagnostic evaluation of cardiovascular disease and reduction of radiation dose. The expected outcomes are to encourage further research towards this direction.
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13

Koestenberger, Martin. "Transthoracic Echocardiography in Children and Young Adults with Congenital Heart Disease." ISRN Pediatrics 2012 (June 13, 2012): 1–15. http://dx.doi.org/10.5402/2012/753481.

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Анотація:
Transthoracic echocardiography (TTE) is the first-line tool for diagnosis and followup of pediatric and young adult patients with congenital heart disease (CHD). Appropriate use of TTE can reduce the need for more invasive modalities, such as cardiac catheterization and cardiac magnetic resonance imaging. New echocardiographic techniques have emerged more recently: tissue Doppler imaging, tissue tracking (strain and strain rate), vector velocity imaging (VVI), myocardial performance index, myocardial acceleration during isovolumic acceleration (IVA), the ratio of systolic to diastolic duration (S/D ratio), and two dimensional measurements of systolic right ventricular (RV) function (e.g., tricuspid annular plane systolic excursion, TAPSE). These may become valuable indicators of ventricular performance, compliance, and disease progression. In addition, three-dimensional (3D) echocardiography when performed for the assessment of valvular function, device position, and ventricular volumes is being integrated into routine clinical care. In this paper, the potential use and limitations of these new echocardiographic techniques in patients with CHD are discussed. A particular focus is on the echocardiographic assessment of right ventricular (RV) function in conditions associated with increased right ventricular volume (e.g., pulmonary regurgitation after tetralogy of Fallot repair) or pressure (e.g., pulmonary hypertension) in children and young adults.
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14

Sun, Zhonghua. "Clinical Applications of Patient-Specific 3D Printed Models in Cardiovascular Disease: Current Status and Future Directions." Biomolecules 10, no. 11 (November 20, 2020): 1577. http://dx.doi.org/10.3390/biom10111577.

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Анотація:
Three-dimensional (3D) printing has been increasingly used in medicine with applications in many different fields ranging from orthopaedics and tumours to cardiovascular disease. Realistic 3D models can be printed with different materials to replicate anatomical structures and pathologies with high accuracy. 3D printed models generated from medical imaging data acquired with computed tomography, magnetic resonance imaging or ultrasound augment the understanding of complex anatomy and pathology, assist preoperative planning and simulate surgical or interventional procedures to achieve precision medicine for improvement of treatment outcomes, train young or junior doctors to gain their confidence in patient management and provide medical education to medical students or healthcare professionals as an effective training tool. This article provides an overview of patient-specific 3D printed models with a focus on the applications in cardiovascular disease including: 3D printed models in congenital heart disease, coronary artery disease, pulmonary embolism, aortic aneurysm and aortic dissection, and aortic valvular disease. Clinical value of the patient-specific 3D printed models in these areas is presented based on the current literature, while limitations and future research in 3D printing including bioprinting of cardiovascular disease are highlighted.
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15

Beerbaum, Philipp, Samir Sarikouch, Kai-Thorsten Laser, Gerald Greil, Wolfgang Burchert, and Hermann Körperich. "Coronary anomalies assessed by whole-heart isotropic 3D magnetic resonance imaging for cardiac morphology in congenital heart disease." Journal of Magnetic Resonance Imaging 29, no. 2 (February 2009): 320–27. http://dx.doi.org/10.1002/jmri.21655.

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16

Sun, Zhonghua, Yin How Wong, and Chai Hong Yeong. "Patient-Specific 3D-Printed Low-Cost Models in Medical Education and Clinical Practice." Micromachines 14, no. 2 (February 16, 2023): 464. http://dx.doi.org/10.3390/mi14020464.

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Анотація:
3D printing has been increasingly used for medical applications with studies reporting its value, ranging from medical education to pre-surgical planning and simulation, assisting doctor–patient communication or communication with clinicians, and the development of optimal computed tomography (CT) imaging protocols. This article presents our experience of utilising a 3D-printing facility to print a range of patient-specific low-cost models for medical applications. These models include personalized models in cardiovascular disease (from congenital heart disease to aortic aneurysm, aortic dissection and coronary artery disease) and tumours (lung cancer, pancreatic cancer and biliary disease) based on CT data. Furthermore, we designed and developed novel 3D-printed models, including a 3D-printed breast model for the simulation of breast cancer magnetic resonance imaging (MRI), and calcified coronary plaques for the simulation of extensive calcifications in the coronary arteries. Most of these 3D-printed models were scanned with CT (except for the breast model which was scanned using MRI) for investigation of their educational and clinical value, with promising results achieved. The models were confirmed to be highly accurate in replicating both anatomy and pathology in different body regions with affordable costs. Our experience of producing low-cost and affordable 3D-printed models highlights the feasibility of utilizing 3D-printing technology in medical education and clinical practice.
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17

Forte, Mari Nieves Velasco, Tarique Hussain, Arno Roest, Gorka Gomez, Monique Jongbloed, John Simpson, Kuberan Pushparajah, Nick Byrne, and Israel Valverde. "Living the heart in three dimensions: applications of 3D printing in CHD." Cardiology in the Young 29, no. 06 (June 2019): 733–43. http://dx.doi.org/10.1017/s1047951119000398.

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Анотація:
AbstractAdvances in biomedical engineering have led to three-dimensional (3D)-printed models being used for a broad range of different applications. Teaching medical personnel, communicating with patients and relatives, planning complex heart surgery, or designing new techniques for repair of CHD via cardiac catheterisation are now options available using patient-specific 3D-printed models. The management of CHD can be challenging owing to the wide spectrum of morphological conditions and the differences between patients. Direct visualisation and manipulation of the patients’ individual anatomy has opened new horizons in personalised treatment, providing the possibility of performing the whole procedure in vitro beforehand, thus anticipating complications and possible outcomes. In this review, we discuss the workflow to implement 3D printing in clinical practice, the imaging modalities used for anatomical segmentation, the applications of this emerging technique in patients with structural heart disease, and its limitations and future directions.
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18

Liu, Kun, Bin Lu, Zhe Zheng, Enshi Wang, Yue Shi, Yang Gao, Weihua Yin, Shoujun Li, Yu Chang, and Shengshou Hu. "GW26-e5394 3D heart model printing of complex congenital heart disease based on the low dose cardiac CT images: initial experience in China." Journal of the American College of Cardiology 66, no. 16 (October 2015): C72. http://dx.doi.org/10.1016/j.jacc.2015.06.290.

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19

Vamsee, R., S. Reddy, V. Dimas, Y. Arar, A. Pontiki, and M. Hussain. "Biplane 3D Overlay Guidance For Congenital Heart Disease To Assist Cardiac Catheterization Interventions - A Pilot Study." Journal of Cardiovascular Computed Tomography 15, no. 4 (July 2021): S13. http://dx.doi.org/10.1016/j.jcct.2021.06.183.

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20

Biglino, Giovanni, Claudio Capelli, Despina Koniordou, Di Robertshaw, Lindsay-Kay Leaver, Silvia Schievano, Andrew M. Taylor, and Jo Wray. "Use of 3D models of congenital heart disease as an education tool for cardiac nurses." Congenital Heart Disease 12, no. 1 (September 26, 2016): 113–18. http://dx.doi.org/10.1111/chd.12414.

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21

Selamet Tierney, Elif S. "The 2017 Seventh World Congress of Pediatric Cardiology & Cardiac Surgery: week in review: imaging." Cardiology in the Young 27, no. 10 (December 2017): 1991–96. http://dx.doi.org/10.1017/s1047951117002165.

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Анотація:
AbstractThe Imaging Program at the 7th World Congress highlighted the versatility and diagnostic power of the current and upcoming imaging tools in Pediatric Cardiology and Cardiac Surgery. Several experts presented interesting as well as practical data on the use of 2D and 3D Echocardiography, magnetic resonance imaging and computed tomography in the fetus, child, and adult with congenital heart disease. Bridging sessions coupled use of these imaging modalities and screening practices in patients with acquired heart disease. Hot topics included nomenclature of ventricular septal defects, the challenging diagnosis of double outlet right ventricle, cardiac tumors, and imaging of aortapathies. Several talks concentrated on the quantitative assessment of ventricular function and reviewed numerous exciting new modalities that currently serve as research tools. In summary, Imaging Sessions truly represented how far we have advanced the field of Imaging in Pediatric Cardiology and Cardiovascular Surgery.
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22

Best, Cameron, Robert Strouse, Kan Hor, Victoria Pepper, Amy Tipton, John Kelly, Toshiharu Shinoka, and Christopher Breuer. "Toward a patient-specific tissue engineered vascular graft." Journal of Tissue Engineering 9 (January 1, 2018): 204173141876470. http://dx.doi.org/10.1177/2041731418764709.

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Анотація:
Integrating three-dimensional printing with the creation of tissue-engineered vascular grafts could provide a readily available, patient-specific, autologous tissue source that could significantly improve outcomes in newborns with congenital heart disease. Here, we present the recent case of a candidate for our tissue-engineered vascular graft clinical trial deemed ineligible due to complex anatomical requirements and consider the application of three-dimensional printing technologies for a patient-specific graft. We 3D-printed a closed-disposable seeding device and validated that it performed equivalently to the traditional open seeding technique using ovine bone marrow–derived mononuclear cells. Next, our candidate’s preoperative imaging was reviewed to propose a patient-specific graft. A seeding apparatus was then designed to accommodate the custom graft and 3D-printed on a commodity fused deposition modeler. This exploratory feasibility study represents an important proof of concept advancing progress toward a rationally designed patient-specific tissue-engineered vascular graft for clinical application.
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23

Trzebiatowska-Krzynska, Aleksandra, Mieke Driessen, Gertjan Tj Sieswerda, Lars Wallby, Eva Swahn, and Folkert Meijboom. "Knowledge-based 3D reconstruction of the right ventricle: comparison with cardiac magnetic resonance in adults with congenital heart disease." Echo Research and Practice 2, no. 4 (December 2014): 109–16. http://dx.doi.org/10.1530/erp-15-0029.

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Анотація:
AimAssessment of right ventricular (RV) function is a challenge, especially in patients with congenital heart disease (CHD). The aim of the present study is to assess whether knowledge-based RV reconstruction, used in the everyday practice of an echo-lab for adult CHD in a tertiary referral center, is accurate when compared to cardiac magnetic resonance (CMR) examination.Subjects and methodsAdult patients who would undergo CMR for assessment of the RV were asked to undergo an echo of the heart for further knowledge-based reconstruction (KBR). Echocardiographic images were acquired in standard views using a predefined imaging protocol. RV volumes and ejection fraction (EF) calculated using knowledge-based technology were compared with the CMR data of the same patient.ResultsNineteen consecutive patients with congenital right heart disease were studied. Median age of the patients was 28 years (range 46 years). Reconstruction was possible in 16 out of 19 patients (85%). RV volumes assessed with this new method were smaller than with CMR. Indexed end diastolic volumes were 114±17 ml vs 121±19 ml,P<0.05 and EFs were 45±8% vs 47±9%,P<0.05 respectively. The correlation between the methods was good with an intraclass correlation of 0.84 for EDV and 0.89 for EF,Pvalue <0.001 in both cases.ConclusionKBR enables reliable measurement of RVs in patients with CHDs and can be used in clinical practice for analysis of volumes and EFs.
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24

Perens, Gregory, Justin Chyu, Kevin McHenry, Takegawa Yoshida, and J. Paul Finn. "Three-Dimensional Congenital Heart Models Created With Free Software and a Desktop Printer: Assessment of Accuracy, Technical Aspects, and Clinical Use." World Journal for Pediatric and Congenital Heart Surgery 11, no. 6 (November 2020): 797–801. http://dx.doi.org/10.1177/2150135120952072.

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Анотація:
Background: Three-dimensional printing is increasingly recognized as a valuable tool for congenital heart disease (CHD) procedural planning and education. Cost and complexity currently limit the more widespread adoption of this technology. We sought to demonstrate the accuracy of 3D printed CHD models created from contrast-enhanced magnetic resonance imaging (MRI) and computed tomography (CT) scans using free software and an inexpensive desktop fused filament fabrication (FFF) printer. Methods: Solid segmentations of the intracardiac blood pool were created with the program ITK-SNAP. Using the computer program Meshmixer, the segmentation model was hollowed to create a 0.8 mm shell with the inner surface representing endocardium. Three-dimensional models were created on an FFF printer. Four arteries and a ventricular septal defect (VSD) were 3D printed and measured for accuracy. Five models were used to assess candidacy for biventricular surgical repair and one to guide an interventional catheterization. Results: All six patients underwent intervention planned with the 3D models. The computer model shell walls all achieved specifications within 0.05 mm of the designated 0.8 mm thickness and the original solid blood pool segmentation fit within the hollowed 3D model. The 3D printed arteries and VSD all measured accurately to within 0.5 mm of their source computer model. Conclusion: Accurate 3D printed models of complex, pediatric CHD may be created from volumetric MRI and CT studies using free online software and printed on an inexpensive desktop printer.
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Lau, Ivan Wen Wen, and Zhonghua Sun. "Dimensional Accuracy and Clinical Value of 3D Printed Models in Congenital Heart Disease: A Systematic Review and Meta-Analysis." Journal of Clinical Medicine 8, no. 9 (September 18, 2019): 1483. http://dx.doi.org/10.3390/jcm8091483.

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The aim of this paper is to summarize and evaluate results from existing studies on accuracy and clinical value of three-dimensional printed heart models (3DPHM) for determining whether 3D printing can significantly improve on how the congenital heart disease (CHD) is managed in current clinical practice. Proquest, Google Scholar, Scopus, PubMed, and Medline were searched for relevant studies until April 2019. Two independent reviewers performed manual data extraction and assessed the risk of bias of the studies using the tools published on National Institutes of Health (NIH) website. The following data were extracted from the studies: author, year of publication, study design, imaging modality, segmentation software, utility of 3DPHM, CHD types, and dimensional accuracy. R software was used for the meta-analysis. Twenty-four articles met the inclusion criteria and were included in the systematic review. However, only 7 studies met the statistical requirements and were eligible for meta-analysis. Cochran’s Q test demonstrated significant variation among the studies for both of the meta-analyses of accuracy of 3DPHM and the utility of 3DPHM in medical education. Analysis of all included studies reported the mean deviation between the 3DPHM and the medical images is not significant, implying that 3DPHM are highly accurate. As for the utility of the 3DPHM, it is reported in all relevant studies that the 3DPHM improve the learning experience and satisfaction among the users, and play a critical role in facilitating surgical planning of complex CHD cases. 3DPHM have the potential to enhance communication in medical practice, however their clinical value remains debatable. More studies are required to yield a more meaningful meta-analysis.
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26

Góreczny, Sebastian, and Evan M. Zahn. "Giving up knowledge is almost never a good idea: an interview with Dr Evan Zahn." Cardiology in the Young 29, no. 12 (October 30, 2019): 1419–25. http://dx.doi.org/10.1017/s1047951119002117.

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The history of congenital interventional cardiology has seen numerous groundbreaking innovations typically related to the introduction of a new device or a novel treatment technique. Similarly, imaging of cardiac defects has changed dramatically over the past decades, although some of the advancements have seemed to omit the catheterisation laboratories. Rotational angiography, one of the imaging techniques for guidance of cardiac catheterisation currently referred to as “advanced”, in fact was described already in 1960s.1 More recently its improved version, including three-dimensional reconstruction (3DRA), became a valuable intra-procedural imaging tool in interventional cardiology and neuroradiology.2 Dr Evan Zahn was one of the pioneers of 3DRA in the field of congenital cardiology, setting an example for many to follow. With his innovative publication and subsequent lecture at 2011 Pediatric and Adult Interventional Cardiac Symposium (PICS-AICS) on “The Emerging Use of 3-Dimensional Rotational Angiography in Congenital Heart Disease” he motivated many to explore benefits of this modality to strive for improved procedural outcomes and reduced patients’ burden of cardiac catheterisation3. I was one of those to take Dr Zahn’s thoughts and implement them into routine workflow.4–6 However, almost a decade after Dr Zahn shared his important work, despite tremendous efforts by teams from Utrecht, (Netherlands) and Columbus (Ohio, United States of America) to popularise 3D imaging in catheterisation laboratory during dedicated meetings, two-dimensional (2D) angiography does not seem to be threatened in many, otherwise-progressive, laboratories. During the recent 30th Japanese Pediatric Interventional Cardiology (JPIC) meeting I had the opportunity to ask Dr Zahn why giving up knowledge is almost never a good idea, what is technology’s natural order of things, and why the technology has to be more than just exciting, pretty, and new.
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Kim, Byeol, Yue-Hin Loke, Paige Mass, Matthew R. Irwin, Conrad Capeland, Laura Olivieri, and Axel Krieger. "A Novel Virtual Reality Medical Image Display System for Group Discussions of Congenital Heart Disease: Development and Usability Testing." JMIR Cardio 4, no. 1 (December 8, 2020): e20633. http://dx.doi.org/10.2196/20633.

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Background The complex 3-dimensional (3D) nature of anatomical abnormalities in congenital heart disease (CHD) necessitates multidisciplinary group discussions centered around the review of medical images such as magnetic resonance imaging. Currently, group viewings of medical images are constrained to 2-dimensional (2D) cross-sectional displays of 3D scans. However, 2D display methods could introduce additional challenges since they require physicians to accurately reconstruct the images mentally into 3D anatomies for diagnosis, staging, and planning of surgery or other therapies. Virtual reality (VR) software may enhance diagnosis and care of CHD via 3D visualization of medical images. Yet, present-day VR developments for medicine lack the emphasis on multiuser collaborative environments, and the effect of displays and level of immersion for diagnosing CHDs have not been studied. Objective The objective of the study was to evaluate and compare the diagnostic accuracies and preferences of various display systems, including the conventional 2D display and a novel group VR software, in group discussions of CHD. Methods A total of 22 medical trainees consisting of 1 first-year, 10 second-year, 4 third-year, and 1 fourth-year residents and 6 medical students, who volunteered for the study, were formed into groups of 4 to 5 participants. Each group discussed three diagnostic cases of CHD with varying structural complexity using conventional 2D display and group VR software. A group VR software, Cardiac Review 3D, was developed by our team using the Unity engine. By using different display hardware, VR was classified into nonimmersive and full-immersive settings. The discussion time, diagnostic accuracy score, and peer assessment were collected to capture the group and individual diagnostic performances. The diagnostic accuracies for each participant were scored by two experienced cardiologists following a predetermined answer rubric. At the end of the study, all participants were provided a survey to rank their preferences of the display systems for performing group medical discussions. Results Diagnostic accuracies were highest when groups used the full-immersive VR compared with the conventional and nonimmersive VR (χ22=9.0, P=.01) displays. Differences between the display systems were more prominent with increasing case complexity (χ22=14.1, P<.001) where full-immersive VR had accuracy scores that were 54.49% and 146.82% higher than conventional and nonimmersive VR, respectively. The diagnostic accuracies provided by the two cardiologists for each participant did not statistically differ from each other (t=–1.01, P=.31). The full-immersive VR was ranked as the most preferred display for performing group CHD discussions by 68% of the participants. Conclusions The most preferred display system among medical trainees for visualizing medical images during group diagnostic discussions is full-immersive VR, with a trend toward improved diagnostic accuracy in complex anatomical abnormalities. Immersion is a crucial feature of displays of medical images for diagnostic accuracy in collaborative discussions.
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Schneider, Matthias, Matthias Beichl, Christian Nietsche, Dietrich Beitzke, Gerold Porenta, Gilbert Beran, Karin Vonbank, et al. "Systematic Evaluation of Systemic Right Ventricular Function." Journal of Clinical Medicine 9, no. 1 (December 31, 2019): 107. http://dx.doi.org/10.3390/jcm9010107.

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Background: The right ventricle serves as the subaortic systemic ventricle (sysRV) in patients with congenitally corrected transposition of the great arteries (ccTGA) and in patients with transposition of the great arteries (TGA) surgically repaired by an atrial switch. SysRV can lead to late complications, primarily heart failure, significant regurgitation of the systemic atrioventricular (AV) valve, and ventricular arrhythmias with sudden cardiac death. We sought to investigate the value of 2D- and 3D-echocardiographic parameters of sysRV function. Methods: Consecutive adult patients with sysRV who presented at the adult congenital heart disease outpatient clinic were prospectively enrolled. All patients received comprehensive transthoracic echocardiography, including 3D-echocardiography, cardiac magnetic-resonance-imaging (CMR), cardiopulmonary-exercise-testing, and blood analysis for NT-proBNP. Results. A total of 27 patients were included, 18 with TGA and nine with ccTGA. Median age was 37 years (Q1 = 31, Q3 = 44), 44% were male, median NT-proBNP was 189 pg/mL (Q1 = 155, Q3 = 467); sufficient 3D-echocardiography datasets were acquired in 78% of patients. All echocardiographic 2D and 3D volumetric function parameters correlated with CMR data, whereas a correlation was not seen with any of the longitudinal function parameters. NT-proBNP correlated with tricuspid annular plane systolic excursion (r = −0.43, p = 0.02) and CMR ejection fraction (EF) (r = −0.62, p = 0.003). Conclusion: Systematic evaluation of sysRV is complex and should include not only volumetric parameters but also parameters of longitudinal function in addition to measurement of NT-proBNP. In patients with good image quality, 3D-echocardiography can be used to assess volumes and EF.
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Dobrev, Dobri, Anna Kaneva, Stojan Lazarov, Ivan Velkovski, and Svetla Dineva. "Rare case of a mixed type total anomalous pulmonary venous return – benefits of a patient specific 3D model in the preoperative preparation." Bulgarian Cardiology 28, no. 1 (April 6, 2022): 144–53. http://dx.doi.org/10.3897/bgcardio.28.e81592.

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Accurate imaging of the morphology in a child with a rare and complex congenital heart disease (CHD) is crucial for the surgical planning and, if possible &ndash; the minimization of operative risk. We present a case of a 3-month-old child with a rare variant of Total Anomalous Pulmonary Venous Return (TAPVR) &ndash; mixed type &ndash; which illustrates the bene&#64257; t of additional imaging modalities and techniques for the operative planning. The patient&rsquo;s anomalous drainage of the pulmonary veins (PV) is as follows: left and right lower PVs drained in the coronary venous sinus, left upper PV drained via a vertical vein into the innominate vein and the right upper PV drained into the superior vena cava (SVC). Clinical &#64257; ndings consist of heart failure (HF), pulmonary venous congestion and mild hypoxemia developing within the &#64257; rst days after birth. Transthoracic echocardiography (TTE) demonstrates the features of TAPVR, but the modality is unable to differentiate all of the described anatomic details. Accurate morphological diagnosis is obtained via contrast Computed Tomography (CT). The. additional&nbsp;techniques of 3D modelling and 3D printing of a patient-speci&#64257; c model, based on the acquired CT, contributed to the planning of the surgical strategy. The patient underwent a radical operation at age of 3 months. The unique aspect of the case is the application of all possible operative techniques for correction of TAPVR &ndash; coronary sinus deroo&#64257; ng, anastomosis of a draining vessel into the left atrial appendage and Warden procedure which involves tunnelling of the right upper PVs from the SVC into the left atrium. Feedback from the surgical team shows that the additional imaging methods and the printed 3D model represent the pathology in detail that completely corresponds to the intra-operative &#64257; ndings
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Tayal, Upasana, Alexandros Kallifatidis, P. Garg, D. Beitzke, Stephanie Funk, Shimon Kolker, Tobias Rutz, et al. "MODERATED EPOSTERS1385Longitudinal strain assessment in dilated cardiomyopathy patients using a novel accelerated DENSE sequence1407Simultaneous T1 and T2 cardiac quantification with CABIRIA: initial clinical experience1423Head-to-head comparison of acceleration algorithms in 4-dimensional flow CMR1502Left ventricular function and size evaluated by hybrid cardiac positron emission tomography-magnetic resonance: Intraindividual comparison of left ventricular ejection fraction and ventricular volumes derived by two modalities1510Left Atrium assessed by Cardiovascular Magnetic Resonance at 1.5 and 3 Tesla – age and gender effects1514Comparison of Free Breathing Cardiac MRI Radial technique to the Standard Multi breath-hold cine SSFP CMR technique for the assessment of LV Volumes and Function1536Self-navigated free-breathing isotropic 3D whole heart phase sensitive inversion recovery magnetic resonance without navigator for detection of myocardial infarction1547Assessment of Right Ventricular Strain Using Myocardial Deformation Recovery Semi Automated Technique: Initial Experience and Normal Values1586Tissue tracking myocardial deformation analysis and prediction of left ventricular remodeling in acute myocardial infarction1589Investigating strategies for optimal 31P MRS clinical cardiac at 3T: Initial Results1620Quantitative Criteria for the Diagnosis of the Congenital Absence of Pericardium by Cardiac Magnetic Resonance1632Widespread tissue injury during acute myocardial infarction: evidence from advanced CMR relaxometry1322Computed tomography coronary angiography verSus sTRess cArdiac magneTic rEsonance for the manaGement of sYmptomatic revascularized patients: a cost effectiveness study (STRATEGY study)1339Comparison of low- versus high-dose of gadobutrol for late gadolinium enhancement imaging at 1.5 Tesla: a clinical feasibility study1347Multi-parametric Cardiac Magnetic Resonance for Prediction of Cardiac Complications in Thalassemia Intermedia: a Prospective Multicenter Study1461Prognostic value of Cardiovascular Magnetic Resonance derived indexes of myocardial fibrosis in heart transplant recipients1523The role of CMR in the acute phase of hospitalization: changing paradigms1542Preoperative CMR-based score predict ventricular response after surgical left ventricular reconstruction in ischemic heart failure patients1555Excellent response rate to cardiac resynchronization therapy guided with magnetic resonance imaging1626The ECG as a predictor of arrhythmogenic substrate on Cardiac Magnetic Resonance Imaging in patients undergoing ablation for premature ventricular contractions1649Comparison of T1-mapping at 3.0T CMR and angiographic APPROACH score for area at risk assessment in ST-segment elevation myocardial infarction1340Pathological correlates of left bundle branch disease in patients with non-ischemic cardiomyopathy: a cardiovascular magnetic resonance study1342Myocardial remodelling and fibrosis in nonischaemic dilated cardiomyopathy: insights from cardiovascular magnetic resonance1411The association between fibrosis and contractile dysfunction in hypertrophic cardiomyopathy assessed by cardiovascular magnetic resonance1622Persistent myocardial inflammation due to intramyocardial haemorrhage in reperfused STEMI as a precursor to adverse LV remodelling - insights from multi-parametric mapping1566Semiquantitative analysis of low and high b value DWI for detecting myocardial edema in acute myocarditis1567Value of Cardiac MRI In Detecting Coronary Artery Disease In Newly Diagnosed Systolic Dysfunction1570Usefulness of cardiac magnetic resonance in tuberous sclerosis complex1578Papillary muscles offer further insight into hypertrophied hearts: a cardiovascular magnetic resonance study1627Diagnostic and clinical implications of CMR timing (early versus late) in patients with troponin positive acute coronary syndromes and unobstructed coronary arteries: Table 1." European Heart Journal – Cardiovascular Imaging 17, suppl 1 (May 2016): i24—i36. http://dx.doi.org/10.1093/ehjci/jew182.

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Lapinskas, Tomas, Chiodi Elisabetta, Chrysanthos Grigoratos, Ricardo Ladeiras-Lopes, GJ Fent, E. Abdul Rahman, Jonathan Rodrigues та ін. "VIEWING ONLY POSTERS1323Evaluation of right ventricular transverse strain and strain rate in patients with acute ST-segment elevation myocardial infarction: a cardiac magnetic resonance feature tracking study1333Cardiac resynchronization in ischemic heart failure patients: a comparison between therapy guided by cardiac magnetic resonance imaging and 2D-speckle tracking echocardiography1338Cardiac magnetic resonance versus bisphosphonate scintigraphy for diagnosis of cardiac amyloidosis1341Strain relaxation index, a novel tagged MRI-derived diastolic function parameter, is impaired in metabolic syndrome1349Global Longitudinal Strain Predicts Chronic Myocardial Infarction in Patients with Normal Ejection Fraction1352Optimal Dose Of Dobutamine During Low-Dose Dobutamine Stress Echocardiography In Correctly Identify Viable Segments On Cardiovascular Magnetic Resonance1368Absolute wall thickening and left ventricular ejection fraction–a unifying theory of myocardial contraction and heart failure?1376Transient St Elevation in Acs Like Myocarditis1379Patients after Fontan with a “total cavopulmonary connection” Fontan modification develop more collateral flow compared to “old-fashioned” Fontan modifications1387A MRI–derived 3D patient specific model for fibrosis quantification in atrial fibrillation1391Scar burden and survival in patients with ischemic cardiomyopathy and poor LV ejection fraction1392Relation of inflammatory markers with myocardial and microvascular injury in patients with reperfused ST- elevation myocardial infarction1406Equivalence of segmented conventional and fast single-shot late gadolinium enhancement (LGE) techniques for1410Cardiac Mri Appearances of Tuberculosis - A Review of Varied Presentations in India1415Atheroma burden, cardiac remodelling and epicardial fat: A comparison between healthy South Asian and European adults using Whole Body Cardiovascular MR1418Symptomatic Ventricular Arrhythmias: Diagnostic Yield of Cardiac Magnetic Resonance1421CMR assessment of aortic stiffness in asymptomatic low risk patients with type 2 diabetes mellitus1436Shock index as a predictor of myocardial damage and clinical outcome in ST-elevation myocardial infarction1451Combined biomarker testing for the prediction of microvascular obstruction after primary percutaneous coronary intervention for acute ST-segment elevation myocardial infarction1452A novel oscillometric technique compared with cardiac magnetic resonance for the assessment of aortic pulse wave velocity in ST-segment elevation myocardial infarction1456Aorto-pulmonary collaterals evaluated by CMR is associated to reduced “effective” cardiac index late after Fontan palliation1458Evaluation of pulmonary transit time and Pulmonary Blood Volume with first-pass perfusion CMR imaging in adult with repaired Congenital Heart disease1459Prognostic value of the cardiac magnetic resonance as a predictor of improvement in ventricular function after TakoTsubo syndrome1462Diagnostic performance of ECG detection of left atrial enlargement in patients with arterial hypertension relative to the cardiac magnetic resonance gold-standard: impact of obesity1463Utility of cardiac magnetic resonance imaging for diagnosis of cardiac sarcoidosis and prediction of therapeutic effects in patients with complete heart block and implanted magnetic resonance-conditional pacemaker: A multicenter study1467Cardiac magnetic resonance late gadolinium enhancement in patients with genetic dilated cardiomyopathy14712.Left ventricular hypertrophy in hypertensive patients–comparison of Cardiac Magnetic Resonance and Echocardiographic analysis of morphological and functional LV-parameters1472Is Angiographic Perfusion Score assessed in patients with acute myocardial infarction correlated with Cardiac Magnetic Resonance infarct size and N-terminal pro-brain natriuretic peptide in 6-month follow-up1476Cardiac Magnetic Resonance Patterns of Left Ventricular Diastolic Function In Hypertrophic Cardiomyopathy1477Impact of platelet volume on thrombus burden and tissue reperfusion in patients with STEMI treated with primary angioplasty: MRI study1479Right ventricle systolic function assessment and its prognostic implications in cardiac amyloidosis1484Cardiac MRI - an important tool in the evaluation of multsystemic inflamatory diseases. An Erdheim-Chester Disease case report1485Predictive value of cardiac magnetic resonance for future adverse cardiac events in patients with ST-segment elevation myocardial infarction1486Time-to-treatment but not thrombectomy influence infarct size and microvascular obstruction in patients with acute ST-segment elevation myocardial infarction treated with primary coronary intervention1489Primary PCI versus Early Routine Post Fibrinolysis PCI for ST Elevation Myocardial Infarction1490Evaluation of ventricular function in Fontan patients undergoing feature tracking magnetic resonance strain1491Impacts of atrialized right ventricle and left ventricular displacement in Ebstein's anomaly on left ventricular function assessed by cardiovascular MRI1494Final diagnosis for patients presenting with chest pain, electrocardiographic changes or troponin rise and normal coronary arteries: insights from Cardiovascular MRI in our population1495Early Predictive Factors of LV Remodeling after STEMI; Assessment by Coronary Angiogram and Cadiovascular Magnetic Resonance1497The Pathobiologic Mechanisms and the Prognostic Meaning of t wave Inversion in Acute Myocarditis. a Study Performed by Cardiac Magnetic Resonance1501The Influence of Left Atrial Function on Exercise Tolerance in Patients with Heart Failure and Preserved Ejection Fraction: A Cardiac Magnetic Resonance Feature Tracking Study1504Microvascular Obstruction in Patients with Anterior ST-Elevation Myocardial Infarction who Underwent Primary Percutaneous Coronary Intervention: Predictors and Impact on the Left Ventricular Function1508Histological Validation of ECV Quantification by Cardiac Magnetic Resonance T1 Mapping in Cardiac Amyloidosis1513Comparative Evaluation of Flow Quantification Across the Atrioventricular Valve in Patients with Functional Univentricular Heart After Fontan's Surgery and Healthy Controls: Measurement by 4D Flow Magnetic Resonance Imaging and Streamline Visualization1515Does arterial switch for d-transposition of the great arteries alter myocardial deformation of the ventricles?1527Accuracy of T1 Mapping by multi-professional CMR operators to predict myocardial infarct1531Detecting hypertensive heart disease: the additive value of cardiovascular magnetic resonance imaging1534Diagnostic Performance of Cardiac Magnetic Resonance Strain Parameters in Assesment of Myocardial Ischemia1535Relationships between left ventricular filling pressures and longitudinal dysfunction with myocardial fibrosis in uncomplicated hypertensive patients1539Predictive Clinical Factors of Tissue Damage Severity in Reperfused Acute Myocardial Infarction as Visualized by Cardiac Magnetic Resonance1541Which CMR derived parameter predicts better the need of invasive treatment in aortic coarctation?1543Contrast-enhanced magnetic resonance tomography in patients with supraventricular tachyarrhythmias1546Prognostic Value of CMR Imaging Biomarkers on Outcome in Peripheral Arterial Disease: a 6-year Follow-up Pilot Study1549Dobutamine-Stress-CMR in Young Adults after Arterial Switch Operation as Neonates1553Impact of posteromedial papillary muscle infarction on mitral regurgitation after ST-segment elevation myocardial infarction1556Role of cardiac magnetic resonance imaging in assessment of left ventricular hypertrophy1569Using intrinsic Cardiac Shear Waves to measure Myocardial Stiffness: Preliminary results from Patients with Heart failure with preserved Ejection Fraction1571Relationship of cerebrovascular reactivity and MRI pattern of carotid atherosclerotic plaque1577Feasibility study of an MR conditional pedal ergometer for cardiac stress MRI–preliminary results in healthy volunteers and patients with suspected coronary artery disease1581Pulmonary valve replacement for severe pulmonary stenosis has a positive effect on left ventricular remodeling1582The RV after cardiac surgery, more resilient than thought: multiparametric quantification shows altered rather than reduced function1584Usefulness of cardiovascular magnetic resonance to differentate coronary artery disease from non ischemic cardiomyoptathy in patients with heart failure1593What does CMR add to the ESC Risk Prediction Model to Assess the Occurrence of Sudden Cardiac Death in Patients with HCM?1597Detecting Progression of Diffuse Interstitial Fibrosis in Alstrom Syndrome1612Diffuse fibrosis in the ventricles of patients with transposition of great arteries late after atrial switch1631Utility of Cardiac Magnetic Resonance in the diagnosis and stratification of arrhythmic risk in patients with confirmed or suspected ventricular arrhythmias1635Size matters: pulmonary veins geometry by cardiac magnetic resonance imaging in atrial fibrillation patients1642How do the differences in Left Ventricular wall measurements from Echocardiography and CMR in patients with Hypertrophic Cardiomyopathy affect current Sudden Cardiac Death Risk Scores?1651Noninvasive assessment of intracardiac viscous energy loss in Fontan patients from 4D Flow CMR1653Behcet and Myocardial Infarction: A Rare Combination1328Impact of New Cerebral Ischemic Lesions On the Occurrence of Delirium after Transcatheter Aortic Valve Implantation1329Heart T2* assessment to measure iron overload using different software tools in patients with Thalassemia Major1332Hypertrabeculated Left Ventricle at Cardiac Magnetic Resonance Imaging: β-Thalassemia Major vs. Left Ventricular Non -Compaction Disease1335Aortic Regurgitation following Transcatheter Aortic Valve Implantation (TAVI): a CMR Study of two prosthesis designs1336Incremental value of semi-quantitative evaluation of myocardium perfusion with 3T stress cardiac MRI1343Left ventricular morphological quantification with single shot and free-breathing SSFP cine imaging compared with standard breath-hold SSFP cine imaging1344Changes of cardiac iron and function during pregnancy in transfusion-dependent thalassemia patients1346Significant improvement of survival by T2* MRI in thalassemia major1350The impact of trans-catheter aortic valve implantation induced left-bundle branch block on cardiac reverse remodelling1351Value of magnetic resonance myocardial perfusion imaging in patients with indeterminate coronary computed tomography angiography results1353Gender differences in response to Transcatheter Aortic Valve implantation in patients with severe aortic stenosis assessed by feature tracking1354A qualitative assessment of first-pass perfusion bolus timings in the assessment of myocardial ischemia: A magnetic resonance study1355MRI prospective survey on cardiac iron and function and on hepatic iron in non transfusion-dependent thalassemia intermedia patients treated with desferrioxamine or non chelated1358Coronary Calcification Compromises Myocardial Perfusion Irrespective of Luminal Stenosis1359Non–contrast three–dimensional magnetic resonance imaging for pre–procedural assessment of aortic annulus dimensions in patients undergoing transcatheter aortic valve implantation1360“Systolic ventricularization” of the left atrium with bileaflet mitral valve prolapse: impact on quantification of mitral regurgitation1361CMR assessment of left ventricular remodeling 6 months after percutaneous edge-to-edge repair using Mitraclip1363Accuracy of Transthoracic Echocardiography (TTE) in comparison with Cardiac Magnetic Resonance (CMR)1374CMR for myocardial iron overload assessment: a new calibration curve from the MIOT project1381Can Speckle Tracking Imaging Reveal Myocardial Iron Overload in Thalassemia Major? A Combined Echocardiography and Cardiac Magnetic Resonance Study1382Native myocardial T1 mapping in patients with pulmonary hypertension and age matched volunteers1384A Insidious Line Between Thalassemia Intermedia And Left Ventricular Non-Compaction Disease: The Role Of Cardiac Magnetic Resonance1388Pulmonary Artery : Ascending Aorta Diameter - An Important and Easily Measureable Prognostic Parameter1394Novel carotid artery ultrasound index–Extra-media thickness and a well-established cardiac magnetic resonance fat quantification method1403Validation of CMR-derived LVOT diameters against direct in-vivo measurements1409Early myocardial perfusion measured by CMR in acute myocardial infarction treated by primary PCI–a postconditioning study1420Assessment of paravalvular aortic regurgitation after transcatheter aortic valve implantation using cardiac magnetic resonance imaging: a comparative study with echocardiography and angiography1422Left atrial strain measured by feature tracking predicts left ventricular end diastolic filling pressure1426Validation of extracellular volume equation by serial cardiac magnetic resonance imaging measurements in patients with varying hematocrit1427Assessing diastolic function applying Cardiovascular Magnetic Resonance - comparison with the gold standard1475Role of Adenosine Stress Cardiac Mri in the Setting of Chronic Total Occlusion of Coronary Arteries1520Aortic Elasticity Indexes by Magnetic Resonance Predict Progression of Ascending Aorta Dilation1522Combined atrioventricular assessment of diastolic function by cardiac magnetic resonance1537Safety, image quality and clinical utility of cardiac magnetic resonance in patients with antiarrhythmic devices1538Usefulness of cardiac magnetic resonance to predict the need for surgical procedures in patients with mitral regurgitation1550Normal T1, T2, T2* and extracellular volume reference values in healthy volunteers at 3 Tesla cardiac magnetic resonance1551Comprehensive intra-ventricular myocardial deformation strain analysis in healthy volunteers: implications for regional myocardial disease processes1557Elastic properties changes of aorta in patients with dilatation of the ascending aorta evaluated by Magnetic Resonance1558The prevalence of active myocarditis assessed by cardiovascular magnetic resonance in patients with clinically suspected myocarditis1563Quantitative assessment of myocardial scar heterogeneity using texture analysis to risk stratify post–MI patients for ICD insertion1564Gender differences in exercise capacity and LV remodeling in response to pressure overload in aortic stenosis1572Myocardial wall stress as a novel CMR measure to assess cardiac function1573Feature tracking cardiac magnetic resonance to assess LV mechanics in pressure and volume overload1574Safety, feasibility and clinical impact of Cardiovascular Magnetic Resonance in patients with MR-conditional devices1576T1 Mapping at 1-Year Following Aortic Valve Replacement: Baseline Geometry Defines Magnitude of Fibrosis Regression1583Normal values of LV global myocardial mechanics using two and three-dimensional cardiovascular magnetic resonance1585Prediction of infarct transmurality in acute myocardial infarction based on cardiac magnetic resonance deformation analysis1595Measuring invasive blood pressure by catheters guided solely by Cardiovascular Magnetic Resonance by using a new guidewire without the need of a hybrid CMR-fluoroscopy suite1599Influence of active and passive cardiac implants on CMR image quality: results from a consecutive patient series1600Reproducibility of aortic 4D flow measurements in healthy volunteers1601An automatic approach to extract 4D flow hemodynamic markers: application in BAV-affected patients1602Global myocardial mechanics with 2 and 3-Dimensional cardiovascular magnetic resonance feature tracking in patients with myocarditis1603A CMR-based clinician-friendly assessment of in vivo left ventricle hemodynamics1604Reproducibility of left atrial strain using cardiovascular magnetic resonance myocardial feature tracking1605The severity of myocardial infarction in STEMI, determined by transmurality of infarct and infarct characteristics, impacts on myocardial T2 values1606MicroRNA as potential biomarkers of acute myocardial damage following STEMI1607Myocardial blush grade is associated with microvascular obstruction on CMR following STEMI16084D Flow CMR imaging: Comparison of conventional parallel imaging and variable density k-t acceleration1609In-vitro comparison of segmented-gradient-echo versus non-segmented echo planar imaging 4D Flow CMR: validation of flow volume and 3D vortex ring assessment1614Not just 2D but also 4D flow measurements in pulsatile phantom are accurate and reproducible1615Diffusion Tensor Imaging: Comparison of Hypertrophic Cardiomyopathy, Hypertension and Healthy Cohorts1624Impact of myocardial fibrosis measured by cardiac magnetic resonance imaging on reverse left ventricular remodelling after transcatheter aortic valve implantation1625Prosthetic valve regurgitation after transcatheter aortic valve implantation with new-generation devices compared to surgical aortic valve replacement–a cardiac magnetic resonance imaging flow measurement analysis1637Assessment of Aortic and Pulmonary Artery stiffness in Patients with COPD using Cardiac Magnetic Resonance1638Myocardial Mechanics implications using 2D Cardiovascular Magnetic Resonance in Aortic Regurgitation1639Delineation of myocardial infarction & viability by 12 lead ECG vs cardiac magnetic resonance1641Regional variation in native T1 values in normal healthy volunteers?1645Feasibility of myocardial strain assessment using tissue tracking at 3.0T CMR following ST-segment elevation myocardial infarction1648Diagnostic Impact of Cardiac Magnetic Resonance in patients with acute chest pain, troponin elevation and no significant angiographic coronary artery disease". European Heart Journal – Cardiovascular Imaging 17, suppl 1 (травень 2016): i37—i84. http://dx.doi.org/10.1093/ehjci/jew183.

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Brand, M., A. Stefanidis, C. Morbach, YT Fan, D. R. A. Elremisy, VA Kuznetsov, C. Carrero, et al. "Poster Session 2The imaging examination and quality assessmentP520Benefit of early basic transthoracic echocardiography (TTE) in emergency patients performed by physicians with low to intermediate TTE experienceP521Appropriateness criteria in echocardiography. A contemporary necessity in clinical practiceP522Interobserver variability in 2d transthoracic echocardiography impact of scanning and reading on total variability results from the STAAB cohort study quality controlP5233D printing for personalised planning of catheter-based left atrial appendage occlusionP524Central obesity: an independent role or synergistic effect to metabolic syndrome on right atrial structure?P525Dynamics of left ventricular volumes and mortality in patients with early and late effect of cardiac resynchronization therapyP526Variability of thoracic aortic diameters according to gender, age and body surface area. Time to forget absolute cut-off values?P527The association of left ventricular outflow tract velocity time integral to all-cause mortality in elderly patients with heart failureP528Left ventricular myocardial performance and atrioventricular coupling in patients with primary arterial hypertensionP529Interest of a combinatory approach based on traditional left ventricular dyssynchrony parameters and cardiac work estimated by pressure-strain loop curves for the prediction of cardiac resynchronizatP530The evaluation of cardiac performance by pressure-strain loops: a useful tool for the identification of cardiac resynchronization therapy respondersP531Left ventricle cardiac function by 2D-speckle tracking echocardiography in diabetes mellitus population: sub-clinical systolic disfunction studyP532Biphasic tissue doppler mitral annular isovolumic contraction velocities are associated with left ventricular function, isovolumic relaxation, and pulmonary wedge pressure in heart failure patientsP533Abnormal left atrial volumes and strains are associated with increased arterial stiffnes in patients with cryptogenic stroke: a novel pathophysiological pathP534Detection of coronary microvascular disease using two-dimensional speckle-tracking echocardiographyP535Predictive value of a bi-dimensional transthoracic echocardiographic sign of " binary image" to identify the anomalous origin of the left circumflex coronary artery from the right coronary sinusP536Systematic review and meta-analysis of screening for coronary artery disease in asymptomatic diabetic patientsP537Noninvasive screening test for diagnosis of nonobstructive coronary artery disease using echocardiographic criteriaP538Early echocardiography after primary angioplasty, important role in predicting left ventricular remodelingP539Prognostic impact of low-flow severe aortic stenosis in Japanese patients undergoing transcatheter aortic valve implantation: the ocean-tavi registryP540Left ventricular outflow tract geometry and its impact on aortic valve area calculations in aortic stenosis using 3D transoesophageal echocardiography and 2D transthoracic echocardiographyP541Impaired left atrial myocardial deformation predicts postoperative atrial fibrillation after aortic valve replacement in patients with aortic stenosisP542Ejection fraction-velocity ratio in predicting symptoms in severe aortic stenosisP543Incremental value of transesophageal echocardiography in conjunction with transthoracic echocardiography in the assessment of aortic stenosis severity." European Heart Journal – Cardiovascular Imaging 17, suppl 2 (December 2016): ii88—ii94. http://dx.doi.org/10.1093/ehjci/jew248.

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Haberka, M., A. Garcia Martin, P. Barbier, M. Pellegrino, A. Angelis, PJ Howlett, M. Madeira, et al. "Poster session 1GENERAL PRINCIPLESP194Ultrasound indexes of adipose tissue and lipid goals attainment in high and very high cardiovascular risk patientsTHE IMAGING EXAMINATIONP195Right ventricular global longitudinal strain provides higher prognostic value than right free wall longitudinal strain in patients with left heart diseaseP196Normal values of echocardiographlc left and right cardiac chambers dimensions as multifactorially determined by sex, level of physical activity, age, BMI, systolic blood pressure and heart rateAnatomy and physiology of the heart and great vesselsP197Echocardiographic phenotypes according to levels of oxygen consumption at peak exercise: findings from the EURO(pean) EX(ercise) population-based studyAnatomy and physiology of the heart and great vesselsP198Systemic vascular resistance and central arterial stiffness in relation to left ventricular geometry and diastolic function in essential hypertensionAssessment of diameters, volumes and massP199Left atrial diameter predicts a new diagnosis of paroxysmal atrial fibrillation in a population presenting with palpitationsP200Interventricular septum thickness and acute coronary syndromes: small differences, big prognostic influence?P201Detection of abdominal aortic aneurysm in a population referred for an ultrasonographyAssessments of haemodynamicsP202The ultrasound vector velocity method transverse oscillation validated in a flowrig with constant and pulsatile flow and in-vivo of blood flow in the ascending aortaASSESSMENT OF SYSTOLIC FUNCTIONP203Different types of left ventrical remodeling in children with arterial hypertensionP204Assessment of myocardial performance index in hypertensive patients with or without hyperuricemiaP205Strain echocardiography detects mild impairment of systolic function in patients with frequent premature ventricular contractionsP206Speckle tracking strain correlates better with functional capacity and hemodynamic burden than ejection fraction in patients with severe heart failureP207Prognostic value of 2D and 3D echocardiographic volumes, ejection fraction and strain as markers of abnormal left ventricular performanceP208Long-term prognostic value of left ventricular ejection fraction assessed by echocardiography and magnetic resonance imaging after acute STEMIP209Assessment of left ventricular function after percutaneous coronary intervention of chronic total occluded coronary artery by speckle tracking and cardiac magnetic resonanceP210Physiologic variations of tricuspid annular plane systolic excursion in healthy subjects: clinical and echocardiographic correlatesP211Predictors of incipient ventricular dysfunction with tyrosine kinase inhibitors in metastatic renal cell carcinomaAssessment of diastolic functionP212Disagreement between the American Society of Echocardiography (ASE) and gastroenterology-based guidelines for the diagnosis of diastolic dysfunction among patients with advanced liver diseaseP213Nomograms for mitral inflow doppler and tissue doppler velocities in caucasian childrenP215Diastolic function is impaired in women with angina pectoris and no obstructive coronary artery disease independently of coronary microvascular functionP216Clinical value of myocardial performance index in patients with isolated diastolic dysfunctionIschemic heart diseaseP217Cardiac imaging strategy is clinically more effective and at lower cost than traditional ETT strategy for the diagnosis of stable coronary artery diseaseP218Does the ESC clinical pretest probability score stratify our patients correctly? Validation with stress echocardiographyP219Incremental value of exercise echocardiography over exercise electrocardiography in a chest pain unit: a decision curve analysisP220A bedside echocardiographic score for risk stratification of ST-elevation myocardial infarction patients undergoing primary percutaneous coronary interventionP221Interventricular and intraventricular dyssynchrony in patients with Q-wave acute myocardial infarctionP222Comparison of tagging and tissue tracking for myocardial strain assessment at 1.5T and 3.0T following ST-segment elevation myocardial infarctionP223Left atrial strain rate evaluated by two-dimensional speckle tracking is predictor of left ventricular arrhythmias in STEMI patients treated by primary PCIP224Impact of percutaneous coronary intervention of chronic total oclussion on left ventricular function using speckle tracking and cardiac magnetic resonanceHeart valve DiseasesP225Clinical and echocardiographic characteristics of patients with low flow severe aortic stenosis and preserved ejection fractionP226Ventricular-arterial interplay in patients with severe aortic stenosis: additional role of wave intensity analysisP227Degenerative aortic stenosis: don't forget the vascular componentP228Reclassifying low gradient aortic stenosis with 3D transesophageal echocardiography and global longitudinal strainP229Importance of mitral regurgitation on pre- and postoperative clinical status and echocardiographic findings in patients with severe aortic stenosis admitted for aortic valve replacementsP230Aorto-septal angle and degenerative aortic stenosis: a case-control study stenosisP231Difference of sST2 level in mitral stenosis compare with control subjectsP232Velocity-time integral of aortic regurgitation: a novel echocardiographic marker in the evaluation of aortic regurgitation severityP233Color doppler 3D echocardiography-derived regurgitant volume in primary mitral regurgitation: a comparison of different techniques with magnetic resonanceP234Outcome of surgery for degenerative mitral regurgitationP235Mitral valve repair or replacement for functional regurgitation and left ventricular dysfunction: clinical and echocardiographic outcomeP236Prevalence, characteristics and prognosis of moderate to severe tricuspid regurgitation in patients with precapillary pulmonary hypertensionP237Management of late bioprosthetic mitral valve thrombosisP238Relationship between pulmonary venous flow and prosthetic mitral valve thrombosisP239Transcatheter aortic valve implantation does not reduce acutely valvuloarterial impedance in an elderly population with degenerative calcific aortic valve stenosisP240Influence of type of prosthesis on mitral regurgitation change after transcatheter aortic valve replacement for aortic stenosisP241The prevalence of valve disease in patients undergoing atrial fibrillation ablationCardiomyopathiesP242The prognostic value of lung ultrasound at discharge in heart failureP243Prognostic value of global longitudinal strain in non-ischaemic dilated cardiomyopathyP244Additional effect of high intensity exercise training to cardiac resynchronization in heart failure: the reduction on left venticular massP245Dobutamine-induced changes of longitundinal strain predicts longterm mortality in severe heart failureP246Myocardial fibrosis is not related to two-dimensional longitudinal strain in dilated cardiomyopathyP247Echocardiographic parameters are predictors of positive genetic study in a Portuguese population with hypertrophic cardiomyopathy: a multicentre studyP248Myocardial deformation techniques for the evaluation of the right ventricle in fabry diseaseP249Borderline hypertrophic cardiomyopathy or athlete's heart: what is the role for genetic testing in athletes?P250Isolated papillary muscle hypertrophy. Clinical, electrocardiographic and morphologic characteristicsP251Prognostic value of the assessment of left atrial deformation in hypertrophic cardiomyopathyP252Assessment of subtle echocardiographic changes may improve risk stratification of arrhythmias in early stages of arrhythmogenic right ventricular cardiomyopathy (ARVC)P253Long-term correlation of electrocardiography with structural echocardiography changes in patients with arrhythmogenic right ventricular cardiomyopathyP254Right ventricular strain and dyssynchrony assessment in arrhythmogenic right ventricular cardiomyopathy: a cardiac magnetic resonance feature-tracking studyP255Association of non compaction and hypertrophic cardiomyopathies, Noonan and long QT syndromesP256Predictors of mortality in patients with acute myocarditisP257Clinical characteristics and natural history of acute myocarditisP258One-beat 3dimensional echocardiography for the assessment of right ventricular function in heart transplant recipientsP259Hemodynamically irrelevant, non-surgery related pericardial effusion is a predictor of mortality in heart transplanted patientsSystemic diseases and other conditionsP260Left ventricular function as a cardiac marker of target organ damage in non-diabetic, never treated hypertensive patients: Camparison with microalbuminuriaP261Subclinical myocardial dysfunction in hypertensive patients with hyperuricemiaP262Can deformation indices (strain/strain rate) establish differential diagnosis in infiltrative cardiomyopathies?P263Prevalence and factors associated with inappropriately high left ventricular mass in patients with rheumatoid arthritisP264Echocardiographic evaluation of patients with end-stage liver disease, the importance of follow up after liver transplantationP265Cardiovasclular involvement in asymptomatic juvenile localized scleroderma patientsP267Can the left ventricular mechanics using speckle tracking echocardiography in pregnancy predict the new onset heart failure?P268What causes impaired exercise tolerance in HFpEF? Relative contribution from LV filling pressure and other factorsCongenital heart diseaseP269Pregnancy in patients with Ebsteins anomaly - echocardiographic and clinical studyP270Double aortic arch anomalies in clinical practiceP271Echocardiography as the essential imaging modality in congenital heart disease - first one to begin with and the one who staysMasses, tumors and sources of embolismP272Can the reduction of wall shear stress in diskinetic myocardial wall segments be used to predict trombogenicity?Diseases of the aortaP273The role of modified transoesophageal echocardiography for optimal access decision making for transcatheter aortic valve replacement proceduresStress echocardiographyP274Is aortic valve resistance different in patients with severe aortic stenosis and left ventricular fraction below 40% with low or high gradient?P275Does wall motion score index in dobutamine stress echocardiography predict syntax score in catheterization lab?P276Sex-related differences in peak stress left ventricular global longitudinal strain during dobutamine stress echocardiography in patients with significant coronary artery diseaseP277Exercise stress echocardiography complications: a 4-year single center experienceP278Reduced baseline left ventricular longitudinal systolic function is a marker of inducible myocardial ischemia in patients undergoing exercise echocardiographyP279Estimation of mean pulmonary arterial pressure based on right ventricle systolic pressure observed from exercise echocardiography among non-pulmonary hypertension with systemic sclerosisTransesophageal echocardiographyP280Transoesophageal echocardiography in patients with neuroendocrine tumour and carcinoid symptoms is safe without intravenous octreotideP281The feasibility and the clinical benefit of the cognitive-behavioral intervention for preparing patients for transesophageal echocardiographic studyP282Dynamic changes of mitral annulus shape in different types of mitral valve prolapse. A three-dimensional transoesophageal studyReal-time three-dimensional TEEP283Severe aortic stenosis: evaluation of effective and anatomy valve by 2D transthoracic echocardiography and 3D transesophageal echocardiographyP2843D-transeosphageal echocardiography usefulness for assessment of cardiac output in intensive care unit: an ultrasound versus thermodilution comparative study for patients under mechanical ventilationP285The predictive value of three-dimensional vena-contracta in determining the number of MitraClip devices needed during the procedure in functional mitral regurgitationTissue Doppler and speckle trackingP286Should the septum be included in the assessment of right ventricular longitudinal strain?P287Can machine learning help to identify heart failure with preserved ejection fraction?P288Concordance of atrial function measurement by 3D volumetric echocardiography and speckle tracking deformation imagingP289Heterogonous regional diastolic function revealed by 2D speckle tracking echocardiography identifies patients with ischemic etiology of left ventricular systolic dysfunctionP290The values from Real time 3-dimensional strain is not independent from preload changesP291Risk stratification in hypertrophic cardiomyopathy. a potential role for speckle-tracking parameters by cardiac magnetic resonanceP292Abnormal longitudinal peak systolic strain in asymptomatic patients with type-I diabetes mellitusP294Strain evaluation of subclinical cardiac dysfunction in patients with myotonic dystrophy type 1P295Heart function assessment in perinatal asphyxia; speckle tracking indices from greyscale recordings perform better than from tissue Doppler recordings, fractional shortening and tissue Doppler indicesP297Longitudinal strain assessed by automatic function imaging - a useful tool in significant coronary artery disease detection in patients with low risk anginaP298Global 2-Dimensional strain as a predictor of mortality in heart transplant patients with cardiac allograft vasculopathyP299Two-dimensional longitudinal strain and strain rate in asymptomatic middle-aged patients with type 2 diabetes mellitus - a pilot study resultsP300Limited accuracy of myocardial deformation imaging in diagnosis of left ventricular segmental dysfunction in patients with acute myocardial infarction: is it only a limitation of the strain software?Computed Tomography & Nuclear CardiologyP301Evaluation of the actual prevalence of myocardial ischemia in patients prior to performing a peripheral vascular surgeryP302Prognostic value of myocardial ischemia detected by myocardial perfusion imaging in asymptomatic patients with diabetes type 2P303Economic cost analysis derived by coronary computed tomography angiography inappropriate indications to rule out coronary heart disease." European Heart Journal – Cardiovascular Imaging 16, suppl 2 (December 2015): S15—S42. http://dx.doi.org/10.1093/ehjci/jev263.

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Martins Fernandes, S., L. Badano, A. Garcia Campos, T. Erdei, G. Mehdipoor, N. Hanboly, BW Michalski, et al. "Poster session 2THE IMAGING EXAMINATIONP536Appropriate use criteria of transthoracic echocardiography and its clinical impact: a continuous challengeP537Implementation of proprietary plug-ins in the DICOM-based computerized echo reporting system fuels the use of 3D echo and deformation imaging in the clinical routine of a multivendor laboratoryP538Exercise stress echocardiography appropriate use criteria: real-life cases classification ease and agreement among cardiologistsANATOMY AND PHYSIOLOGY OF THE HEART AND GREAT VESSELSP539Functional capacity in older people with normal ejection fraction correlates with left ventricular functional reserve and carotid-femoral pulse wave velocity but not with E/e and augmentation indexP540Survey of competency of practitioners for diagnosis of acute cardiopulmonary diseases manifest on chest x-rayASSESSMENT OF DIAMETERS, VOLUMES AND MASSP541Left atrium remodeling in dialysis patients with normal ejection fractionP542The prediction of postinfarction left ventricular remodeling and the role of of leptin and MCP-1 in regard to the presence of metabolic syndromeP543Ascending aorta and common carotid artery: diameters and stiffness in a group of 584 healthy subjectsAssessments of haemodynamicsP544Alternate echo parameters in patients without estimable RVSPAssessment of systolic functionP545Reduced contractile performance in heart failure with preserved ejection fraction: determination using novel preload-adjusted maximal left ventricular ejection forceP546Left ventricular dimensions and prognosis in acute coronary syndromesP547Time course of myocardial alterations in a murine model of high fat diet: A strain rate imaging studyP548Subclinical left ventricular systolic dysfunction in patients with premature ventricular contractionsP549Global myocardial strain by CMR-based feature tracking (FT) and tagging to predict development of severe left ventricular systolic dysfunction after acute st-elevation myocardial infarctionP550Echocardiographic analysis of left and right ventricular function in patients after mitral valve reconstructionP551The role of regional longitudinal strain assessment in predicting response to cardiac resynchronization therapy in patients with left ventricular systolic dysfunction and left bundle branch blockP552Speckle tracking automatic border detection improves echocardiographic evaluation of right ventricular systolic function in repaired tetralogy of fallot patients: comparison with MRI findingsP553Echocardiography: a reproducible and relevant tool in pah? intermediate results of the multicentric efort echogardiographic substudy (evaluation of prognostic factors and therapeutic targets in pah)Assessment of diastolic functionP554Relationship between left ventricular filling pressures and myocardial fibrosis in patients with uncomplicated arterial hypertensionP555Cardiac rehabilitation improves echocardiographic parameters of diastolic function in patients with ischemic heart diseaseP556Diastolic parameters in the calcified mitral annulusP557Biomarkers and echocardiography - combined weapon to diagnose and prognose heart failure with and without preserved ejection fractionP558Diastolic function changes of the maternal heart in twin and singleton pregnancyIschemic heart diseaseP559Syntax score as predictor for the correlation between epicardial adipose tissue and the severity of coronary lesions in patients with significant coronary diseaseP560Impact of strain analysis in ergonovine stress echocardiography for diagnosis vasospastic anginaP561Cardiac magnetic resonance tissue tracking: a novel method to predict infarct transmurality in acute myocardial infarctionP562Infarct size is correlated to global longitudinal strain but not left ventricular ejection fraction in the early stage of acute myocardial infarctionP563Magnetic resonance myocardial deformation assessment with tissue tracking and risk stratification in acute myocardial infarction patientsP564Increase in regional end-diastolic wall thickness by transthoracic echocardiography as a biomarker of successful reperfusion in anterior ST elevation acute myocardial infarctionP565Mitral regurgitation is associated with worse long-term prognosis in ST-segment elevation myocardial infarction treated with primary percutaneous coronary interventionP566Statistical significance of 3D motion and deformation indexes for the analysis of LAD infarctionHeart valve DiseasesP567Paradoxical low gradient aortic stenosis: echocardiographic progression from moderate to severe diseaseP568The beneficial effects of TAVI in mitral insufficiencyP569Impact of thoracic aortic calcification on the left ventricular hypertrophy and its regression after aortic valve replacement in patients with severe aortic stenosisP570Additional value of exercise-stress echocardiography in asymptomatic patients with aortic valve stenosisP571Valvulo-arterial impedance in severe aortic stenosis: a dual imaging modalities studyP572Left ventricular mechanics: novel tools to evaluate left ventricular performance in patients with aortic stenosisP573Comparison of long-term outcome after percutaneous mitral valvuloplasty versus mitral valve replacement in moderate to severe mitral stenosis with left ventricular dysfunctionP574Incidence of de novo left ventricular dysfunction in patient treated with aortic valve replacement for severe aortic regurgitationP575Transforming growth factor-beta dependant progression of the mitral valve prolapseP576Quantification of mitral regurgitation with multiple jets: in vitro validation of three-dimensional PISA techniqueP577Impaired pre-systolic contraction and saddle-shape deepening of mitral annulus contributes to atrial functional regurgitation: a three-dimensional echocardiographic studyP578Incidence and determinants of left ventricular (lv) reverse remodeling after MitraClip implantation in patients with moderate-to severe or severe mitral regurgitation and reduced lv ejection fractionP579Severe functional tricuspid regurgitation in rheumatic heart valve disease. New insights from 3D transthoracic echocardiographyP58015 years of evolution of the etiologic profile for prosthetic heart valve replacement through an echocardiography laboratoryP581The role of echocardiography in the differential diagnosis of prolonged fever of unknown originP582Predictive value for paravalvular regurgitation of 3-dimensional anatomic aortic annulus shape assessed by multidetector computed tomography post-transcatheter aortic valve replacementP583The significance and advantages of echo and CT imaging & measurement at transcatherter aortic valve implantation through the left common carotid accessP584Comparison of the self-expandable Medtronic CoreValve versus the balloon-expandable Edwards SAPIEN bioprostheses in high-risk patients undergoing transfemoral aortic valve implantationP585The impact of transcatheter aortic valve implantation on mitral regurgitation severityP586Echocardiographic follow up of children with valvular lesions secondary to rheumatic heart disease: Data from a prospective registryP587Valvular heart disease and different circadian blood pressure profilesCardiomyopathiesP588Comparison of transthoracic echocardiography versus cardiac magnetic for implantable cardioverter defibrillator therapy in primary prevention strategy dilated cardiomyopathy patientsP589Incidence and prognostic significance of left ventricle reverse remodeling in a cohort of patients with idiopathic dilated cardiomyopathyP590Early evaluation of diastolic function in fabry diseaseP591Echocardiographic predictors of atrial fibrillation development in hypertrophic cardiomyopathyP592Altered Torsion mechanics in patients with hypertrophic cardiomyopathy: LVOT-obstruction is the topdog?P593Prevention of sudden cardiac death in hypertrophic cardiomyopathy: what has changed in the guidelines?P594Coronary microcirculatory function as determinator of longitudinal systolic left ventricular function in hypertrophic cardiomyopathyP595Detection of subclinical myocardial dysfunction by tissue Doppler ehocardiography in patients with muscular dystrophiesP596Speckle tracking myocardial deformation analysis and three dimensional echocardiography for early detection of chemotherapy induced cardiac dysfunction in bone marrow transplantation patientsP597Left ventricular non compaction or hypertrabeculation: distinguishing between physiology and pathology in top-level athletesP598Role of multi modality imaging in familiar screening of Danon diseaseP599Early impairment of global longitudinal left ventricular systolic function independently predicts incident atrial fibrillation in type 2 diabetes mellitusP600Fetal cardiovascular programming in maternal diabetes mellitus and obesity: insights from deformation imagingP601Longitudinal strain stress echo evaluation of aged marginal donor hearts: feasibility in the Adonhers project.P602Echocardiographic evaluation of left ventricular size and function following heart transplantation - Gender mattersSystemic diseases and other conditionsP603The impact of septal kinetics on adverse ventricular-ventricular interactions in pulmonary stenosis and pulmonary arterial hypertensionP604Improvement in right ventricular mechanics after inhalation of iloprost in pulmonary hypertensionP605Does the treatment of patients with metabolic syndrome correct the right ventricular diastolic dysfunction?P606Predictors of altered cardiac function in breast cancer survivors who were treated with anthracycline-based therapyP607Prevalence and factors related to left ventricular systolic dysfunction in asymptomatic patients with rheumatoid arthritis: a prospective tissue-doppler echocardiography studyP608Diastolic and systolic left ventricle dysfunction presenting different prognostic implications in cardiac amyloidosisP609Diagnostic accuracy of Bedside Lung Ultrasonography in Emergency (BLUE) protocol for the diagnosis of pulmonary embolismP610Right ventricular systolic dysfunction and its incidence in breast cancer patients submitted to anthracycline therapyP611Right ventricular dysfunction is an independent predictor of survival among cirrhotic patients undergoing liver transplantCongenital heart diseaseP612Hypoplasia or absence of posterior leaflet: a rare congenital anomaly of the mitral valveP613ECHO screening for Barlow disease in proband's relativesDiseases of the aortaP614Aortic size distribution and prognosis in an unselected population of patients referred for standard transthoracic echocardiographyP615Abdominal aorta aneurysm ultrasonographic screening in a large cohort of asympromatic volounteers in an Italian urban settingP616Thoracic aortic aneurysm and left ventricular systolic functionStress echocardiographyP617Wall motion score index, systolic mitral annulus velocity and left ventricular mass predicted global longitudinal systolic strain in 238 patients examined by stress echocardiographyP618Prognostic parameters of exercise-induced severe mitral valve regurgitation and exercise-induced systolic pulmonary hypertensionP619Risk stratification after myocardial infarction: prognostic value of dobutamine stress echocardiographyP620relationship between LV and RV myocardial contractile reserve and metabolic parameters during incremental exercise and recovery in healthy children using 2-D strain analysisP621Increased peripheral extraction as a mechanism compensatory to reduced cardiac output in high risk heart failure patients with group 2 pulmonary hypertension and exercise oscillatory ventilationP622Can exercise induced changes in cardiac synchrony predict response to CRT?Transesophageal echocardiographyP623Fully-automated software for mitral valve assessment in chronic mitral regurgitation by three-dimensional transesophageal echocardiographyP624Real-time 3D transesophageal echocardiography provides more accurate orifice measurement in percutaneous transcatheter left atrial appendage closureP625Percutaneous closure of left atrial appendage: experience of 36 casesReal-time three-dimensional TEEP626Real-time three-dimensional transesophageal echocardiography during pulmonary vein cryoballoon ablation for atrial fibrilationP627Three dimensional ultrasound anatomy of intact mitral valve and in the case of type 2 disfunctionTissue Doppler and speckle trackingP629Left ventricle wall motion tracking from echocardiographic images by a non-rigid image registrationP630The first experience with the new prototype of a robotic system for remote echocardiographyP631Non-invasive PCWP influence on a loop diuretics regimen monitoring model in ADHF patients.P632Normal range of left ventricular strain, dimensions and ejection fraction using three-dimensional speckle-tracking echocardiography in neonatesP633Circumferential ascending aortic strain: new parameter in the assessment of arterial stiffness in systemic hypertensionP634Aortic vascular properties in pediatric osteogenesis imperfecta: a two-dimensional echocardiography derived aortic strain studyP635Assessment of cardiac functions in children with sickle cell anemia: doppler tissue imaging studyP636Assessment of left ventricular function in type 1 diabetes mellitus patients by two-dimensional speckle tracking echocardiography: relation to duration and control of diabetesP637A study of left ventricular torsion in l-loop ventricles using speckle-tracking echocardiographyP638Despite No-Reflow, global and regional longitudinal strains assessed by two-dimensional speckle tracking echocardiography are predictive indexes of left ventricular remodeling in patients with STEMIP639The function of reservoir of the left atrium in patients with medicaly treated arterial hypertensionP640The usefulness of speckle tracking analysis for predicting the recovery of regional systolic function after myocardial infarctionP641Two dimensional speckle tracking echocardiography in assessment of left ventricular systolic function in patients with rheumatic severe mitral regurgitation and normal ejection fractionP642The prediction of left-main and tripple vessel coronary artery disease by tissue doppler based longitudinal strain and strain rate imagingP643Role of speckle tracking in predicting arrhythmic risk and occurrence of appropriate implantable defibrillator Intervention in patients with ischemic and non-ischemic cardiomyopathyComputed Tomography & Nuclear CardiologyP644Cardiac adrenergic activity in patients with nonischemic dilated cardiomyopathy. Correlation with echocardiographyP645Different vascular territories and myocardial ischemia, there is a gradient of association?" European Heart Journal – Cardiovascular Imaging 16, suppl 2 (December 2015): S73—S101. http://dx.doi.org/10.1093/ehjci/jev278.

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Little, Stephen H., and Jeffrey R. Parker. "Aortic Valve Stenosis." DeckerMed Family Medicine, October 29, 2020. http://dx.doi.org/10.2310/fm.1626.

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Анотація:
Valvular heart disease is a common clinical syndrome that physicians face on a routine basis. Aortic stenosis (AS) accounts for a substantial amount of these cases with differing etiologies from rheumatic, congenital bicuspid to calcific AS. Clinical history and physical examination can assist in assessing the presence and severity of AS, but echocardiography has been the gold standard for the diagnosis of AS and to assess severity. Multimodality imaging including cardiac computed tomography, magnetic resonance imaging, and 3D printing have evolved over the years, lending aid in the diagnosis and prognostication of AS. This review provides a succinct overview of the prevalence, pathophysiology, clinical assessment, and diagnosis of AS. This review contains 10 figures, 3 tables and 49 references. Key Words: aortic stenosis, cardiac computed tomography, cardiac magnetic resonance imaging, 3D printing, low-flow low-gradient aortic stenosis
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Little, Stephen H., and Jeffrey R. Parker. "Aortic Valve Stenosis." DeckerMed Medicine, October 29, 2020. http://dx.doi.org/10.2310/im.1626.

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Анотація:
Valvular heart disease is a common clinical syndrome that physicians face on a routine basis. Aortic stenosis (AS) accounts for a substantial amount of these cases with differing etiologies from rheumatic, congenital bicuspid to calcific AS. Clinical history and physical examination can assist in assessing the presence and severity of AS, but echocardiography has been the gold standard for the diagnosis of AS and to assess severity. Multimodality imaging including cardiac computed tomography, magnetic resonance imaging, and 3D printing have evolved over the years, lending aid in the diagnosis and prognostication of AS. This review provides a succinct overview of the prevalence, pathophysiology, clinical assessment, and diagnosis of AS. This review contains 10 figures, 3 tables and 49 references. Key Words: aortic stenosis, cardiac computed tomography, cardiac magnetic resonance imaging, 3D printing, low-flow low-gradient aortic stenosis
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Ghosh, Reena M., Matthew A. Jolley, Christopher E. Mascio, Jonathan M. Chen, Stephanie Fuller, Jonathan J. Rome, Elizabeth Silvestro, and Kevin K. Whitehead. "Clinical 3D modeling to guide pediatric cardiothoracic surgery and intervention using 3D printed anatomic models, computer aided design and virtual reality." 3D Printing in Medicine 8, no. 1 (April 21, 2022). http://dx.doi.org/10.1186/s41205-022-00137-9.

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Abstract Background Surgical and catheter-based interventions for congenital heart disease require precise understanding of complex anatomy. The use of three-dimensional (3D) printing and virtual reality to enhance visuospatial understanding has been well documented, but integration of these methods into routine clinical practice has not been well described. We review the growth and development of a clinical 3D modeling service to inform procedural planning within a high-volume pediatric heart center. Methods Clinical 3D modeling was performed using cardiac magnetic resonance (CMR) or computed tomography (CT) derived data. Image segmentation and post-processing was performed using FDA-approved software. Patient-specific anatomy was visualized using 3D printed models, digital flat screen models and virtual reality. Surgical repair options were digitally designed using proprietary and open-source computer aided design (CAD) based modeling tools. Results From 2018 to 2020 there were 112 individual 3D modeling cases performed, 16 for educational purposes and 96 clinically utilized for procedural planning. Over the 3-year period, demand for clinical modeling tripled and in 2020, 3D modeling was requested in more than one-quarter of STAT category 3, 4 and 5 cases. The most common indications for modeling were complex biventricular repair (n = 30, 31%) and repair of multiple ventricular septal defects (VSD) (n = 11, 12%). Conclusions Using a multidisciplinary approach, clinical application of 3D modeling can be seamlessly integrated into pre-procedural care for patients with congenital heart disease. Rapid expansion and increased demand for utilization of these tools within a high-volume center demonstrate the high value conferred on these techniques by surgeons and interventionalists alike.
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Deng, S., E. Singh, G. Wheeler, K. Pushparajah, J. A. Schnabel, J. M. Simpson, and A. Gomez Herrero. "P1566 Evaluation of haptic feedback for interaction with volumetric image data in virtual reality." European Heart Journal - Cardiovascular Imaging 21, Supplement_1 (January 1, 2020). http://dx.doi.org/10.1093/ehjci/jez319.986.

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Abstract Funding Acknowledgements Work supported by the NIHR i4i funded 3D Heart project [II-LA-0716-20001] Background 3D printing is used for surgical planning of complex congenital heart disease (CHD) because it provides an intuitive 3D representation of the image data. However, the 3D print is static and it can be costly and time consuming to create. Virtual Reality (VR) is a cheaper alternative that is able to visualise volumetric images in 3D directly from the scanner, both statically (CT and MR) and dynamically (cardiac ultrasound). However, VR visualisation is not as tangible as a 3D print - this is because it lacks the haptic feedback which would make the interactions feel more natural. Purpose Evaluate if adding haptic feedback (vibration) to the visualisation of volume image data in VR improves measurement accuracy and user experience. Method We evaluated the effect of vibration haptic feedback in our VR system using a synthetic cylinder volume dataset. The cylinder was displayed in two conditions: (1) with no haptic feedback, and (2) with haptic feedback. Ten non-clinical participants volunteered in the evaluation. They were blinded to these two test conditions. The participants were asked to measure the cylinder’s diameter horizontally and vertically, and its length, in each test condition. The measurement results were compared to the ground truth to assess the measurement accuracy. Each participant also completed a questionnaire comparing their experience of the two test conditions during the experiment. Results The results show a marginal improvement of measurement accuracy with haptic feedback, compared to no haptics (see Figure a). However, this improvement was not statistically significant. The haptic feedback did improve the participants’ confidence about their performance and increased the ease of use in VR, hence, they preferred the haptics condition to the no haptics condition (see Figure b). Moreover, although 70% of the participants reported relying on the visual cue more than on the haptic cue, 90% found that the haptic cue was helpful for deciding where to place the measurement point. Also, 88.9% of the participants felt more immersed in the VR scene with haptic feedback. Conclusion Our evaluation suggests that although haptic feedback may only marginally improve measurement accuracy, participants nevertheless preferred it because it improved confidence in their performance, increased ease of use, and facilitated a more immersive user experience. Abstract P1566 Figure.
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Ali, Arafat, David H. Ballard, Waleed Althobaity, Andy Christensen, Mariah Geritano, Michelle Ho, Peter Liacouras, et al. "Clinical situations for which 3D printing is considered an appropriate representation or extension of data contained in a medical imaging examination: adult cardiac conditions." 3D Printing in Medicine 6, no. 1 (September 23, 2020). http://dx.doi.org/10.1186/s41205-020-00078-1.

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Abstract Background Medical 3D printing as a component of care for adults with cardiovascular diseases has expanded dramatically. A writing group composed of the Radiological Society of North America (RSNA) Special Interest Group on 3D Printing (SIG) provides appropriateness criteria for adult cardiac 3D printing indications. Methods A structured literature search was conducted to identify all relevant articles using 3D printing technology associated with a number of adult cardiac indications, physiologic, and pathologic processes. Each study was vetted by the authors and graded according to published guidelines. Results Evidence-based appropriateness guidelines are provided for the following areas in adult cardiac care; cardiac fundamentals, perioperative and intraoperative care, coronary disease and ischemic heart disease, complications of myocardial infarction, valve disease, cardiac arrhythmias, cardiac neoplasm, cardiac transplant and mechanical circulatory support, heart failure, preventative cardiology, cardiac and pericardial disease and cardiac trauma. Conclusions Adoption of common clinical standards regarding appropriate use, information and material management, and quality control are needed to ensure the greatest possible clinical benefit from 3D printing. This consensus guideline document, created by the members of the RSNA 3D printing Special Interest Group, will provide a reference for clinical standards of 3D printing for adult cardiac indications.
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Karsenty, Clement, Aitor Guitarte, Yves Dulac, Jerome Briot, Sebastien Hascoet, Remi Vincent, Benoit Delepaul, et al. "The usefulness of 3D printed heart models for medical student education in congenital heart disease." BMC Medical Education 21, no. 1 (September 8, 2021). http://dx.doi.org/10.1186/s12909-021-02917-z.

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Abstract Background Three-dimensional (3D) printing technology enables the translation of 2-dimensional (2D) medical imaging into a physical replica of a patient’s individual anatomy and may enhance the understanding of congenital heart defects (CHD). We aimed to evaluate the usefulness of a spectrum of 3D-printed models in teaching CHD to medical students. Results We performed a prospective, randomized educational procedure to teach fifth year medical students four CHDs (atrial septal defect (ASD, n = 74), ventricular septal defect (VSD, n = 50), coarctation of aorta (CoA, n = 118) and tetralogy of Fallot (ToF, n = 105)). Students were randomized into printing groups or control groups. All students received the same 20 min lecture with projected digital 2D images. The printing groups also manipulated 3D printed models during the lecture. Both groups answered an objective survey (Multiple-choice questionnaire) twice, pre- and post-test, and completed a post-lecture subjective survey. Three hundred forty-seven students were included and both teaching groups for each CHD were comparable in age, sex and pre-test score. Overall, objective knowledge improved after the lecture and was higher in the printing group compared to the control group (16.3 ± 2.6 vs 14.8 ± 2.8 out of 20, p < 0.0001). Similar results were observed for each CHD (p = 0.0001 ASD group; p = 0.002 VSD group; p = 0.0005 CoA group; p = 0.003 ToF group). Students’ opinion of their understanding of CHDs was higher in the printing group compared to the control group (respectively 4.2 ± 0.5 vs 3.8 ± 0.4 out of 5, p < 0.0001). Conclusion The use of 3D printed models in CHD lectures improve both objective knowledge and learner satisfaction for medical students. The practice should be mainstreamed.
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Gómez-Ciriza, Gorka, Tomás Gómez-Cía, José Antonio Rivas-González, Mari Nieves Velasco Forte, and Israel Valverde. "Affordable Three-Dimensional Printed Heart Models." Frontiers in Cardiovascular Medicine 8 (June 4, 2021). http://dx.doi.org/10.3389/fcvm.2021.642011.

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Анотація:
This is a 7-years single institution study on low-cost cardiac three-dimensional (3D) printing based on the use of free open-source programs and affordable printers and materials. The process of 3D printing is based on several steps (image acquisition, segmentation, mesh optimization, slicing, and three-dimensional printing). The necessary technology and the processes to set up an affordable three-dimensional printing laboratory are hereby described in detail. Their impact on surgical and interventional planning, medical training, communication with patients and relatives, patients' perception on care, and new cardiac device development was analyzed. A total of 138 low-cost heart models were designed and printed from 2013 to 2020. All of them were from different congenital heart disease patients. The average time for segmentation and design of the hearts was 136 min; the average time for printing and cleaning the models was 13.5 h. The average production cost of the models was €85.7 per model. This is the most extensive series of 3D printed cardiac models published to date. In this study, the possibility of manufacturing three-dimensional printed heart models in a low-cost facility fulfilling the highest requirements from a technical and clinical point of view is demonstrated.
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42

Awori, Jonathan, Seth D. Friedman, Titus Chan, Christopher Howard, Steve Seslar, Brian D. Soriano, and Sujatha Buddhe. "3D models improve understanding of congenital heart disease." 3D Printing in Medicine 7, no. 1 (September 2, 2021). http://dx.doi.org/10.1186/s41205-021-00115-7.

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Abstract Introduction Understanding congenital heart disease (CHD) is vital for medical personnel and parents of affected children. While traditional 2D schematics serve as the typical approach used, several studies have shown these models to be limiting in understanding complex structures. Recent world-emphasis has shifted to 3D printed models as a complement to 2D imaging to bridge knowledge and create new opportunities for experiential learning. We sought to systematically compare 3D digital and physical models for medical personnel and parent education compared to traditional methods. Methods 3D printed and digital models were made out of MRI and CT data for 20 common CHD. Fellows and nurse practitioners used these models to explore intra-cardiac pathologies following traditional teaching. The models were also used for parent education in outpatient settings after traditional education. The participants were then asked to fill out a Likert scale questionnaire to assess their understanding and satisfaction with different teaching techniques. These ratings were compared using paired t-tests and Pearson’s correlation. Results Twenty-five medical personnel (18 fellows; 2 nurses; 4 nurse practitioners and one attending) and twenty parents participated in the study. The diagnosis varied from simple mitral valve pathology to complex single ventricle palliation. Parent and medical personnel perceived understanding with digital models was significantly higher than traditional (p = 0.01). Subjects also felt that physical models were overall more useful than digital ones (p = 0.001). Physicians using models for parent education also perceived the models to be useful, not significantly impacting their clinical workflow. Conclusions 3D models, both digital and printed, enhance medical personnel and parental perceived understanding of CHD.
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43

Fournier, E., C. Batteux, M. Mostefa-Kara, S. Cohen, I. Van Aerschot, A. Meliani, L. Guirgis, et al. "Echocardiography-computed tomography fusion imaging: a new approach for congenital heart disease." European Heart Journal 42, Supplement_1 (October 1, 2021). http://dx.doi.org/10.1093/eurheartj/ehab724.1866.

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Abstract Introduction Diagnosis, management and surgical decision making in children and adults with congenital heart disease are based on echocardiography. One of the most recent developments in cardiac imaging is “fusion” of different imaging modalities. Our objective was to evaluate the feasibility of imaging fusion between computed tomography (CT) and 3D trans-thoracic echocardiography (TTE) in children and adults with congenital heart disease. Methods Fourteen patients with congenital heart disease who had a CT and a 3D TTE (9.5 years [2.7–15.7], 57% male, BSA 0.9 m2 [0.6–1.7]) were prospectively included for their usual monitoring in our center. Congenital heart disease was classified as simple (n=4, 29%), moderate (n=4, 29%) or complex (n=6, 42%). A full-volume 3D heart acquisition on three cycles was performed using a VividTM E95 GE. Image fusion between CT and TTE was done using General Electrics (GE) Fusion Software. Steps required for images importation, for fusion process (alignment, landmarks, superposition), navigation and analysis were described. Results Fusion imaging between 3D TTE and CT was successful for all patients and superposition was good with a median scored at 8.5/10. Median total time required to complete the fusion process was 735 seconds [628–1163], without significant difference according to the degree of complexity of the cardiopathy. Landmarks were significantly placed differently from the reference landmarks in complex congenital heart disease. For complex cardiopathy, navigation into the heart at the same time with multiple modalities demonstrate its interest, for diagnosis or for planning surgery. Conclusion We have investigated the feasibility and the accuracy of imaging fusion between 3D TTE and CT in a varied population of patients with congenital heart disease, from children to adult. These advances allow simultaneous visualization of intracardiac structures and may help in understanding the complex anatomy of congenital heart disease, without limitations in terms of age, weight or type of congenital heart disease. Funding Acknowledgement Type of funding sources: None. Validation of fusion imagingNavigation in fusion imaging
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44

Harb, Serge C., Leonardo L. Rodriguez, Marija Vukicevic, Samir R. Kapadia, and Stephen H. Little. "Three-Dimensional Printing Applications in Percutaneous Structural Heart Interventions." Circulation: Cardiovascular Imaging 12, no. 10 (October 2019). http://dx.doi.org/10.1161/circimaging.119.009014.

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Cardiovascular 3-dimensional printing refers to the fabrication of patients’ specific cardiac anatomic replicas based on volumetric imaging data sets obtained by echocardiography, computed tomography, or magnetic resonance imaging. It enables advanced visualization and enhanced anatomic and sometimes hemodynamic understanding and also improves procedural planning and allows interventional simulation. Also, it is helpful in communication with patients and trainees. These key advantages have led to its broad use in the field of cardiology ranging from congenital to vascular and valvular disease, particularly in structural heart interventions, where many emerging technologies are being developed and tested. This review summarizes the process of 3-dimensional printing and the workflow from imaging acquisition to model generation and discusses the cardiac applications of 3-dimensional printing focusing on its use in percutaneous structural interventions, where procedural planning now commonly relies on 3-dimensional printed models.
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45

Veronese, Paola, Francesco Bertelli, Claudia Cattapan, Matteo Andolfatto, Maria Teresa Gervasi, and Vladimiro L. Vida. "Three-Dimensional Printing of Fetal Heart With d-Transposition of the Great Arteries From Ultrasound Imaging Data." World Journal for Pediatric and Congenital Heart Surgery, August 27, 2020, 215013512094768. http://dx.doi.org/10.1177/2150135120947687.

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We reconstructed and printed a 3D model of the fetal heart affected by d-transposition of the great arteries from prenatal ultrasound images. Our 3D model revealed to be very helpful in showing the basic anatomical features of fetal complex Congenital Heart Disease (CHD) and represents an interesting additional diagnostic tool to the current standard imaging armamentarium, improving the quality of prenatal parental counseling.
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46

Sun, Feifei, Aijiao Sun, Yixin Chen, Yangjie Xiao, Xintong Zhang, Wei Qiao, Xueying Tan, et al. "Novel TrueVue series of 3D echocardiography: Revealing the pathological morphology of congenital heart disease." Frontiers in Physiology 13 (September 6, 2022). http://dx.doi.org/10.3389/fphys.2022.1000007.

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Aims: This study explored the advantages and limitations of novel series of three-dimensional (3D) echocardiographic techniques and summarized their application methods for congenital heart diseases (CHDs).Method and result: Two-dimensional (2D), traditional 3D echocardiography, and TrueVue plus light and/or Glass novel 3D technologies were performed on 62 patients with CHD, and a clinical survey was designed to judge whether the novel 3D images were more helpful for understanding the cardiac condition and guide treatment than traditional 3D images. TrueVue increased the visual resolution and simulated the true texture of cardiac tissue, significantly improving the display ability of abnormal anatomical structures in CHDs. TrueVue Glass displayed the blood channel and the internal structure of cardiac cavity more intuitively, indicating a new observation aspect not shown by conventional echocardiography. The clinical survey results showed that the new 3D imaging methods effectively increased the diagnostic confidence of echocardiographers, enabled surgeons to better understand the details of lesions, promoted efficient communication, and improved the confidence of both doctors and patients in treatment.Conclusion: The combined application of TrueVue, TrueVue Light, and TrueVue Glass more closely simulated real anatomical features, showed more comprehensive and subtle blood flow in the lumen, not only increased the visual effect but also provided more useful diagnostic information, improved the accuracy of evaluation and treatment of CHD when compared to traditional imaging techniques, indicating that this combined application has significant clinical value.
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47

Yang, Dong Hyun, Sang-Hyub Park, Namkug Kim, Eun Seok Choi, Bo Sang Kwon, Chun Soo Park, Seul Gi Cha, et al. "Incremental Value of 3D Printing in the Preoperative Planning of Complex Congenital Heart Disease Surgery." JACC: Cardiovascular Imaging, August 2020. http://dx.doi.org/10.1016/j.jcmg.2020.06.024.

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48

Seckeler, Michael D., Brian A. Boe, Brent J. Barber, Darren P. Berman, and Aimee K. Armstrong. "Use of rotational angiography in congenital cardiac catheterisations to generate three-dimensional-printed models." Cardiology in the Young, February 18, 2021, 1–5. http://dx.doi.org/10.1017/s1047951121000275.

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Abstract Background: Three-dimensional printing is increasingly utilised for congenital heart defect procedural planning. CT or MR datasets are typically used for printing, but similar datasets can be obtained from three-dimensional rotational angiography. We sought to assess the feasibility and accuracy of printing three-dimensional models of CHD from rotational angiography datasets. Methods: Retrospective review of CHD catheterisations using rotational angiography was performed, and patient and procedural details were collected. Imaging data from rotational angiography were segmented, cleaned, and printed with polylactic acid on a Dremel® 3D Idea Builder (Dremel, Mount Prospect, IL, USA). Printing time and materials’ costs were captured. CT scans of printed models were compared objectively to the original virtual models. Two independent, non-interventional paediatric cardiologists provided subjective ratings of the quality and accuracy of the printed models. Results: Rotational angiography data from 15 catheterisations on vascular structures were printed. Median print time was 3.83 hours, and material costs were $2.84. The CT scans of the printed models highly matched with the original digital models (root mean square for Hausdorff distance 0.013 ± 0.003 mesh units). Independent reviewers correctly described 80 and 87% of the models (p = 0.334) and reported high quality and accuracy (5 versus 5, p = NS; κ = 0.615). Conclusion: Imaging data from rotational angiography can be converted into accurate three-dimensional-printed models of CHD. The cost of printing the models was negligible, but the print time was prohibitive for real-time use. As the speed of three-dimensional printing technology increases, novel future applications may allow for printing patient-specific devices based on rotational angiography datasets.
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49

Rykiel, Graham, Claudia S. López, Jessica L. Riesterer, Ian Fries, Sanika Deosthali, Katherine Courchaine, Alina Maloyan, Kent Thornburg, and Sandra Rugonyi. "Multiscale cardiac imaging spanning the whole heart and its internal cellular architecture in a small animal model." eLife 9 (October 20, 2020). http://dx.doi.org/10.7554/elife.58138.

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Cardiac pumping depends on the morphological structure of the heart, but also on its subcellular (ultrastructural) architecture, which enables cardiac contraction. In cases of congenital heart defects, localized ultrastructural disruptions that increase the risk of heart failure are only starting to be discovered. This is in part due to a lack of technologies that can image the three-dimensional (3D) heart structure, to assess malformations; and its ultrastructure, to assess organelle disruptions. We present here a multiscale, correlative imaging procedure that achieves high-resolution images of the whole heart, using 3D micro-computed tomography (micro-CT); and its ultrastructure, using 3D scanning electron microscopy (SEM). In a small animal model (chicken embryo), we achieved uniform fixation and staining of the whole heart, without losing ultrastructural preservation on the same sample, enabling correlative multiscale imaging. Our approach enables multiscale studies in models of congenital heart disease and beyond.
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50

Milano, E. G., E. Pajaziti, S. Schievano, A. Cook, and C. Capelli. "P369 Patient specific virtual reality for education in congenital heart disease." European Heart Journal - Cardiovascular Imaging 21, Supplement_1 (January 1, 2020). http://dx.doi.org/10.1093/ehjci/jez319.218.

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Abstract Funding Acknowledgements La Fondation Dassault Systèmes, British Heart Foundation Background Virtual reality (VR) provides a unique possibility to interact with three-dimensional objects. Still in its infancy, the integration of VR with advanced cardiovascular imaging technology allows users to handle patient-specific cardiac models. Purpose The purpose of this study was to evaluate the potential role of VR in teaching cardiac morphology of congenital heart diseases to healthcare professionals. Methods From October 2018 to April 2019, a VR application was developed in-house and incorporated within the Cardiac Morphology courses run monthly at our centre. The VR software included patient-specific 3D models which were reconstructed from 3D imaging datasets (micro-CT, CT, CMR or 3D echo data). The most important cardiac structures were labelled to allow easier identification of anatomical features (Figure 1). Each participant had the possibility to evaluate 6 different patient specific models including: a foetal normal heart, a foetal Transposition of the Great Arteries, a foetal Atrioventricular septal defect, a four-month-old Tetralogy of Fallot, a four-month-old Double Outlet Right Ventricle with uncommitted ventricular septal defect and a one-year-old Patent Ductus Arteriosus. All the attendees could evaluate the models individually for 5 to 15 minutes. A short survey with six questions was administered at the end of the session. The survey included sections asking for professional background information, prior VR experience and feedback on the VR experience which was assessed with a 5 points Likert-type scale (from 1 to 5). Results The VR session was attended by 20 delegates with mixed professional backgrounds including cardiac surgeons, cardiologists, cardiac anaesthesiologists, paediatricians, pathologists and medical students. Only 2 out of 20 had tried a virtual reality application before, although neither of those prior VR experiences had a medical focus. The VR application was considered ‘’extremely helpful’’ (5/5) in understanding the anatomy by 44% of participants, and ‘’very helpful’’(4/5) by another 44%. The methods of interaction (e.g. grabbing objects, using a cutting tool) were considered "extremely intuitive’’ (5/5) by 72% of attendees, and "very intuitive"(4/5) by 27%. In 94% of the cases, the attendees responded to be "very willing"(4/5) or "extremely willing"(5/5) to implement a VR setup at their own institutions for the purpose of evaluating cardiac anatomies. Conclusion The use of the VR station in cardiac morphology courses was very well received by the attendees, as it is frequently considered easy to use and very helpful in aiding the understanding of congenital heart diseases. The survey highlighted a great potential for implementing this tool in educational programmes. Abstract P369 Figure 1
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