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Books on the topic 'Image guided procedure'

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Published: 11 March 2023

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1

S, Lee Thomas, and Berkwits Leland, eds. Atlas of image-guided spinal procedures. Philadelphia, PA: Elsevier Saunders, 2013.

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2

Prithvi, Raj P., ed. Interventional pain management: Image-guided procedures. 2nd ed. Philadelphia, PA: Saunders/Elsevier, 2008.

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3

Taslakian, Bedros, Aghiad Al-Kutoubi, and Jamal J. Hoballah, eds. Procedural Dictations in Image-Guided Intervention. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-40845-3.

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4

author, Shah Lubdha M., ed. Specialty imaging: Pain management : essentials of image-guided procedures. Salt Lake City, Utah: Amirsys, 2011.

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5

1951-, Mauro Matthew A., ed. Image-guided interventions. Philadelphia, PA: Saunders/Elsevier, 2008.

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6

Alterovitz, Ron. Motion planning in medicine: Optimization and simulation algorithms for image-guided procedures. Berlin: Springer, 2008.

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7

Alterovitz, Ron. Motion planning in medicine: Optimization and simulation algorithms for image-guided procedures. Berlin: Springer, 2008.

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8

missing], [name. Advanced techniques in image-guided brain and spine surgery. New York, NY: Thieme, 2003.

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9

1955-, Galloway Robert Lee, American Association of Physicists in Medicine., and Society of Photo-optical Instrumentation Engineers., eds. Medical imaging 2003: Visualization, image-guided procedures, and display : 16-18 February 2003, San Diego, California, USA. Bellingham, Wash: SPIE, 2003.

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10

Wong, Kenneth H. Medical imaging 2010: Visualization, image-guided procedures, and modeling : 14-16 February 2010, San Diego, California, United States. Bellingham, Wash: SPIE, 2010.

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11

Wong, Kenneth H. Medical imaging 2010: Visualization, image-guided procedures, and modeling : 14-16 February 2010, San Diego, California, United States. Bellingham, Wash: SPIE, 2010.

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12

Fla.) Medical Imaging (Conference : SPIE (Society)) (2013 Lake Buena Vista. Medical Imaging 2013: Image-Guided Procedures, Robotic Interventions, and Modeling : 12-14 February 2013, Lake Buena Vista, Florida, United States. Edited by Holmes, David R., III, editor, Yaniv Ziv R. editor, SPIE (Society), Aeroflex Corporation, American Association of Physicists in Medicine, and Image-Guided Procedures, Robotic Interventions, and Modeling (Conference) (2013 : Lake Buena Vista, Fla.). Bellingham, Washington: SPIE, 2013.

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13

Wong, Kenneth H., and Michael I. Miga. Medical imaging 2009: Visualization, image-guided procedures, and modeling : 8-10 February 2009, Lake Buena Vista, Florida, United States. Edited by SPIE (Society) and American Association of Physicists in Medicine. Bellingham, Wash: SPIE, 2009.

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14

Wong, Kenneth H., and Holmes David R. Medical imaging 2012: Image-guided procedures, robotic interventions, and modeling : 5-7 February 2012, San Diego, California, United States. Edited by SPIE (Society), Agilent Technologies, and American Association of Physicists in Medicine. Bellingham, Wash: SPIE, 2012.

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15

David, Dershaw D., ed. Imaging-guided interventional breast techniques. New York: Springer, 2003.

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16

The safe and sane guide to teenage plastic surgery. Dallas, Tex: BenBella Books, 2010.

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17

Di Carlo, Philip A. Ultrasound-Guided Core Biopsy. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0056.

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Prior to 1993, when ultrasound-guided core breast biopsy was first described by Parker and colleagues, surgery following image-guided needle localization was necessary to obtain a histological diagnosis of breast lesions. But there are many financial, practical, and clinical advantages of image-guided core biopsy over surgical excisional biopsy. There are also many advantages to ultrasound-guided biopsy over stereotactic- or MRI-guided biopsy, detailed in this chapter. Ultrasound is now usually the modality of choice by which to perform core biopsies if the lesion is visualized by multiple imaging modalities. This chapter, appearing in the section on interventions and surgical changes, reviews the key points of performing ultrasound-guided core biopsy. Topics discussed include protocols for both spring-loaded and vacuum-assisted devices; pre-procedure and post-procedure management, and imaging follow-up.
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18

Loving, Vilert A. Pre-Operative Localization. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0059.

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Non-palpable, surgical breast lesions require image guidance to direct the site of excision. With the widespread adoption of screening mammography and increased identification of non-palpable breast cancers, image guidance is critical to support the surgeon in successful breast-conserving surgery. Pre-operative localization procedures are typically performed under mammography guidance or ultrasound guidance, and less commonly under magnetic resonance imaging (MRI) guidance. This chapter, appearing in the section on interventions and surgical changes, reviews protocols and pitfalls, pre-/peri-/post-procedure clinical management, and imaging follow-up of pre-operative localization procedures. Topics discussed include mammography-guided, ultrasound-guided, and MRI-guided localization procedures. This chapter also introduces the radioactive seed and radiofrequency identification localization procedures and discusses post-operative specimen radiographs.
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19

Malajikian, Krikor, and Daniel Finelli. Basics of Computed Tomography. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199908004.003.0003.

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Computed tomography (CT)-guidance is typically used when precise needle placement is essential for a successful procedure. It uses ionizing radiation, which could pose risks to the patient and operating staff if proper technique is not used. The performing physician should adhere to all principles of minimizing radiation exposure to the patient and clinicians. Common CT-guided imaging procedures include facet injections, nerve root injections, sacroiliac joint injections, intradiscal procedures, vertebroplasty/sacroplasty, and image-guided ablation of painful bone lesions. Computed tomography is also the imaging modality of choice for aspiration of deep paraspinal soft tissues in addition to disc space or bone biopsy in acute discitis/osteomyelitis. In fluoroscopic-guided knee or shoulder joint injections, CT arthrography is a useful adjunct to better assess anatomy when MRI is contraindicated. When imaging the postoperative spine, CT myelography has some advantages over MRI, and CT is also superior to MRI in assessing par intra-articularis defects or spondylolysis.
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20

Interventional Pain Management: Image-Guided Procedures. 2nd ed. Saunders, 2008.

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21

Kirschner, Jonathan S., Michael Bruce Furman, Isaac Cohen, Brad Goodman, and Paul Sean Lin. Atlas of Image-Guided Spinal Procedures. Elsevier - Health Sciences Division, 2017.

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22

Hughes, Jim. Introduction to Intra-Operative and Surgical Radiography. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198813170.001.0001.

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This book is designed to be both a quick guide and a reference text for radiographers and other staff who perform imaging during surgical procedures. Over 40 of the most common procedures are covered in detail, from initial setup to sending final images, with sections on patient positioning, C-arm approach, anatomy, surgical hardware, and alternative techniques. These include cases related to orthopaedics, urology, paediatrics, neurology, and other branches of medicine. Each chapter covers both surgical and imaging techniques, to give the radiographer a better idea of what is required in terms of imaging and technique, along with comprehensive positioning graphics and accompanying high-quality radiograph images. The techniques and methods demonstrated are fully explained, and will allow staff to confidently perform imaging for procedures not covered in the text. Also included are sections on the practical skills required for working in theatres (such as team work and safe practice), infection control, radiation protection, exposures, and image quality, as well as discussions about the function, systems, and usage of intraoperative imaging equipment. This includes both image intensifier (II) systems and the newer flat-panel detector systems. Image artefacts and the effects of under- and overexposure are also covered, with examples of radiograph images and details on how to remedy them. Each chapter is separated by specialty and body region for quick reference and ease of navigation, while key points and imaging considerations are highlighted in each procedure for emphasis.
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23

Roberts, David, Gene H. Barnett, and Robert Maciunas. Image-Guided Neurosurgery. Taylor & Francis Group, 2002.

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24

Su, Li-Ming, and Joseph C. Liao. Advances in Image-Guided Urologic Surgery. Springer, 2014.

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25

Su, Li-Ming, and Joseph C. Liao. Advances in Image-Guided Urologic Surgery. Springer, 2014.

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26

Su, Li-Ming, and Joseph C. Liao. Advances in Image-Guided Urologic Surgery. Springer, 2016.

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27

Yaniv, Ziv R., and David R. Holmes. Medical Imaging 2014: Image-Guided Procedures, Robotic Interventions, and Modeling. SPIE, 2014.

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28

Webster, Robert. Medical Imaging 2015: Image-Guided Procedures, Robotic Interventions, and Modeling. SPIE, 2015.

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29

Webster, Robert, and Baowei Fei. Medical Imaging 2017: Image-Guided Procedures, Robotic Interventions, and Modeling. SPIE, 2018.

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30

Yaniv, Ziv R., and Robert J. Webster. Medical Imaging 2016: Image-Guided Procedures, Robotic Interventions, and Modeling. SPIE, 2016.

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31

Pua, Bradley B., Anne M. Covey, and David C. Madoff, eds. Interventional Radiology. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190276249.001.0001.

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In 2012, the American Board of Medical Specialties (ABMS) approved Interventional Radiology (IR) as its own specialty. Born out of the field of Diagnostic Radiology, IR requires a more clinical focus on initial consultation and post-procedural management, rather than its previous role of performing image-guided procedures. Interventional Radiology: Fundamentals of Clinical Practice is written with this new focus in mind to help readers incorporate their procedural knowledge into a holistic approach of patient management. Chapters explore topics across a broad spectrum of IR, with a focus on etiology and pathophysiology of disease, followed by discussions on intra-procedural and post-procedural management. Numerous tables and boxes, and over 420 total figures complement chapter content. This comprehensive text is a must-have text for IR residents and reference for all practicing interventional radiologists.
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32

Lerman, Imanuel R., Joseph Hung, Dmitri Souzdalnitski, Bruce Vrooman, and Mihir Kamdar. Celiac Plexus Blockade and Neurolysis: Fluoroscopy. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199908004.003.0032.

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Image-guided celiac plexus neurolysis can provide substantial and long-lasting pain relief in patients suffering from malignant pain from upper abdominal viscera. When performed by experienced hands, celiac plexus neurolysis also appears to be a relatively safe procedure with a limited side effect profile. Multiple imaging modalities are available for this procedure, though no single approach has systematically been proven superior in terms of efficacy or side effect profile. Each imaging guidance modality has advantages and disadvantages. Given the ability to visualize soft-tissue structures, CT guidance is recommended over fluoroscopy when intentionally transgressing into the retroperitoneum for celiac plexus neurolysis. It is also recommended in those patients with complicated anatomy, where anatomic distortion may complicate successful celiac blockade. However, in the patient without significant tumor burden involving the celiac axis and/or pancreatic body/tail, the fluoroscopy-guided retrocrural approach has been demonstrated to be efficacious, and complications are exceedingly rare.
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33

Kraft, Jeannette Kathrin, and Peter Howells. Ionizing radiation and radiation protection. Edited by Christopher G. Winearls. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199592548.003.0010_update_001.

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Ionizing radiation continues to revolutionize the diagnostic process in medicine. However, it comes with risks to patients and staff. The amount of radiation patients receive is rising, mainly due to the use of high-dose examinations such as computed tomography and image-guided interventional procedures. In some countries, the amount of radiation a population receives from medical use is already larger than that from natural background radiation. A basic knowledge of radiation effects on the human body and radiation protection principles enables clinicians to assess potential risks associated with ionizing radiation and guides the choice of investigation.
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34

Image-Guided Interventions: Expert Radiology Series. Saunders, 2013.

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35

Cleary, Kevin R. Medical Imaging 2006: Visualization, Image-guided Procedures, and Display (Proceedings of SPIE). Society of Photo Optical, 2006.

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36

Motion Planning in Medicine: Optimization and Simulation Algorithms for Image-Guided Procedures. Berlin, Heidelberg: Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-69259-1.

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37

Ken, Goldberg, and Ron Alterovitz. Motion Planning in Medicine: Optimization and Simulation Algorithms for Image-Guided Procedures. Springer, 2010.

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38

Fitzpatrick, J. Michael, and Robert F. Labadie. Image-Guided Surgery: Fundamentals and Clinical Applications in Otolaryngology. Plural Publishing Inc., 2016.

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39

Lee, Bonmyong. Stereotactic Core Biopsy. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0055.

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Stereotactic biopsy systems utilize angled mammography images and parallax shift to localize and sample a target. The most common indication for stereotactic core biopsy is to sample suspicious/indeterminate calcifications, but it can be used to biopsy any mammographic finding (mass, developing asymmetry, architectural distortion). In benign cases, core biopsy may avoid unnecessary surgery. In malignant cases, core biopsy allows for a pathological diagnosis prior to lumpectomy, and better surgical planning. This chapter, appearing in the section on interventions and surgical procedures, provides a practical guide to stereotactic core biopsy. Topics discussed include stereotactic core biopsy equipment, procedure protocols and pitfalls, clinical management, and imaging follow-up.
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40

Taslakian, Bedros, Aghiad Al-Kutoubi, and Jamal J. Hoballah. Procedural Dictations in Image-Guided Intervention: Non-Vascular, Vascular and Neuro Interventions. Springer International Publishing AG, 2016.

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41

Taslakian, Bedros, Aghiad Al-Kutoubi, and Jamal J. Hoballah. Procedural Dictations in Image-Guided Intervention: Non-Vascular, Vascular and Neuro Interventions. Springer London, Limited, 2016.

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42

H, Barnett Gene, Roberts David W. 1950-, and Maciunas Robert J, eds. Image-guided neurosurgery: Clinical applications of surgical navigation. St. Louis, Mo: Quality Medical Pub., 1998.

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43

Barnett, Gene M. D., Robert M. D. Maciunas, and David M. D. Roberts. Image-Guided Neurosurgery: Clinical Applications of Surgical Navigation. Quality Medical Publishing, 1998.

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44

Mitchell, Andrew, Giovanni Luigi De Maria, and Adrian Banning, eds. Cardiac Catheterization and Coronary Intervention. Oxford University Press, 2020. http://dx.doi.org/10.1093/med/9780198705642.001.0001.

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Cardiac catheterization and coronary angiography are both key components to routine cardiology practice. This new edition of Cardiac Catheterization and Coronary Intervention has been fully updated since the first edition, with new sections on primary percutaneous coronary intervention, trends in vascular access, bioabsorbable stents, optical coherence tomography, and more. Filled with over 150 clinical images and schematic illustrations, the handbook is an accessible ‘how-to’ guide, designed to demystify complex cardiac catheterization investigations. Expanded to reflect developments in practice, this new edition also introduces a new chapter on the multidisciplinary team and their roles and responsibilities from pre- to post-procedural care and relevant training requirements. It contains detailed instructions on how to perform a comprehensive left and right heart catheterization procedure, choosing the correct catheter for coronary and graft angiography, and how to perform a diagnostic coronary angiogram and interpret the subsequent findings.
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45

Imaging-guided interventional breast techniques. New York: Springer, 2003.

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46

(Editor), David D. Dershaw, and D. D. Dershaw (Introduction), eds. Imaging-Guided Interventional Breast Techniques. Springer, 2002.

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47

Przkora, Rene, Richard Cleveland Sims, and Andrea Trescot. Sacroiliac Pain. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190626761.003.0012.

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The sacroiliac joint (SIJ) is often overlooked as a cause of pain, partially because it is not well visualized on standard imaging and partially because other structures may refer pain to it. This chapter reviews the anatomy of the SIJ as well as the diagnosis and differential diagnosis of SI joint dysfunction and pain, including a multitude of physical exam maneuvers such as the FABER, Gaenslen, extension, Gillet’s, sacroiliac shear, thigh thrust, compression, and distraction tests. In addition, it discusses the evidence-based approach to treat sacroiliac pain, with a focus on both conservative and nonconservative approaches such as image-guided steroid injections and radiofrequency denervation procedures and outcomes.
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48

Weston, Michael J. Renal radiology. Edited by Christopher G. Winearls. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199592548.003.0009.

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This chapter acts as an introduction to Chapters 10–16 and highlights the uses of plain radiography, fluoroscopy, ultrasound, computed tomography, positron emission tomography, magnetic resonance imaging, radionuclide studies, and image-guided intervention. All imaging studies work best if a specific question is asked. This helps to choose both the best modality and protocol to answer the question. The clinical information given will often assist the interpretation of the findings. The more vague the indication for a scan, the less likely that useful information will be provided. Both the requesting clinician and the radiologist need to be clear how the scan result will alter management. Performing imaging procedures that will not alter the outcome is wasteful and unkind to the patient.
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49

Kraft, Jeannette Kathrin, and Peter Howells. Ionizing radiation and radiation protection. Edited by Michael Weston. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199659579.003.0131.

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Ionizing radiation has been revolutionizing the diagnostic process in medicine. However, its use is not without risk, necessitating protection of patients and staff from potential harm. The amount of radiation patients receive continues to rise, mainly due to the use of high-dose examination techniques such as computed tomography and image-guided interventional procedures. In some countries, the amount of radiation a population receives from medical use is already larger than that from natural background radiation. Therefore, a basic knowledge of radiation effects on the human body, radiation protection principles, and relevant legislation is of great importance to all clinicians. This will enable doctors to assess potential risks associated with ionizing radiation in medical imaging and to make an informed choice when different investigations are available to assess a patient.
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50

Feigin, Kimberly, and Donna D’Alessio. Communication in cancer radiology. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198736134.003.0046.

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Diagnostic radiologists are often the first to know of a patient’s medical diagnosis, disease progression, or response to treatment. Communicating this information to both the referring physician and often directly to the patient has become increasingly important as the role of radiologists in patient care has evolved. As technology advances, and the field of radiology extends beyond the interpretation of diagnostic imaging into that of intervention and treatment, timely and clear communication of imaging results, limitations of radiology examinations, and the risks associated with image-guided interventional and therapeutic procedures is a priority. Instituting structured reporting, reporting lexicons, and formal communication skills training for radiologists are a few measures that radiologists can take to improve communication in the field. Such efforts to improve communication in radiology are integral components to enhancing and expanding the role of radiologists in patient care.
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