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Articles de revues sur le sujet « CARE DIAGNOSTICS »

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Auteur : Grafiati
Publié le 11 septembre 2023

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1

Rajsic, Sasa, Robert Breitkopf, Mirjam Bachler et Benedikt Treml. « Diagnostic Modalities in Critical Care : Point-of-Care Approach ». Diagnostics 11, no 12 (25 novembre 2021) : 2202. http://dx.doi.org/10.3390/diagnostics11122202.

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The concept of intensive care units (ICU) has existed for almost 70 years, with outstanding development progress in the last decades. Multidisciplinary care of critically ill patients has become an integral part of every modern health care system, ensuing improved care and reduced mortality. Early recognition of severe medical and surgical illnesses, advanced prehospital care and organized immediate care in trauma centres led to a rise of ICU patients. Due to the underlying disease and its need for complex mechanical support for monitoring and treatment, it is often necessary to facilitate bed-side diagnostics. Immediate diagnostics are essential for a successful treatment of life threatening conditions, early recognition of complications and good quality of care. Management of ICU patients is incomprehensible without continuous and sophisticated monitoring, bedside ultrasonography, diverse radiologic diagnostics, blood gas analysis, coagulation and blood management, laboratory and other point-of-care (POC) diagnostic modalities. Moreover, in the time of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic, particular attention is given to the POC diagnostic techniques due to additional concerns related to the risk of infection transmission, patient and healthcare workers safety and potential adverse events due to patient relocation. This review summarizes the most actual information on possible diagnostic modalities in critical care, with a special focus on the importance of point-of-care approach in the laboratory monitoring and imaging procedures.
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Drain, Paul K., et Christine Rousseau. « Point-of-care diagnostics ». Current Opinion in HIV and AIDS 12, no 2 (mars 2017) : 175–81. http://dx.doi.org/10.1097/coh.0000000000000351.

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Mira, Juan C., et Lyle L. Moldawer. « Sepsis Diagnostics ». Critical Care Medicine 45, no 1 (janvier 2017) : 129–30. http://dx.doi.org/10.1097/ccm.0000000000002117.

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Bharadwaj, Mitasha, Michel Bengtson, Mirte Golverdingen, Loulotte Waling et Cees Dekker. « Diagnosing point-of-care diagnostics for neglected tropical diseases ». PLOS Neglected Tropical Diseases 15, no 6 (17 juin 2021) : e0009405. http://dx.doi.org/10.1371/journal.pntd.0009405.

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Inadequate and nonintegrated diagnostics are the Achilles’ heel of global efforts to monitor, control, and eradicate neglected tropical diseases (NTDs). While treatment is often available, NTDs are endemic among marginalized populations, due to the unavailability or inadequacy of diagnostic tests that cause empirical misdiagnoses. The need of the hour is early diagnosis at the point-of-care (PoC) of NTD patients. Here, we review the status quo of PoC diagnostic tests and practices for all of the 24 NTDs identified in the World Health Organization’s (WHO) 2021–2030 roadmap, based on their different diagnostic requirements. We discuss the capabilities and shortcomings of current diagnostic tests, identify diagnostic needs, and formulate prerequisites of relevant PoC tests. Next to technical requirements, we stress the importance of availability and awareness programs for establishing PoC tests that fit endemic resource-limited settings. Better understanding of NTD diagnostics will pave the path for setting realistic goals for healthcare in areas with minimal resources, thereby alleviating the global healthcare burden.
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Pereira, Stephen. « Early diagnostics in secondary care ». Pancreatology 20, no 8 (décembre 2020) : e2. http://dx.doi.org/10.1016/j.pan.2018.10.015.

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Ehrenkranz, Joel. « Point-of-Care Endocrine Diagnostics ». Endocrinology and Metabolism Clinics of North America 46, no 3 (septembre 2017) : 615–30. http://dx.doi.org/10.1016/j.ecl.2017.04.010.

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de Puig, Helena, Irene Bosch, James J. Collins et Lee Gehrke. « Point-of-Care Devices to Detect Zika and Other Emerging Viruses ». Annual Review of Biomedical Engineering 22, no 1 (4 juin 2020) : 371–86. http://dx.doi.org/10.1146/annurev-bioeng-060418-052240.

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Rapid diagnostic tests (point-of-care devices) are critical components of informed patient care and public health monitoring (surveillance applications). We propose that among the many rapid diagnostics platforms that have been tested or are in development, lateral flow immunoassays and synthetic biology–based diagnostics (including CRISPR-based diagnostics) represent the best overall options given their ease of use, scalability for manufacturing, sensitivity, and specificity. This review describes the identification of lateral flow immunoassay monoclonal antibody pairs that detect and distinguish between closely related pathogens and that are used in combination with functionalized multicolored nanoparticles and computational methods to deconvolute data. We also highlight the promise of synthetic biology–based diagnostic tests, which use synthetic genetic circuits that activate upon recognition of a pathogen-associated nucleic acid sequence, and discuss how the combined or parallel use of lateral flow immunoassays and synthetic biology tools may represent the future of scalable rapid diagnostics.
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Mashamba-Thompson, Tivani P., et Paul K. Drain. « Point-of-Care Diagnostic Services as an Integral Part of Health Services during the Novel Coronavirus 2019 Era ». Diagnostics 10, no 7 (3 juillet 2020) : 449. http://dx.doi.org/10.3390/diagnostics10070449.

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Point-of-care (POC) diagnostic services are commonly associated with pathology laboratory services. This issue presents a holistic approach to POC diagnostics services from a variety of disciplines including pathology, radiological and information technology as well as mobile technology and artificial intelligence. This highlights the need for transdisciplinary collaboration to ensure the efficient development and implementation of point-of-care diagnostics. The advent of the novel coronavirus 2019 (COVID-19) pandemic has prompted rapid advances in the development of new POC diagnostics. Global private and public sector agencies have significantly increased their investment in the development of POC diagnostics. There is no longer a question about the availability and accessibility of POC diagnostics. The question is “how can POC diagnostic services be integrated into health services in way that is useful and acceptable in the COVID-19 era?”.
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Demikhova, O. V., N. L. Karpina, L. N. Lepekha, M. A. Bagirov et R. B. Amansakhedov. « OPTIMISATION OF DIAGNOSTICS AND DIFFERENTIAL DIAGNOSTICS DISSEMINATED PULMONARY TUBERCULOSIS ». Annals of the Russian academy of medical sciences 67, no 11 (10 novembre 2012) : 15–21. http://dx.doi.org/10.15690/vramn.v67i11.466.

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One of the reasons of dramatic situation with tuberculosis in Russia is untimely diagnostics of tuberculosis. The aim of the study was to identify the causes of diagnostic mistakes when we deal with disseminated pulmonary tuberculosis at current stage and to modernize the diagnostic process. The analysis of the diagnostic activity of the consultative diagnostic center of Central Tuberculosis Research Institute of Russian Academy Medical Sciences for 2011 was performed with special attention on the results of the survey of 505 patients with pulmonary dissemination. The frequency of discrepancies of disseminated pulmonary tuberculosis diagnostics was 96,1%. Based on the studies carried out the main causes diagnostic mistakes in patients with disseminated pulmonary tuberculosis were determined. New directions of improving of tuberculosis diagnostics were developed: overall high-technology examination of patient, adherence to the diagnostic procedure, developed by consultative diagnostic center of Central Tuberculosis Research Institute(CTRI), timely performing fiber-optic bronchoscopy with complex biopsy and diagnostic surgery procedures, further training of primary health care doctors. Implementation of proposed activities will significantly (by 3–5 times) reduce the time for diagnostics of respiratory system disease.
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Vologin, N. A. « Experience of the functional diagnostics department in an acute care hospital ». Kazan medical journal 67, no 4 (15 juillet 1986) : 302. http://dx.doi.org/10.17816/kazmj70556.

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The Cheboksary Emergency Medical Care Hospital has a functional diagnostics department, which includes 6 rooms: electrocardiography, phonocardiography, examination of respiratory function, central nervous system, peripheral hemodynamics and veloergometry. Establishment of the functional diagnostics department allowed to rationally use complex expensive equipment and provide round-the-clock failure-free service by functional diagnostic methods to all those in need, improve the quality of examination and reduce its duration.
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McRae, Michael P., Kritika S. Rajsri, Timothy M. Alcorn et John T. McDevitt. « Smart Diagnostics : Combining Artificial Intelligence and In Vitro Diagnostics ». Sensors 22, no 17 (24 août 2022) : 6355. http://dx.doi.org/10.3390/s22176355.

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We are beginning a new era of Smart Diagnostics—integrated biosensors powered by recent innovations in embedded electronics, cloud computing, and artificial intelligence (AI). Universal and AI-based in vitro diagnostics (IVDs) have the potential to exponentially improve healthcare decision making in the coming years. This perspective covers current trends and challenges in translating Smart Diagnostics. We identify essential elements of Smart Diagnostics platforms through the lens of a clinically validated platform for digitizing biology and its ability to learn disease signatures. This platform for biochemical analyses uses a compact instrument to perform multiclass and multiplex measurements using fully integrated microfluidic cartridges compatible with the point of care. Image analysis digitizes biology by transforming fluorescence signals into inputs for learning disease/health signatures. The result is an intuitive Score reported to the patients and/or providers. This AI-linked universal diagnostic system has been validated through a series of large clinical studies and used to identify signatures for early disease detection and disease severity in several applications, including cardiovascular diseases, COVID-19, and oral cancer. The utility of this Smart Diagnostics platform may extend to multiple cell-based oncology tests via cross-reactive biomarkers spanning oral, colorectal, lung, bladder, esophageal, and cervical cancers, and is well-positioned to improve patient care, management, and outcomes through deployment of this resilient and scalable technology. Lastly, we provide a future perspective on the direction and trajectory of Smart Diagnostics and the transformative effects they will have on health care.
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Mashamba-Thompson, Tivani P. « Diagnostics Literacy Advocacy Model for Vulnerable Populations ». Diagnostics 12, no 3 (15 mars 2022) : 716. http://dx.doi.org/10.3390/diagnostics12030716.

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Evidence shows that vulnerable populations have lower levels of health literacy, resulting in poor health-seeking behavior and poor uptake of diagnostics. Being health literate promotes health care-seeking behavior and improves engagement with diagnostic services. In this editorial, I define health literacy in the context of access to technology for enabling disease screening, diagnosis and linkage to care. I refer to health literacy in this context as diagnostics literacy. The COVID-19 pandemic has taught us that vulnerable populations are disproportionately disadvantaged by the disruptive measures put in place to control the spread of the virus. Many vulnerable populations are still experiencing short-and longer-term socio-economic consequences. I propose a multi-level diagnostics literacy advocacy model to help improve diagnostic uptake among vulnerable populations.
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Quesada-González, Daniel, et Arben Merkoçi. « Nanomaterial-based devices for point-of-care diagnostic applications ». Chemical Society Reviews 47, no 13 (2018) : 4697–709. http://dx.doi.org/10.1039/c7cs00837f.

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In this review, we have discussed the capabilities of nanomaterials for point-of-care (PoC) diagnostics and explained how these materials can help to strengthen, miniaturize and improve the quality of diagnostic devices.
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14

Matthewman, Joscelyn. « Diagnostics : Combining Care Plan and Kardex ». American Journal of Nursing 87, no 6 (juin 1987) : 852. http://dx.doi.org/10.2307/3470735.

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15

Dimond, Patricia Fitzpatrick. « Point-of-Care Molecular Diagnostics Evolve ». Clinical OMICs 2, no 7 (juillet 2015) : 13–16. http://dx.doi.org/10.1089/clinomi.02.07.05.

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Perez, Edith A., Lajos Pusztai et Marc van De Vijver. « Improving patient care through molecular diagnostics ». Seminars in Oncology 31 (octobre 2004) : 14–20. http://dx.doi.org/10.1053/j.seminoncol.2004.07.017.

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Hart, RW, MG Mauk, C. Liu, X. Qiu, JA Thompson, D. Chen, D. Malamud, WR Abrams et HH Bau. « Point-of-care oral-based diagnostics ». Oral Diseases 17, no 8 (26 avril 2011) : 745–52. http://dx.doi.org/10.1111/j.1601-0825.2011.01808.x.

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Kersting, A., M. Dorsch, W. Klockenbusch et V. Arolt. « 118-PSYCHOSOCIAL CARE IN PRENATAL DIAGNOSTICS ». Journal of Psychosomatic Research 56, no 6 (juin 2004) : 644. http://dx.doi.org/10.1016/j.jpsychores.2004.04.268.

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19

Halpern, Neil A. « POINT OF CARE DIAGNOSTICS AND NETWORKS ». Critical Care Clinics 16, no 4 (octobre 2000) : 623–39. http://dx.doi.org/10.1016/s0749-0704(05)70137-8.

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García-Basteiro, A. L., A. DiNardo, B. Saavedra, D. R. Silva, D. Palmero, M. Gegia, G. B. Migliori et al. « Point of care diagnostics for tuberculosis ». Pulmonology 24, no 2 (mars 2018) : 73–85. http://dx.doi.org/10.1016/j.rppnen.2017.12.002.

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Wangler, Julian, et Michael Jansky. « Dementia diagnostics in general practitioner care ». Wiener Medizinische Wochenschrift 170, no 9-10 (6 décembre 2019) : 230–37. http://dx.doi.org/10.1007/s10354-019-00722-4.

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SummaryGeneral practitioner (GP) treatment of dementia is often criticized as being ineffective and not implemented consistently enough. The causes and specific standpoints of GPs have not previously been thoroughly investigated. This paper focuses on the reasons and the criticisms levelled at GPs with regard to diagnosing dementia, and identifies approaches to enable optimization. The analysis is based on 41 semi-structured interviews with GPs in Hesse, Germany, in 2018. During the course of a content analysis, the interviewees’ attitudes and behavioral patterns towards dementia diagnostics were to be analyzed. The results of the study show various challenges and problems of primary care in this field. The majority of the sample showed skepticism and reluctance with regard to the diagnosis of dementia. Six key problem areas were extracted from the interviews, which can be seen as root causes for the distance kept by GPs: 1) early delegation of patients due to role understanding, 2) attitude of pessimism towards dementia, 3) differential diagnosis perceived as an obstacle, 4) insufficient remuneration, 5) fear of patient stigmatization, and 6) lack of application. Some GPs demonstrated personal initiative with the aim of optimizing dementia diagnostics. Three approaches can be derived which could be used to improve the GP-based care of dementia: 1) self-efficacy, 2) differential diagnostics and treatment pathways, and 3) physician–patient communication.
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Pandey, Chandra M., Shine Augustine, Saurabh Kumar, Suveen Kumar, Sharda Nara, Saurabh Srivastava et Bansi D. Malhotra. « Microfluidics Based Point-of-Care Diagnostics ». Biotechnology Journal 13, no 1 (18 décembre 2017) : 1700047. http://dx.doi.org/10.1002/biot.201700047.

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Aleku, Godwin Abazho, Moses P. Adoga et Simon M. Agwale. « HIV point-of-care diagnostics : meeting the special needs of sub-Saharan Africa ». Journal of Infection in Developing Countries 8, no 10 (15 octobre 2014) : 1231–43. http://dx.doi.org/10.3855/jidc.4664.

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Sub-Saharan Africa, accounting for 70% of the 35 million people living with HIV worldwide, obviously carries the heaviest burden of the HIV epidemic. Moreover, the region’s poor health system occasioned by limited resources and inadequate skilled clinical personnel usually makes decentralization of HIV care difficult. Therefore, quality diagnostics that are easy to use, inexpensive, and amenable for use at point of care (POC) are a dire necessity. Clearly, such diagnostics will significantly lessen the pressure on the existing over-stretched centralized HIV laboratory services. Thankfully, some POC diagnostics are already being validated, while others are in the pipeline. As POC test kits emerge, implementation hurdles should be envisaged and planned for. This review examines emerging HIV diagnostic platforms, HIV POC product pipelines, gaps, perceived POC implementation challenges, and general recommendations for quality care.
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Annese, Valerio Francesco, et Chunxiao Hu. « Integrating Microfluidics and Electronics in Point-of-Care Diagnostics : Current and Future Challenges ». Micromachines 13, no 11 (7 novembre 2022) : 1923. http://dx.doi.org/10.3390/mi13111923.

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Point-of-Care (POC) diagnostics have gained increasing attention in recent years due to its numerous advantages over conventional diagnostic approaches. As proven during the recent COVID-19 pandemic, the rapidity and portability of POC testing improves the efficiency of healthcare services and reduces the burden on healthcare providers. There are hundreds of thousands of different applications for POC diagnostics, however, the ultimate requirement for the test is the same: sample-in and result-out. Many technologies have been implemented, such as microfluidics, semiconductors, and nanostructure, to achieve this end. The development of even more powerful POC systems was also enabled by merging multiple technologies into the same system. One successful example is the integration of microfluidics and electronics in POC diagnostics, which has simplified the sample handling process, reduced sample usage, and reduced the cost of the test. This review will analyze the current development of the POC diagnostic systems with the integration of microfluidics and electronics and discuss the future challenges and perspectives that researchers might have.
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Matovu, Enock, Anne Juliet Kazibwe, Claire Mack Mugasa, Joseph Mathu Ndungu et Zablon Kithingi Njiru. « Towards Point-of-Care Diagnostic and Staging Tools for Human African Trypanosomiaisis ». Journal of Tropical Medicine 2012 (2012) : 1–9. http://dx.doi.org/10.1155/2012/340538.

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Human African trypanosomiasis is a debilitating disease prevalent in rural sub-Saharan Africa. Control of this disease almost exclusively relies on chemotherapy that should be driven by accurate diagnosis, given the unacceptable toxicity of the few available drugs. Unfortunately, the available diagnostics are characterised by low sensitivities due to the inherent low parasitaemia in natural infections. Demonstration of the trypanosomes in body fluids, which is a prerequisite before treatment, often follows complex algorithms. In this paper, we review the available diagnostics and explore recent advances towards development of novel point-of-care diagnostic tests.
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Yerlikaya, Seda, Lydia Marie-Luise Holtgrewe, Tobias Broger, Chris Isaacs, Payam Nahid, Adithya Cattamanchi et Claudia M. Denkinger. « Innovative COVID-19 point-of-care diagnostics suitable for tuberculosis diagnosis : a scoping review protocol ». BMJ Open 13, no 2 (février 2023) : e065194. http://dx.doi.org/10.1136/bmjopen-2022-065194.

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IntroductionIn 2014, the WHO published high-priority target product profiles (TPPs) for new tuberculosis (TB) diagnostics to align end-user needs with test targets and specifications; nevertheless, no TB test meets these targets to date. The COVID-19-driven momentum in the diagnostics world offers an opportunity to address the long-standing lack of innovation in the field of TB diagnostics. This scoping review aims to summarise point-of-care (POC) molecular and antigen tests for COVID-19 diagnosis that, when applied to TB, potentially meet WHO TPPs. This summary of currently available innovative diagnostic tools will guide the development of novel TB diagnostics toward the WHO-set targets.Methods and analysisWe will follow the Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension Scoping Reviews recommendations. MEDLINE (via PubMed), bioRxiv, MedRxiv and other publicly available in vitro diagnostic test databases were searched on 23 November 2022. POC antigen or molecular tests developed for SARS-CoV-2 detection that meet the eligibility criteria will be included in the review. Developer description, test description, operation characteristics, pricing information, performance and commercialisation status of diagnostic tests identified will be extracted using a predefined standardised data extraction form. Two reviewers will independently perform the screening and data extraction. A narrative synthesis of the final data will be provided.Ethics and disseminationNo ethical approval is required because individual patient data will not be included. The findings will be published in open-access scientific journals.
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Mosa, Alexander I. « CRISPR-Based Diagnostics for Point-of-Care Viral Detection ». International Journal of Translational Medicine 2, no 2 (1 juin 2022) : 198–203. http://dx.doi.org/10.3390/ijtm2020017.

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Point-of-care detection of viral infection is required for effective contact-tracing, epidemiological surveillance, and linkage to care. Traditional diagnostic platforms relying on either antigen detection or nucleic amplification are limited by sensitivity and the need for costly laboratory infrastructure, respectively. Recently, CRISPR-based diagnostics have emerged as an alternative, combining equipment light workflows with high specificity and sensitivity. However, as a nascent technology, several outstanding challenges to widespread field deployment remain. These include the need for pre-detection amplification of target molecules, the lack of standardization in sample preparation and reagent composition, and only equivocal assessments of the unit-economics relative to traditional antigen or polymerase chain reaction-based diagnostics. This review summarizes recent advances with the potential to overcome existing translational barriers, describes the events in CRISPR-based detection of target molecules, and offers perspective on how multiple approaches can be combined to decrease the limit of detection without introducing pre-amplification.
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Adamczyk, Jakub, Dominik Sieroń, Karolina Sieroń, Aleksander Sieroń et Ewa Kucharska. « METHODS OF SPECTRAL DIAGNOSTICS IN MODERN PREVENTION OF ONCOLOGICAL DISEASES ». Wiadomości Lekarskie 73, no 7 (2020) : 1313–17. http://dx.doi.org/10.36740/wlek202007101.

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This paper contains structured information on photodynamic diagnostics. Photodynamic diagnostics is a young diagnostic modality used in the detection of pre-neoplastic and very early neoplastic lesions. A characteristic feature of the presented method is its completely non-invasive nature and thus the possibility of multiple repetitions at the same patient. This is very important in modern health care and in preventive measures. Aim of the paper: The article aims to present technical and diagnostic possibilities of a photodynamic method as one of the possible modalities of screening diagnostics in patients with ambiguous clinical picture of early neoplastic lesions.
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Ohanian, Ihor, et Sergiy Yepifanov. « Огляд методів параметричного діагностування агрегатів гідравлічних і паливних систем літальних апаратів ». Aerospace Technic and Technology, no 4sup1 (24 août 2023) : 95–108. http://dx.doi.org/10.32620/aktt.2023.4sup1.13.

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The subject of study in this article is the methods of parametric diagnostics of the technical condition of the units of an air vehicle's hydraulic and fuel systems, which make it possible to ensure the established reliability indicators of these systems throughout their entire life cycle. This work aims to analyze the existing literature on the methods of parametric diagnostics of hydraulic units, determine the basic requirements for the development of diagnostic methods for units of hydraulic, and fuel systems. The objective of the study is to classify the existing methods of parametric diagnostics, applied primarily to hydraulic systems, to analyze the advantages and disadvantages of the algorithms under consideration based on the requirements for diagnostic algorithms established by the authors, and to assess the possibility of effectively using these methodologies to diagnose the technical condition of a complex hydraulic distribution unit. The authors of this work formed the main requirements for the methods of diagnosing a hydraulic and fuel system's units based on the nature of the detected defects, the experience of using diagnostic algorithms, as well as the requirements of existing standards and scientific publications analysis. The authors developed a classification of parametric diagnostic algorithms to systematize existing works. This paper describes the main features and differences between diagnostic algorithms based on methods for identifying a mathematical model of an object and diagnostic algorithms in the space of measured parameters. Methods for forming diagnostic models of hydraulic units have been analyzed, such as the state-space model, the Hammerstein model, the Volterra model, the ARX model, and the matrix of influence coefficients. Established analysis of the application of defect identification algorithms such as a divided difference filter (DDF), a radial basis functions neural network RBF, and a cosine distance method. As a result, the advantages and disadvantages of the monitored diagnostic algorithms were identified and the main tasks for developing an algorithm for parametric diagnostics of the technical condition of a complex hydraulic distribution unit were formulated.
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Link, J., H. J. Gramm et A. Paolin. « Reliability of brain death diagnostics ». Intensive Care Medicine 22, no 8 (août 1996) : 836–37. http://dx.doi.org/10.1007/bf01709535.

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Sahli, Sebastian D., Julian Rössler, David W. Tscholl, Jan-Dirk Studt, Donat R. Spahn et Alexander Kaserer. « Point-of-Care Diagnostics in Coagulation Management ». Sensors 20, no 15 (30 juillet 2020) : 4254. http://dx.doi.org/10.3390/s20154254.

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This review provides a comprehensive and up-to-date overview of point-of-care (POC) devices most commonly used for coagulation analyses in the acute settings. Fast and reliable assessment of hemostasis is essential for the management of trauma and other bleeding patients. Routine coagulation assays are not designed to visualize the process of clot formation, and their results are obtained only after 30–90 m due to the requirements of sample preparation and the analytical process. POC devices such as viscoelastic coagulation tests, platelet function tests, blood gas analysis and other coagulometers provide new options for the assessment of hemostasis, and are important tools for an individualized, goal-directed, and factor-based substitution therapy. We give a detailed overview of the related tests, their characteristics and clinical implications. This review emphasizes the evident advantages of the speed and predictive power of POC clot measurement in the context of a goal-directed and algorithm-based therapy to improve the patient’s outcome. Interpretation of viscoelastic tests is facilitated by a new visualization technology.
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STEPANOVA, OLGA А., et ASIA I. SAFINA. « ultrasound diaGnostics in neonatal intensiVe care units ». Bulletin of Contemporary Clinical Medicine 7, no 6 (2014) : 92–97. http://dx.doi.org/10.20969/vskm.2014.7(6).92-97.

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Rantz, Marilyn, Tari Miller et Carol Jacobs. « Diagnostics : Nursing Diagnosis in Long-Term Care ». American Journal of Nursing 85, no 8 (août 1985) : 916. http://dx.doi.org/10.2307/3425336.

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Vandenbosch, Terry M., Caroline L. Bentley, Katherine A. Jones et Desiree Blake. « Diagnostics : Tailoring Care Plans to Nursing Diagnoses ». American Journal of Nursing 86, no 3 (mars 1986) : 313. http://dx.doi.org/10.2307/3425473.

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Harris, Marilyn D., Donna A. Peters, Judith A. Smith et Joan Yuan. « Diagnostics : Tracking the Cost of Home Care ». American Journal of Nursing 87, no 11 (novembre 1987) : 1500. http://dx.doi.org/10.2307/3425911.

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Philippidis, Alex. « Challenges Loom for Point-of-Care Diagnostics ». Clinical OMICs 3, no 7 (juillet 2016) : 8–11. http://dx.doi.org/10.1089/clinomi.03.07.05.

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Yager, Paul, Gonzalo J. Domingo et John Gerdes. « Point-of-Care Diagnostics for Global Health ». Annual Review of Biomedical Engineering 10, no 1 (août 2008) : 107–44. http://dx.doi.org/10.1146/annurev.bioeng.10.061807.160524.

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Ng, Alphonsus H. C., et Aaron R. Wheeler. « Next-Generation Microfluidic Point-of-Care Diagnostics ». Clinical Chemistry 61, no 10 (1 octobre 2015) : 1233–34. http://dx.doi.org/10.1373/clinchem.2015.240226.

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D’Orazio, Paul A., Thomas C. Maley, Robert R. McCaffrey, Andy C. Chan, Donna Orvedahl, Joe Foos, David Blake et al. « Planar (Bio)Sensors for Critical Care Diagnostics ». Clinical Chemistry 43, no 9 (1 septembre 1997) : 1804–5. http://dx.doi.org/10.1093/clinchem/43.9.1804.

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TABAK, L. A. « Point-of-Care Diagnostics Enter the Mouth ». Annals of the New York Academy of Sciences 1098, no 1 (1 mars 2007) : 7–14. http://dx.doi.org/10.1196/annals.1384.043.

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Weaver, Westbrook, Harsha Kittur, Manjima Dhar et Dino Di Carlo. « Research highlights : microfluidic point-of-care diagnostics ». Lab on a Chip 14, no 12 (2014) : 1962. http://dx.doi.org/10.1039/c4lc90033b.

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Van Der Pol, Barbara. « Chlamydia point-of-care diagnostics : caveat emptor ». Sexually Transmitted Infections 90, no 3 (9 avril 2014) : 176–77. http://dx.doi.org/10.1136/sextrans-2013-051445.

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Cristillo, Anthony D., Claire C. Bristow, Rosanna Peeling, Barbara Van Der Pol, Sasha Herbst de Cortina, Ivan K. Dimov, Nitika Pant Pai et al. « Point-of-Care Sexually Transmitted Infection Diagnostics ». Sexually Transmitted Diseases 44, no 4 (avril 2017) : 211–18. http://dx.doi.org/10.1097/olq.0000000000000572.

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Gubala, Vladimir, Leanne F. Harris, Antonio J. Ricco, Ming X. Tan et David E. Williams. « Point of Care Diagnostics : Status and Future ». Analytical Chemistry 84, no 2 (21 décembre 2011) : 487–515. http://dx.doi.org/10.1021/ac2030199.

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Wejse, Christian. « Point-of-care diagnostics for tuberculosis elimination ? » Lancet 383, no 9915 (février 2014) : 388–90. http://dx.doi.org/10.1016/s0140-6736(13)62003-6.

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SULLIVAN, MICHELE G. « In-Office Diagnostics Can Improve Clinical Care ». Pediatric News 42, no 11 (novembre 2008) : 22. http://dx.doi.org/10.1016/s0031-398x(08)70548-4.

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Diakite, Mohamed Lemine Youba, Jérôme Rollin, Dorothée Jary, Jean Berthier, Chantal Mourton-Gilles, Didier Sauvaire, Cathy Philippe, Guillaume Delapierre et Xavier Gidrol. « Point-of-care diagnostics for ricin exposure ». Lab on a Chip 15, no 10 (2015) : 2308–17. http://dx.doi.org/10.1039/c5lc00178a.

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We established a gene expression profile resulting from ricin exposure and demonstrated its ability to classify exposed vs. non-exposed mice with a drop of blood using an integrated microfluidic cartridge.
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Zarei, Mohammad. « Infectious pathogens meet point-of-care diagnostics ». Biosensors and Bioelectronics 106 (mai 2018) : 193–203. http://dx.doi.org/10.1016/j.bios.2018.02.007.

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Slovis, Nathan M., Nimet Browne et Rana Bozorgmanesh. « Point-of-Care Diagnostics in Equine Practice ». Veterinary Clinics of North America : Equine Practice 36, no 1 (avril 2020) : 161–71. http://dx.doi.org/10.1016/j.cveq.2019.12.007.

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Cummins, Brian M., Frances S. Ligler et Glenn M. Walker. « Point-of-care diagnostics for niche applications ». Biotechnology Advances 34, no 3 (mai 2016) : 161–76. http://dx.doi.org/10.1016/j.biotechadv.2016.01.005.

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