Download or read book 7D Cardiac Flow MRI written by Michael Gerald Ambrosia and published by . This book was released on 2012 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt: Advances in magnetic resonance imaging to quantify the blood flow in the heart and major vessels stemming from the heart has recently allowed for advanced clinical applications for patients suffering from cardiac valve problems and aortic abnormalities. 7D cardiac flow quantification is relatively new, but has already shown potential in several clinical applications, including bicuspid valve and aortic coarctation characterization. In addition radiologists diagnosing valvular regurgitation may benefit from insight provided by the 7D cardiac flow quantification protocol. 7D cardiac flow quantification using magnetic resonance imaging will provide direction flow quantification in the anterior / posterior, head / foot, and left / right directions, in time, through the imaging volume. Providing MRI techniques that may lead to clinical applications to characterize the cardiac valves, the flow differentials during cardiac function, and the flow and pressure differentials of the aortic arch, as well as automation of the delayed reconstruction process for raw data, are the main focus of this study. The study was approached in four stages. First, using the Philips ExamCard environment, a scan protocol was developed. The scan protocol provided the anatomical views for the 7D flow quantification in the heart. Execution of the ExamCard provides two anatomical areas of focus, the aortic arch and the valve plane of the heart. Raw data was saved to the scanner's database, for later reconstruction. A second stage of the project was completed to verify the ExamCard and manual reconstruction had been properly developed. To do so, four volunteer studies were completed. Each volunteer was scanned on the same Philips 1.5T Achieva scanner, using the 7D flow ExamCard developed in stage one, and raw data reconstructed using the manual delayed reconstruction procedure. Flow quantification in a 3D volume in 3 directions over time was verified. Results were verified using existing studies as a gold standard. Because manual delayed reconstruction is time consuming, and may lead to errors, automation of the delayed reconstruction is desired. A third stage of the project was aimed at automation of the delayed reconstruction process. The third stage of the project involved writing a batch file to automate the reconstruction of the raw data saved from the previously described scan protocol. The batch file is an executable script file that will automate the manual work of the Philips delayed reconstruction procedures. The batch file, when executed, will select, change reconstruction parameters for each of the 2 anatomical areas, in three different directions, for a total of 6 scan reconstructions, run the reconstruction, and name the scans appropriately. Using raw data of the four volunteer studies in stage 2, the batch file was tested. The focus then shifted to a fourth stage of the project. The focus was verifying the results of the automation versus the manual delayed reconstruction process. Using standard Philips Achieva analysis software, reports for all manual, automated, and "subtraction" data sets were generated. These reports were compared. In all cases, both the manual and automated data sets produced analysis exactly the same for the given parameters. The "subtraction" data set further proved the manual and automated data sets were the same by analysis where all measured parameters were zero, proving the hypothesis and demonstrating the automated batch file did indeed reconstruct the raw data equivalent to reconstruction produced using the standard manual delayed reconstruction package from Philips. Finally, the data sets from the automated reconstruction were used to plot velocity profiles across regions of interest and compare results between operators as well as patients. The project was completed at the Philips Healthcare facility located at 595 Miner Rd, Highland Heights, OH, in conjunction with the Cleveland Clinic Foundation of Cleveland, Ohio.

Download or read book Clinical Cardiac MRI written by Jan Bogaert and published by Springer Science & Business Media. This book was released on 2004-11-24 with total page 580 pages. Available in PDF, EPUB and Kindle. Book excerpt: This extensively illustrated volume has been specifically geared towards optimal use of MRI systems. The text provides essential theoretical background information: Imaging acquisition and potential pitfalls are also examined in detail. Most importantly, structured guidelines are provided on the interpretation of clinical data in the wide range of cardiac pathology that can be encountered.

Download or read book Towards Personalized Models of the Cardiovascular System Using 4D Flow MRI written by Belén Casas Garcia and published by Linköping University Electronic Press. This book was released on 2019-02-15 with total page 71 pages. Available in PDF, EPUB and Kindle. Book excerpt: Current diagnostic tools for assessing cardiovascular disease mostly focus on measuring a given biomarker at a specific spatial location where an abnormality is suspected. However, as a result of the dynamic and complex nature of the cardiovascular system, the analysis of isolated biomarkers is generally not sufficient to characterize the pathological mechanisms behind a disease. Model-based approaches that integrate the mechanisms through which different components interact, and present possibilities for system-level analyses, give us a better picture of a patient’s overall health status. One of the main goals of cardiovascular modelling is the development of personalized models based on clinical measurements. Recent years have seen remarkable advances in medical imaging and the use of personalized models is slowly becoming a reality. Modern imaging techniques can provide an unprecedented amount of anatomical and functional information about the heart and vessels. In this context, three-dimensional, three-directional, cine phase-contrast (PC) magnetic resonance imaging (MRI), commonly referred to as 4D Flow MRI, arises as a powerful tool for creating personalized models. 4D Flow MRI enables the measurement of time-resolved velocity information with volumetric coverage. Besides providing a rich dataset within a single acquisition, the technique permits retrospective analysis of the data at any location within the acquired volume. This thesis focuses on improving subject-specific assessment of cardiovascular function through model-based analysis of 4D Flow MRI data. By using computational models, we aimed to provide mechanistic explanations of the underlying physiological processes, derive novel or improved hemodynamic markers, and estimate quantities that typically require invasive measurements. Paper I presents an evaluation of current markers of stenosis severity using advanced models to simulate flow through a stenosis. Paper II presents a framework to personalize a reduced-order, mechanistic model of the cardiovascular system using exclusively non-invasive measurements, including 4D Flow MRI data. The modelling approach can unravel a number of clinically relevant parameters from the input data, including those representing the contraction and relaxation patterns of the left ventricle, and provide estimations of the pressure-volume loop. In Paper III, this framework is applied to study cardiovascular function at rest and during stress conditions, and the capability of the model to infer load-independent measures of heart function based on the imaging data is demonstrated. Paper IV focuses on evaluating the reliability of the model parameters as a step towards translation of the model to the clinic.

Download or read book Cardiovascular Magnetic Resonance Imaging written by Raymond Y. Kwong and published by Springer. This book was released on 2019-01-31 with total page 473 pages. Available in PDF, EPUB and Kindle. Book excerpt: The significantly updated second edition of this important work provides an up-to-date and comprehensive overview of cardiovascular magnetic resonance imaging (CMR), a rapidly evolving tool for diagnosis and intervention of cardiovascular disease. New and updated chapters focus on recent applications of CMR such as electrophysiological ablative treatment of arrhythmias, targeted molecular MRI, and T1 mapping methods. The book presents a state-of-the-art compilation of expert contributions to the field, each examining normal and pathologic anatomy of the cardiovascular system as assessed by magnetic resonance imaging. Functional techniques such as myocardial perfusion imaging and assessment of flow velocity are emphasized, along with the exciting areas of artherosclerosis plaque imaging and targeted MRI. This cutting-edge volume represents a multi-disciplinary approach to the field, with contributions from experts in cardiology, radiology, physics, engineering, physiology and biochemistry, and offers new directions in noninvasive imaging. The Second Edition of Cardiovascular Magnetic Resonance Imaging is an essential resource for cardiologists and radiologists striving to lead the way into the future of this important field.

Download or read book Clinical Cardiac MRI written by Jan Bogaert and published by Springer Science & Business Media. This book was released on 2012-02-27 with total page 708 pages. Available in PDF, EPUB and Kindle. Book excerpt: This fully updated edition of the most comprehensive and best-illustrated volume on cardiac MRI emphasizes its use in everyday clinical practice and includes in its online edition dozens more real-life cases that significantly enhance the utility of the book.

Download or read book Cardiovascular Magnetic Resonance E Book written by Warren J. Manning and published by Elsevier Health Sciences. This book was released on 2010-04-05 with total page 668 pages. Available in PDF, EPUB and Kindle. Book excerpt: Cardiovascular Magnetic Resonance provides you with up-to-date clinical applications of cardiovascular MRI for the broad spectrum of cardiovascular diseases, including ischemic, myopathic, valvular, and congenital heart diseases, as well as great vessel and peripheral vascular disease. Editors Warren J. Manning and Dudley J. Pennell and their team of international contributors cover everything from basic MR physics to sequence design, flow quantification and spectroscopy to structural anatomy and pathology. Learn the appropriate role for CMR in a variety of clinical settings with reference to other modalities, practical limitations, and costs. With the latest information on contrast agents, MR angiography, MR spectroscopy, imaging protocols, and more, this book is essential for both the beginner and expert CMR practitioner. Covers both the technical and clinical aspects of CMR to serve as a comprehensive reference. Demonstrates the full spectrum of the application of cardiac MR from ischemic heart disease to valvular, myopathic, pericardial, aortic, and congenital heart disease. Includes coverage of normal anatomy, orientation, and function to provide you with baseline values. Discusses advanced techniques, such as interventional MR, to include essential information relevant to the specialist. Features appendices with acronyms and CMR terminology used by equipment vendors that serve as an introduction to the field. Uses consistent terminology and abbreviations throughout the text for clarity and easy reference. Covers both the technical and clinical aspects of CMR to serve as a comprehensive reference. Demonstrates the full spectrum of the application of cardiac MR from ischemic heart disease to valvular, myopathic, pericardial, aortic, and congenital heart disease. Includes coverage of normal anatomy, orientation, and function to provide you with baseline values. Discusses advanced techniques, such as interventional MR, to include essential information relevant to the specialist. Features appendices with acronyms and CMR terminology used by equipment vendors that serve as an introduction to the field. Uses consistent terminology and abbreviations throughout the text for clarity and easy reference.

Download or read book Mayo Clinic Guide to Cardiac Magnetic Resonance Imaging written by Kiaran McGee and published by Mayo Clinic Scientific Press. This book was released on 2015 with total page 337 pages. Available in PDF, EPUB and Kindle. Book excerpt: This clinical resource of cardiac MR imaging is a straightforward how-to text for technologists, physicians and physicists.

Download or read book Cardiac 4D Flow MRI written by Philip Corrado (Ph.D.) and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Magnetic resonance imaging (MRI) is a medical imaging modality with the ability to acquire images sensitized to several different contrast mechanisms. One of the many mechanisms that can generate contrast in MR images is blood flow. "4D flow MRI", a method for quantifying time-resolved velocity fields in 3-dimensional regions, is employed in the context of comprehensive flow assessment within the heart and major blood vessels but requires long acquisition and post-processing times. The aims of the work presented in this dissertation are to accelerate the acquisition and processing of cardiac 4D flow MRI images, and to apply 4D flow MRI to quantify intracardiac hemodynamics in two disease population: survivors of myocardial infarction and young adults born very-to-extremely premature. This work is divided into six research chapters. The technical innovations introduced and evaluated in my work (Chapters 2-4) relate to the validation of accelerated 4D flow acquisitions and the development of fast, automated pipelines for 4D flow image analysis. In Chapter 2, I describe the construction of a model of the left ventricle of the heart and use it to compare acceleration acquisition techniques for 4D flow MRI. Using an optical imaging-based reference standard, I show lower error in velocity estimations at short scan times for one technique over the other, supporting the use of this technique in scan-time-limited scenarios and demonstrating a generalizable workflow for head-to-head comparison of image acquisition or reconstruction techniques which can be adopted in other applications in order to minimize acquisition time. In Chapters 3 and 4, I use deep learning to automate image processing tasks for quantitative flow assessment in 4D flow MRI of the chest. In particular, I automate the segmentation of the myocardial ventricles (Chapter 3), necessary for the measurement of ventricular kinetic energy or the analysis of ventricular flow components, and the placement of measurement planes (Chapter 4), necessary for the measurement of flow and peak velocity in the great vessels of the heart. Both methods are thoroughly evaluated, finding similar performance to manual segmentation/plane placement. This enables 4D flow MR images of the chest to be processed in an automated fashion, vastly reducing the processing time required for users of 4D flow MRI and enabling large and longitudinal studies without biases between observers. The applications of cardiac 4D flow MRI explored in my work are myocardial infarction (Chapter 5) and cardiac development after preterm birth (Chapters 6-7). In Chapter 5, I apply cardiac 4D flow MRI to study hemodynamics in the left ventricle after acute myocardial infarction. 4D flow data is compared region-by-region between myocardial infarction patients and controls, finding reduced flow in several left ventricular regions in patients relative to controls, perhaps providing indications of risk of post-infarction sequelae. In Chapters 6 and 7, I apply cardiac 4D flow MRI to study intracardiac hemodynamics in another at-risk population: young adults born very-to-extremely premature. I first compare intraventricular flow in young adults born premature to those born at term (Chapter 6), finding decreased right ventricular early-to-late diastolic kinetic energy ratios and increased viscous energy dissipation in preterm subjects relative to term subjects, suggesting altered right ventricular filling which may be relevant to the elevated early heart failure risk in this population. I then use acute pharmacological interventions to assess the effects of hemodynamic manipulations on cardiac hemodynamics measured by 4D flow MRI in young adults born premature (Chapter 7). Acute pharmacological reduction of pulmonary blood pressure increases cardiac function, suggesting that pulmonary hypertension may play a role in this group's heart failure risk. Recommendations for future work include assembling large multicenter databases aimed at using 4D flow to predict cardiovascular outcomes in the general population, a longitudinal 4D flow study of the developing preterm heart throughout childhood, and a prospective 4D flow study to predict post-myocardial infarction thrombus formation.

Download or read book Cardiac 4D Flow MRI written by Philip Corrado (Ph.D.) and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Magnetic resonance imaging (MRI) is a medical imaging modality with the ability to acquire images sensitized to several different contrast mechanisms. One of the many mechanisms that can generate contrast in MR images is blood flow. "4D flow MRI", a method for quantifying time-resolved velocity fields in 3-dimensional regions, is employed in the context of comprehensive flow assessment within the heart and major blood vessels but requires long acquisition and post-processing times. The aims of the work presented in this dissertation are to accelerate the acquisition and processing of cardiac 4D flow MRI images, and to apply 4D flow MRI to quantify intracardiac hemodynamics in two disease population: survivors of myocardial infarction and young adults born very-to-extremely premature. This work is divided into six research chapters. The technical innovations introduced and evaluated in my work (Chapters 2-4) relate to the validation of accelerated 4D flow acquisitions and the development of fast, automated pipelines for 4D flow image analysis. In Chapter 2, I describe the construction of a model of the left ventricle of the heart and use it to compare acceleration acquisition techniques for 4D flow MRI. Using an optical imaging-based reference standard, I show lower error in velocity estimations at short scan times for one technique over the other, supporting the use of this technique in scan-time-limited scenarios and demonstrating a generalizable workflow for head-to-head comparison of image acquisition or reconstruction techniques which can be adopted in other applications in order to minimize acquisition time. In Chapters 3 and 4, I use deep learning to automate image processing tasks for quantitative flow assessment in 4D flow MRI of the chest. In particular, I automate the segmentation of the myocardial ventricles (Chapter 3), necessary for the measurement of ventricular kinetic energy or the analysis of ventricular flow components, and the placement of measurement planes (Chapter 4), necessary for the measurement of flow and peak velocity in the great vessels of the heart. Both methods are thoroughly evaluated, finding similar performance to manual segmentation/plane placement. This enables 4D flow MR images of the chest to be processed in an automated fashion, vastly reducing the processing time required for users of 4D flow MRI and enabling large and longitudinal studies without biases between observers. The applications of cardiac 4D flow MRI explored in my work are myocardial infarction (Chapter 5) and cardiac development after preterm birth (Chapters 6-7). In Chapter 5, I apply cardiac 4D flow MRI to study hemodynamics in the left ventricle after acute myocardial infarction. 4D flow data is compared region-by-region between myocardial infarction patients and controls, finding reduced flow in several left ventricular regions in patients relative to controls, perhaps providing indications of risk of post-infarction sequelae. In Chapters 6 and 7, I apply cardiac 4D flow MRI to study intracardiac hemodynamics in another at-risk population: young adults born very-to-extremely premature. I first compare intraventricular flow in young adults born premature to those born at term (Chapter 6), finding decreased right ventricular early-to-late diastolic kinetic energy ratios and increased viscous energy dissipation in preterm subjects relative to term subjects, suggesting altered right ventricular filling which may be relevant to the elevated early heart failure risk in this population. I then use acute pharmacological interventions to assess the effects of hemodynamic manipulations on cardiac hemodynamics measured by 4D flow MRI in young adults born premature (Chapter 7). Acute pharmacological reduction of pulmonary blood pressure increases cardiac function, suggesting that pulmonary hypertension may play a role in this group's heart failure risk. Recommendations for future work include assembling large multicenter databases aimed at using 4D flow to predict cardiovascular outcomes in the general population, a longitudinal 4D flow study of the developing preterm heart throughout childhood, and a prospective 4D flow study to predict post-myocardial infarction thrombus formation.

Download or read book MRI and CT of the Cardiovascular System written by Charles B. Higgins and published by Lippincott Williams & Wilkins. This book was released on 2013-09-11 with total page 1484 pages. Available in PDF, EPUB and Kindle. Book excerpt: Written by internationally eminent experts in cardiovascular imaging, this volume provides state-of-the-art information on the use of MRI and CT in the assessment of cardiac and vascular diseases. This third edition, now in four-color, reflects recent significant advances in cardiovascular MRI technology and the continuing emergence of multi-detector CT as an important diagnostic modality, particularly for ischemic heart disease. Seven new chapters have been added including chapters on anatomy, cardiovascular MR in infants/children, assessing myocardial viability, risk assessment in ischemic heart disease and MR guidance.

Download or read book Cardiovascular Biomechanics written by Peter R. Hoskins and published by Springer. This book was released on 2017-02-16 with total page 462 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides a balanced presentation of the fundamental principles of cardiovascular biomechanics research, as well as its valuable clinical applications. Pursuing an integrated approach at the interface of the life sciences, physics and engineering, it also includes extensive images to explain the concepts discussed. With a focus on explaining the underlying principles, this book examines the physiology and mechanics of circulation, mechanobiology and the biomechanics of different components of the cardiovascular system, in-vivo techniques, in-vitro techniques, and the medical applications of this research. Written for undergraduate and postgraduate students and including sample problems at the end of each chapter, this interdisciplinary text provides an essential introduction to the topic. It is also an ideal reference text for researchers and clinical practitioners, and will benefit a wide range of students and researchers including engineers, physicists, biologists and clinicians who are interested in the area of cardiovascular biomechanics.

Download or read book MRI of Cardiovascular Malformations written by Bruno Kastler and published by Springer Science & Business Media. This book was released on 2010-11-04 with total page 263 pages. Available in PDF, EPUB and Kindle. Book excerpt: MRI is a non-invasive and non-ionizing imaging modality that is perfectly suited for the diagnosis and follow-up of both pediatric and adult congenital heart disease. It provides a large field of view and has the unique ability to depict complex cardiac and vascular anatomy and to measure cardiac function and flow within one examination. MRI is the ideal complement to echocardiography whenever the information provided by the latter is limited. This book has been conceived as a self-teaching manual that will assist qualified radiologists, cardiologists, and pediatricians, as well as those in training. It is richly illustrated with numerous images and drawings that cover all usual and most unusual anomalies. The principal author, Professor Bruno Kastler, is head of radiology at Besançon University Hospital, France and is board certified in both radiology and cardiology.

Download or read book Pediatric Cardiovascular Medicine written by James H. Moller and published by John Wiley & Sons. This book was released on 2012-03-12 with total page 1096 pages. Available in PDF, EPUB and Kindle. Book excerpt: The first edition of this text, edited by two of the world’s most respected pediatric cardiologists, set the standard for a single-volume, clinically focused textbook on this subject. This new edition, revised and updated by contributors representing today’s global thought leaders, offers increased coverage of the most important current topics, such as pediatric electrophysiology, congenital heart disease, cardiovascular genetics/genomics, and the identification and management of risk factors in children, while maintaining the clinical focus. Published with a companion website that features additional images for download, self-assessment questions designed to aid readers who are preparing for examinations, and other features, Pediatric Cardiovascular Medicine, Second Edition, is the perfect reference for residents, fellows, pediatricians, as well as specialists in pediatric cardiology.

Download or read book Functional Imaging and Modeling of the Heart written by Nicholas Ayache and published by Springer Science & Business Media. This book was released on 2009-05-25 with total page 551 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book constitutes the refereed proceedings of the 5th International Conference on Functional Imaging and Modeling of the Heart, FIMH 2009, held in Nice, France in June 2009. The 54 revised full papers presented were carefully reviewed and selected from numerous submissions. The contributions cover topics such as cardiac imaging and electrophysiology, cardiac architecture imaging and analysis, cardiac imaging, cardiac electrophysiology, cardiac motion estimation, cardiac mechanics, cardiac image analysis, cardiac biophysical simulation, cardiac research platforms, and cardiac anatomical and functional imaging.

Download or read book Blood written by Aise Seda Artis and published by BoD – Books on Demand. This book was released on 2022-03-16 with total page 154 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book examines both the fluid and cellular components of blood. After the introductory section, the second section presents updates on various topics in hemodynamics. Chapters in this section discuss anemia, 4D flow MRI in cardiology, cardiovascular complications of robot-assisted laparoscopic pelvic surgery, altered perfusion in multiple sclerosis, and hemodynamic laminar shear stress in oxidative homeostasis. The third section focuses on thalassemia with chapters on diagnosis and screening for thalassemia, high blood pressure in beta-thalassemia, and hepatitis C infection in thalassemia patients.

Download or read book Mayo Clinic Guide to Cardiac Magnetic Resonance Imaging written by Kiaran McGee PhD and published by Oxford University Press. This book was released on 2015-05-28 with total page 304 pages. Available in PDF, EPUB and Kindle. Book excerpt: The Mayo Clinic Guide to Magnetic Resonance Imaging, Second Edition, is a thoroughly handy reference text and soon to be classic text is designed to educate physicists, technologists, and clinicians in the basics of cardiac MRI. A significantly expanded and reworked clinical imaging section provides numerous imaging protocols for the most commonly indicated cardiac MRI examinations as well as a plethora of well illustrated and described clinical examples. This text is a must have for anyone interested in developing their own cardiovascular MR imaging practice or advancing their existing skills. The addition of case-based questions and answers add a new dimension to this expanded second edition.

Download or read book Insights in cardiovascular imaging 2022 written by Christos Bourantas and published by Frontiers Media SA. This book was released on 2023-07-21 with total page 330 pages. Available in PDF, EPUB and Kindle. Book excerpt: