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Author: Fei Han
Publisher:
ISBN:
Category :
Languages : en
Pages : 170
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Book Description
Congenital heart disease (CHD) is the most common congenital defect affecting about 1% of live births. Cardiovascular MRI (CMR) is increasingly used in pediatric patients with CHD to complement echocardiography and invasive catheterization for anatomical and functional assessment of the heart and blood vessels. For children, the non-invasiveness, unrestricted field of view, absence of contrast nephrotoxicity and ionizing radiation make CMR an attractive imaging modality. Current pediatric CMR protocol includes, among others, 2D cardiac cine and 3D first-pass contrast-enhanced MR angiography, both performed with breath-holding. However, reliable breath-holds are usually hard to achieve in these pediatric patients due to their limited cooperation. In addition, prolonged and repeated breath-holds are undesirable for patients with unstable cardiopulmonary status. More importantly, the data acquisitions in current CMR protocols are limited by the breath-hold duration, the need to capture the first-pass of the gadolinium bolus and relatively thick 2D slices in cardiac cine. Consequently, despite its exquisitely detailed definition of extra-cardiac vascular anatomy, conventional CMR methods fall short of providing a comparable definition of dynamic cardiac anatomy, although the status of these structures is often the basis for treatment and surgical planning. Moreover, a conventional pediatric CMR protocol requires a lot of clinical resources, including an average of 1-2 hours of scanner time and the need for physician's presence to ensure appropriate geometric interrogation of the complex congenital cardiac anatomy. All the aforementioned issues have prevented pediatric CMR from reaching its full potential. The overall aim of this thesis is to propose an innovative, effective, and reliable CMR approach to address the aforementioned issues of conventional protocol. The proposed pediatric CMR approach includes the use of ferumoxytol as an intravascular contrast agent and the development of the 4D Multi-phase Steady-state Imaging with Contrast (4D MUSIC) pulse sequence using a ROtating Cartesian K-space (ROCK) sampling pattern, cardiac and respiratory motion self-gating and compressed sensing image reconstruction. The proposed approach potentially represents a new paradigm of CMR in pediatric CHD patients whereby comprehensive volumetric information about cardiovascular anatomy and function can be acquired non-invasively in 10 minutes, without ionizing radiation, without exposure to a Gadolinium-based contrast agent and without breath-holding. Chapter 1 introduces the conventional CMR protocol and discusses its utility in the clinical management of pediatric patients with CHD, which bring out the motivation of the technical development of this thesis. In Chapter 2, a brief technical background of MRI is provided. Chapter 3 introduces the concept of performing CMR with respiratory and cardiac motion compensation during the steady-state distribution of ferumoxytol. The prototype 4D MUSIC pulse sequence and preliminary clinical results from eight pediatric patients with CHD are presented in this chapter. In Chapter 4, several technical developments were made to optimize the 4D MUSIC sequence, including an efficient and flexible ROCK sampling pattern, a robust retrospective motion compensation strategy, and a compressed sensing image reconstruction algorithm. These technical developments further improve the clinical performance of 4D MUSIC in terms of image quality, scan efficiency, and reliability, and potentially eliminate the need for external physiological signal monitoring for motion gating. The optimized 4D MUSIC sequence was validated in a clinical study of ten pediatric patients with CHD. Chapter 5 exploits the potential of 4D MUSIC for cardiac functional evaluation where a motion-weighted image reconstruction strategy was evaluated to improve the temporal resolution of 4D MUSIC images. The results from a retrospective clinical study of sex pediatric patients with CHD showed that 4D MUSIC could offer accurate cardiac functional measurements. Several techniques developed in Chapters 3-5 can be applied to other MRI applications. In Chapter 6, a segmented golden ratio radial reordering scheme is proposed in order to improve the k-space sampling efficiency in 2D cardiac CINE acquisitions and enable image reconstruction with retrospectively defined temporal resolution. A 4D respiratory resolved MRI technique is proposed in Chapter 7, utilizing the ROCK sampling pattern developed in Chapter 4. The proposed technique can be used to quantitatively evaluate the breathing pattern of individual patients and help to optimize the dose delivery in radiation therapy.
Author: Fei Han
Publisher:
ISBN:
Category :
Languages : en
Pages : 170
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Book Description
Congenital heart disease (CHD) is the most common congenital defect affecting about 1% of live births. Cardiovascular MRI (CMR) is increasingly used in pediatric patients with CHD to complement echocardiography and invasive catheterization for anatomical and functional assessment of the heart and blood vessels. For children, the non-invasiveness, unrestricted field of view, absence of contrast nephrotoxicity and ionizing radiation make CMR an attractive imaging modality. Current pediatric CMR protocol includes, among others, 2D cardiac cine and 3D first-pass contrast-enhanced MR angiography, both performed with breath-holding. However, reliable breath-holds are usually hard to achieve in these pediatric patients due to their limited cooperation. In addition, prolonged and repeated breath-holds are undesirable for patients with unstable cardiopulmonary status. More importantly, the data acquisitions in current CMR protocols are limited by the breath-hold duration, the need to capture the first-pass of the gadolinium bolus and relatively thick 2D slices in cardiac cine. Consequently, despite its exquisitely detailed definition of extra-cardiac vascular anatomy, conventional CMR methods fall short of providing a comparable definition of dynamic cardiac anatomy, although the status of these structures is often the basis for treatment and surgical planning. Moreover, a conventional pediatric CMR protocol requires a lot of clinical resources, including an average of 1-2 hours of scanner time and the need for physician's presence to ensure appropriate geometric interrogation of the complex congenital cardiac anatomy. All the aforementioned issues have prevented pediatric CMR from reaching its full potential. The overall aim of this thesis is to propose an innovative, effective, and reliable CMR approach to address the aforementioned issues of conventional protocol. The proposed pediatric CMR approach includes the use of ferumoxytol as an intravascular contrast agent and the development of the 4D Multi-phase Steady-state Imaging with Contrast (4D MUSIC) pulse sequence using a ROtating Cartesian K-space (ROCK) sampling pattern, cardiac and respiratory motion self-gating and compressed sensing image reconstruction. The proposed approach potentially represents a new paradigm of CMR in pediatric CHD patients whereby comprehensive volumetric information about cardiovascular anatomy and function can be acquired non-invasively in 10 minutes, without ionizing radiation, without exposure to a Gadolinium-based contrast agent and without breath-holding. Chapter 1 introduces the conventional CMR protocol and discusses its utility in the clinical management of pediatric patients with CHD, which bring out the motivation of the technical development of this thesis. In Chapter 2, a brief technical background of MRI is provided. Chapter 3 introduces the concept of performing CMR with respiratory and cardiac motion compensation during the steady-state distribution of ferumoxytol. The prototype 4D MUSIC pulse sequence and preliminary clinical results from eight pediatric patients with CHD are presented in this chapter. In Chapter 4, several technical developments were made to optimize the 4D MUSIC sequence, including an efficient and flexible ROCK sampling pattern, a robust retrospective motion compensation strategy, and a compressed sensing image reconstruction algorithm. These technical developments further improve the clinical performance of 4D MUSIC in terms of image quality, scan efficiency, and reliability, and potentially eliminate the need for external physiological signal monitoring for motion gating. The optimized 4D MUSIC sequence was validated in a clinical study of ten pediatric patients with CHD. Chapter 5 exploits the potential of 4D MUSIC for cardiac functional evaluation where a motion-weighted image reconstruction strategy was evaluated to improve the temporal resolution of 4D MUSIC images. The results from a retrospective clinical study of sex pediatric patients with CHD showed that 4D MUSIC could offer accurate cardiac functional measurements. Several techniques developed in Chapters 3-5 can be applied to other MRI applications. In Chapter 6, a segmented golden ratio radial reordering scheme is proposed in order to improve the k-space sampling efficiency in 2D cardiac CINE acquisitions and enable image reconstruction with retrospectively defined temporal resolution. A 4D respiratory resolved MRI technique is proposed in Chapter 7, utilizing the ROCK sampling pattern developed in Chapter 4. The proposed technique can be used to quantitatively evaluate the breathing pattern of individual patients and help to optimize the dose delivery in radiation therapy.
Author: Mushabbar A. Syed
Publisher: Springer Nature
ISBN: 3031292359
Category : Medical
Languages : en
Pages : 433
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Book Description
This heavily updated textbook focuses on the use of cardiac magnetic resonance (CMR) imaging in pediatric and adult patients with congenital heart disease. Over past two decades, CMR has come to occupy an ever more important place in the assessment and management of patients with congenital heart defects (CHD) and other cardiovascular disorders. The modality offers an ever-expanding amount of information about the heart and circulation, provides outstanding images of cardiovascular morphology and function, is increasingly being used to detect pathologic fibrosis, and has an expanding role in the assessment of myocardial viability. Magnetic Resonance Imaging of Congenital Heart Disease is an excellent foundation for any reader not familiar with the field whether they are imagers or clinicians who deal with cardiovascular disease. It also describes the technical details of MRI techniques to help the clinician understand the most important elements of CMR in assessing and managing their patients. In creating the book, the editors have assembled a world-renowned panel of contributors to review the use of CMR in CHD and make it accessible to those working in the field and to those who use the information derived from CMR in their clinical practice.
Author: Mark A. Fogel
Publisher: John Wiley & Sons
ISBN: 1444317040
Category : Medical
Languages : en
Pages : 480
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Book Description
CMR is a powerful tool in the armamentarium of pediatric cardiology and health care workers caring for patients with congenital heart disease (CHD), but a successful study still presents major technical and clinical challenges. This text was created to give trainees, practitioners, allied professionals, and researchers a repository of dependable information and images to base their use of CMR on. Because CHD presents an intricate web of connections and associations that need to be deciphered, the imager performing CMR needs to understand not only anatomy, physiology, function, and surgery for CHD, but also the technical aspects of imaging. Written by experts from the world’s leading institutions, many of whom pioneered the techniques and strategies described, the text is organized in a logical way to provide a complete understanding of the issues involved. It is divided into three main parts: The Basics of CMR - familiarizes the reader with the minimum tools needed to understand the basics, such as evaluating morphology, ventricular function, and utilizing contrast agents CMR of Congenital and Acquired Pediatric Heart Disease - discusses broad categories of CHD and the use of CMR in specific disease states Special Topics in Pediatric Cardiac MR - covers other important areas such as the complementary role of CT scanning, interventional CMR, the role of the technologist in performing a CMR exam, and more With the ever increasing sophistication of technology, more can be done with CMR in a high quality manner in a shorter period of time than had been imagined as recently as just a few years ago. Principles and Practice of Cardiac Magnetic Resonance in Congenital Heart Disease: Form, Function, and Flow makes a major contribution to applying these techniques to improved patient care. An ideal introduction for the novice or just the curious, this reference will be equally useful to the seasoned practitioner who wants to keep pace with developments in the field and would like a repository of information and images readily availalble.
Author: Shankar Sridharan
Publisher: Springer Science & Business Media
ISBN: 354069837X
Category : Medical
Languages : en
Pages : 170
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Book Description
The last 10 years has seen explosive expansion of the number of centres performing cardiov- cular magnetic resonance (CMR) imaging. The majority of this expansion has been in the ? eld of adult ischaemic imaging, but congenital heart disease remains one of the main indications for CMR. Importantly, the greatly improved survival of patients with congenital heart disease gives us a burgeoning adult population living with the sequelae of the disease (grown-up c- genital heart disease – GUCH). Without previous experience or formal training, the interpretation of CMR images of patients with congenital heart disease can be dif? cult. The main aim of this book is to create a portable resource that offers ef? cient access to high-quality MR (and where appropriate, CT) images of the common congenital and structural heart abnormalities. We hope that by prov- ing key images for each condition and a clear interpretation of the MR appearances, we will improve the reader’s understanding of the conditions, facilitate their interpretation of images and optimise the planning of the imaging protocols during their own practice of congenital CMR. As with any publication from a single institution, the contents of this book represent our own practice. We have not written a de? nitive or exhaustive description of the conditions.
Author: Warren J. Manning
Publisher: Elsevier Health Sciences
ISBN: 0323497373
Category : Medical
Languages : en
Pages : 672
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Book Description
Provides state-of-the-art coverage of CMR technologies and guidelines, including basic principles, imaging techniques, ischemic heart disease, right ventricular and congenital heart disease, vascular and pericardium conditions, and functional cardiovascular disease. Includes new chapters on non-cardiac pathology, pacemaker safety, economics of CMR, and guidelines as well as new coverage of myocarditis and its diagnosis and assessment of prognosis by cardiovascular magnetic resonance, and the use of PET/CMR imaging of the heart, especially in sarcoidosis. Features more than 1,100 high-quality images representing today’s CMR imaging. Covers T1, T2 and ECV mapping, as well as T2* imaging in iron overload, which has been shown to save lives in patients with thalassaemia major Discusses the cost-effectiveness of CMR.
Author: Margaret M. Samyn
Publisher:
ISBN:
Category : Medicine
Languages : en
Pages :
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Book Description
Cardiovascular diseases (CVDs) afflict many people across the world; thus, understanding the pathophysiology of CVD and the biomechanical forces which influence CVD progression is important in the development of optimal strategies to care for these patients. Over the last two decades, cardiac magnetic resonance (CMR) imaging has offered increasingly important insights into CVD. Computational fluid dynamics (CFD) modeling, a method of simulating the characteristics of flowing fluids, can be applied to the study of CVD through the collaboration of engineers and clinicians. This chapter aims to explore the current state of the CMR-derived CFD, as this technique pertains to both acquired CVD (id est, atherosclerosis) and congenital heart disease (CHD).
Author: Leonard M. Freeman
Publisher:
ISBN:
Category : Medical
Languages : en
Pages : 232
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Book Description
Author: Gianfranco Butera
Publisher: Springer
ISBN: 8847056810
Category : Medical
Languages : en
Pages : 768
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Book Description
This handbook is an ideal, up-to-date guide to the application of catheter-based interventions across the entire patient age range, from fetal life through to adulthood. Clear instruction is offered on techniques of vascular access, valve dilatation, angioplasty, stent implantation, defect closure, defect creation, pulmonary valve implantation and the hybrid approach, as well as miscellaneous other procedures. Topics are approached using a step-by-step format, ensuring that the reader will immediately be able to access information relevant to daily practice. Many explanatory figures and drawings are included in each chapter in order to clarify further how to plan, perform and evaluate diagnostic and interventional procedures in the field of congenital heart disease. Attention is drawn to important tips and tricks that will assist in achieving optimal outcomes and an appendix includes additional general equations and BSA and oxygen consumption charts.
Author: Robert Shaddy
Publisher: CRC Press
ISBN: 9780367393243
Category :
Languages : en
Pages : 928
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Book Description
The first book of its kind, this reference describes current diagnostic and treatment strategies for acute and chronic heart failure in the fetus, neonate, child, and young adult-encompassing every aspect of pediatric heart failure including historical perspectives, the latest technologies in mechanical circulatory support, and recent information on the psychosocial aspects of heart failure in children.
Author: Laura K. Berenstain
Publisher: Cambridge University Press
ISBN: 1108494161
Category : Medical
Languages : en
Pages : 423
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Book Description
An illustrated guide for anesthesia providers for congenital heart disease patients, with a focus on non-cardiac operating room settings.
