Heart Development


Book Description

Contributors. -- Preface. -- C. Seidman, Introduction. -- I. Origins and Early Morphogenesis: -- P.P.L. Tam and G.C. Schoenwolf, Cardiac Fate Maps: Lineage Allocation, Morphogenetic Movement, and Cell Commitment. -- T. Mikawa, Cardiac Lineages. -- II. Cardiac Induction: -- T.J. Mohun and L.M. Leong, Heart Formation and the Heart Field in Amphibian Embryos. -- T.M. Schultheiss and A.B. Lassar, Vertebrate Heart Induction. -- III. Genetic Dissection of Heart Development: -- R. Bodmer and M. Frasch, Genetic Determination in Drosophilia Heart Development. -- J. Alexander and D.Y.R. Stainier, Mutations Affecting Cardiac Development in Zebrafish. -- R.P. Harvey, C. Biben, and D.A. Elliott, Transcriptional Control and Pattern Formation in the Developing Vertebrate Heart: Studies on NK-2 Class Homeodomain Factors. -- B.L. Black and E.N. Olson, Control of Cardiac Development by the Family of MEF2 Transcription Factors. -- D. Srivastava, Segmental Regulation of Cardiac Development by the Basic He ...




Atlas of Heart Anatomy and Development


Book Description

​This heart anatomy book describes the cardiac development and cardiac anatomy in the development of the adult heart, and is illustrated by numerous images and examples. It contains 550 images of dissected embryo and adult hearts, obtained through the dissection and photography of 235 hearts. It has been designed to allow the rapid understanding of the key concepts and that everything should be clearly and graphically explained in one book. This is an atlas of cardiac development and anatomy of the human heart which distinguishes itself with the use of 550 images of embryonic, fetal and adult hearts and using text that is logical and concise. All the mentioned anatomical structures are shown with the use of suggestive dissection images to emphasize the details and the overall location. All the images have detailed comments, while clinical implications are suggested. The dissections of different hearts exemplify the variability of the cardiac structures. The electron and optical microscopy images are sharp and provide great fidelity. The arterial molds obtained using methyl methacrylate are illustrative and the pictures use suggestive angles. The dissections were made on human normal and pathological hearts of different ages, increasing the clinical utility of the material contained within.​




Heart of Development, V. 2


Book Description

In these groundbreaking new collections, the reader will find an exciting, boad-ranging selection of work showing an array of applications of the Gestalt model to working with children, adolescents, and their families and worlds. From the theoretical to the hands-on, and from the clinical office or playroom to family settings, schools, institutions, and the community, these chapters take us on a rewarding tour of the vibrant, productive range of Gestalt work today, always focusing on the first two decades of life. With each new topic and setting, fresh and creative ideas and interventions are offered and described, for use by practitioners of every school and method.




Anatomy and Physiology


Book Description




Anatomy & Physiology


Book Description

A version of the OpenStax text




MRCOG Part One


Book Description

A fully updated and illustrated handbook providing comprehensive coverage of all curriculum areas covered by the MRCOG Part 1 examination.




The Artificial Heart


Book Description

A significant medical event is expected in 1992: the first human use of a fully implantable, long-term cardiac assist device. This timely volume reviews the artificial heart program-and in particular, the National Institutes of Health's major investment-raising important questions. The volume includes: Consideration of the artificial heart versus heart transplantation and other approaches to treating end-stage heart disease, keeping in mind the different outcomes and costs of these treatments. A look at human issues, including the number of people who may require the artificial heart, patient quality of life, and other ethical and societal questions. Examination of how this technology's use can be targeted most appropriately. Attention to achieving access to this technology for all those who can benefit from it. The committee also offers three mechanisms to aid in allocating research and development funds.




Pathology of Heart Disease in the Fetus, Infant and Child


Book Description

Clearly presents the pathology of heart disease from fetus to adolescence, integrating histology and macroscopy with effects of treatment.




Cardiovascular Disability


Book Description

The Social Security Administration (SSA) uses a screening tool called the Listing of Impairments to identify claimants who are so severely impaired that they cannot work at all and thus immediately qualify for benefits. In this report, the IOM makes several recommendations for improving SSA's capacity to determine disability benefits more quickly and efficiently using the Listings.




Development of the Cardiac Conduction System


Book Description

The pacemaking and conduction system (PCS) is vital for generating and synchronizing the heart beat. Dysfunction of this system can be a direct cause of cardiac conduction disturbance, arrhythmias and sudden cardiac death. A wealth of information has been collected over many years on the unique histological, morphological and phenotypic characteristics of specialized cardiac tissues. The cellular and molecular mechanisms that govern development of the PCS are now starting to be understood. This book draws together contributions from an international and interdisciplinary group of experts working on both basic and clinical aspects of cardiac development. It features reviews of the structure and function of the developing PCS, discussion of the molecular and cellular mechanisms regulating embryological development of this system and studies on the fundamental basis of PCS pathology. The book also considers how novel therapeutic interventions based on understanding of the developmental biology of cardiac pacemaking and conduction tissues might ultimately impact on clinical medicine.