The ESC Textbook of Cardiovascular Development

Herausgeber: Pérez-Pomares, José M

• Gebundenes Buch

Produktbeschreibung

This highly illustrated textbook has been prepared by the Working Group on Development, Anatomy and Pathology of the European Society of Cardiology (ESC). The textbook is the authority on cardiovascular development from a perspective of both basic scientists and clinicians.

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Produktdetails

• Verlag: Hurst & Co.
• Seitenzahl: 384
• Erscheinungstermin: 30. Oktober 2018
• Englisch
• Abmessung: 284mm x 224mm x 22mm
• Gewicht: 1294g
• ISBN-13: 9780198757269
• ISBN-10: 0198757263
• Artikelnr.: 52610303

Autorenporträt

José M. Pérez-Pomares obtained his PhD in Biological Sciences at the University of Málaga in 2000, and was post-doctoral fellow at the Department of Anatomy and Cell Biology, Medical University of South Carolina until 2002. He is now a professor at the Deparment of Animal Biology at the University of Malage and is the chair of Nucleus (board) of the Working Group on Development, Anatomy and Pathology of the European Society of Cardiology. As PI of the Cardiovascular Development & Disease (DeCA) research group, Dr. Pérez-Pomares is interested in the developmental bases of cardiovascular disease, and the team aims at identifying new diagnostic and prognostic markers as well as therapeutical targets and advanced therapies to treat the diseased heart. He is author of 10 book chapters and more than 60 publications in peer-reviewed, international journals.

Inhaltsangabe

* 1: Cristina Basso, Deborah Henderson, José Luis de la Pompa, Robert
G. Kelly, José Maria Pérez-Pomares, David Sedmera, and Maurice van
den Hoff: Relevance of developmental studies for clinicians
* Section 1: Origin, distribution and determination of cardiovascular
cell progenitors
* 2: A.F. Moorman, Bjarke Jensen, and R.J. Oostra: An evolutionary
perspective on the origin of the cardiovascular system of vertebrates
* 3: Carmen Lopez-Sanchez, Virginio Garcia-Lopez, Gary C. Schoenwolf,
and Virginio Garcia-Martinez: From epiblast to mesoderm: elaboration
of a fate map for cardiovascular progenitors
* 4: Christopher De Bono and Robert G. Kelly: Cardiac Fields and
myocardial cell lineages
* 5: LeShana SaintJean and H.S. Baldwin: Origin and diversity of
embryonic endothelium/endocardium
* 6: F. Gabriella Fulcoli and Antonio Baldini: Transcriptional
regulation of early cardiovascular development
* Section 2: Molecular regulation of cardiac tissue differentiation and
patterning
* 7: Mayyasa Rammah, Francesca Rochais, and Robert G. Kelly:
Incorporation of myocardial progenitors to the arterial pole of the
heart
* 8: Bram van Wijk, Phil Barnett and Maurice J B van den Hoff: The
Developmental Origin of Myocardium at the Venous Pole of the Heart
* 9: Sigolène M. Meilhac: Cardiac growth (I): Cardiomyocyte
proliferation
* 10: Stéphane Zaffran: Cardiac growth (I): Cardiomyocyte polarisation
* 11: Gaetano D'Amato, Guillermo Luxán and José Luis de la Pompa:
Defining cardiac domains from the inside: NOTCH in
endocardial-myocardial interactions
* 12: Adrián Ruiz-Villalba, Nikolaos Frangogiannis, and José Maria
Pérez-Pomares: Origin and diversity of cardiac fibroblasts:
developmental substrates of adult cardiac fibrosis
* Section 3: Morphogenesis of cardiovascular structures. On form and
function
* 13: David Sedmera and Robert P. Thompson: Building the cardiovascular
system: the acquisition of a functional form
* 14: Marina Campione, Amelia Aranega and Diego Franco: Cardiac looping
and laterality
* 15: Lucile Miquerol: Origin and development of the cardiac conduction
system
* 16: Rui Benedito and Arndt Friedrich Siekmann: Blood vessel
differentiation and growth
* 17: D MacGrogan, Jose Maria Pérez-Pomares, Bill Chaudhry, Jose-Luis
de la Pompa and Deborah Henderson: From cushions to leaflets:
Morphogenesis of cardiac atrioventricular valves
* 18: Deborah J. Henderson, Bill Chaudhry, and José Luis de la Pompa:
Development of the arterial valves
* 19: Laura A. Dyer and Margaret L. Kirby: The role of neural crest in
cardiac development
* 20: Robert Dettman, Juan Antonio Guadix, Elena Cano, Rita Carmona,
and Ramón Muñoz-Chápuli: The multiple functions of the
proepicardial/epicardial cell lineage in heart development
* 21: Robert J. Tomanek, Adriana A. Silva Pires Gomes, José Maria
Pérez-Pomares: The development of coronary vascularization
* Section 4: Abnormal cardiac morphogenesis and the origin of
congenital heart disease
* 22: Jamie Bentham: The genetics of congenital heart disease
* 23: Robert H. Anderson, Nigel A. Brown, Simon D. Bamforth, Bill
Chaudhry, Deborah J. Henderson, and Timothy J. Mohun: Development of
the Outflow Tract
* 24: S. Yen Ho and Matina Prapa: Arterial wall remodelling in
congenital heart disease
* 25: Cristina Basso, José Maria Perèz-Pomares, Gaetano Thiene, and
Lucile Houyel: Coronary anomalies
* 26: Mary Sheppard: Myocardial non-compaction
* 27: Alex V. Postma, David Sedmera, Frantisek Vostarek, Vincent M.
Christoffels, and Connie R. Bezzina: Developmental Aspects of Cardiac
Arrhythmias
* Section 5: Frontiers in cardiovascular development
* 28: Mauro Giacca and Borja Ibáñez: Advanced therapies to treat
cardiovascular diseases. Controversies and perspectives
* 29: Bill Chaudhry, José Luis de la Pompa, and Nadia Mercade: The
zebrafish as a model for cardiac development and regeneration
* 30: Daniela Salvatori, Harsha.D. Devalla and Robert Passier: Cells to
repair the infarcted myocardium
* 31: Yolan J. Reckman and Yigal M. Pinto: The role of non-coding
RNA/micro RNAs in cardiac disease
* 32: Jin Yang, Pei Han, Wei Li, and Ching-Pin Chang: Egigenetics and
post-transcriptional regulation of cardiovascular development
* 33: Marcel Grunert, Andreas Perrot, and Silke Rickert-Sperling:
Complex network interactions: cardiovascular system biology