Alpern / Caplan / Moe | Seldin and Giebisch's The Kidney | Medienkombination | 978-0-12-815389-5 | www.sack.de

Medienkombination, Englisch, 3264 Seiten, Format (B × H): 216 mm x 276 mm, Gewicht: 6370 g

Alpern / Caplan / Moe

Seldin and Giebisch's The Kidney

Physiology and Pathophysiology
6. Auflage 2026
ISBN: 978-0-12-815389-5
Verlag: William Andrew Publishing

Physiology and Pathophysiology

Medienkombination, Englisch, 3264 Seiten, Format (B × H): 216 mm x 276 mm, Gewicht: 6370 g

ISBN: 978-0-12-815389-5
Verlag: William Andrew Publishing

Seldin and Giebisch’s The Kidney: Physiology and Pathophysiology, Sixth Edition provides a common language for nephrology researchers, fellows, and practicing nephrologists to discuss normal and abnormal renal physiology and the development and diagnosis of a wide range of renal diseases. Guided by a team of four distinguished authorities in nephrology, experts from all areas of renal research and practice take readers from the structure and function of the normal kidney, to the specific cellular and molecular mechanisms underlying disease development, and into the management of renal disease through physiologic regulation. This classic nephrology reference for nearly 30 years combines basic and clinical sciences that provides authoritative, concise, and readily accessible information. Academic, medical, and pharma researchers save valuable time by quickly accessing the very latest details on renal physiology and pathophysiology as opposed to searching through thousands of journal articles.

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Zielgruppe

<p>Medical and pharmaceutical researchers in nephrology and related renal diseases (renal cancer, diabetes, glomerulosclerosis, preeclampsia, lupus); fellows and academic clinicians in nephrology; researchers of renal diseases in the related fields of physiology, developmental biology, cell biology, and genetics.</p>

Autoren/Hrsg.

Alpern, Robert J.
Caplan, Michael J.
Moe, Orson W.
Quaggin, Susan E.

Fachgebiete

Weitere Infos & Material

Volume 1
Section I: Epithelial and nonepithelial transport and regulation
1. Epithelial cell structure and polarity
2. Mechanisms of ion and water transport across cell membranes and epithelia
3. Renal ion-translocating ATPases
4. Cell volume control
5. Solute transport, energy consumption and production in the kidney
6. Electrophysiological analysis of transepithelial transport
7. Renal ion channels, electrophysiology of transport and channelopathies
8. Microvascular permeability and the exchange of water and solutes across microvascular walls
9. Renal cilia structure, function, and physiology
10. Intercellular junctions and cell–matrix interactions
11. Principles of cell signaling
12. Scaffolding proteins in transport regulation
13. The renin–angiotensin system
14. Neural control of renal function
15. Eicosanoids and renal function
16. Extracellular nucleotides, metabolites, and renal function

Section II: Structural and functional organization of the kidney
17. Structural organization of the mammalian kidney
18. Biophysical basis of glomerular filtration
19. Glomerular cell biology
20. Function of the juxtaglomerular apparatus: control of glomerular hemodynamics and renin secretion
21. Vasculature of the kidney cortex and medulla
22. The development of the kidney
23. Molecular and cellular mechanisms of glomerular capillary development

Section III: Fluid and electrolyte regulation and dysregulation
24. Epithelial Na + channels
25. Anion channels
26. Physiology and pathophysiology of the NaCl cotransporters in the kidney
27. Balance and the pathophysiology of acid–base, fluid, and electrolyte disorders
28. Sodium and chloride transport in the proximal tubule
29. Mineralocorticoid action in the aldosterone-sensitive distal nephron
30. Genetic disorders of renal salt homeostasis and blood pressure
31. Pathophysiology of sodium retention and wastage
32. Physiology and pathophysiology of hypertension
33. Aquaporin water channels in mammalian kidney

Caplan, Michael J.
Dr. Michael Caplan studies epithelial cell biology and physiology. His work focuses on the trafficking and regulation of renal ion transport proteins. His group also studies the signaling pathways involved in autosomal dominant polycystic kidney disease. He received his MD and PhD degrees from Yale University, having pursued his dissertation work in the Department of Cell Biology under the guidance of Drs. James D. Jamieson and George E. Palade. He is currently C.N.H. Long Professor and Chair of Yale University School of Medicine’s Department of Cellular and Molecular Physiology.

Alpern, Robert J.
Dr. Robert J. Alpern has performed research in the area of epithelial physiology, focusing on the mechanisms and regulation of acid transport. He received his MD degree from the University of Chicago and then trained in internal medicine at Columbia Presbyterian. Following postdoctoral training in the Cardiovascular Research Institute at the University of California, San Francisco, Alpern joined the faculty at UCSF, then moved to the University of Texas Southwestern Medical School as Chief of Nephrology and later Dean of the Medical School. He then moved to Yale as the Dean of Yale School of Medicine and is now Ensign Professor of Medicine and Cellular and Molecular Physiology at Yale.

Quaggin, Susan E.
Dr. Susan E. Quaggin, MD, FASN, is a graduate of the University of Toronto, where she completed her residency and served as Chief Medical Resident for the University’s St. Michael’s Hospital. She completed her nephrology fellowship at the University of Toronto and Yale University, where she also completed research and postdoctoral training. Dr. Quaggin also trained in the developmental biology program at the University of Toronto’s Samuel Lunenfeld Research Institute. Dr. Quaggin now serves as Editor for Current Opinion in Nephrology and Hypertension and The Kidney, and as an Editorial Board Member for JCI, Disease Models and Mechanisms, and Kidney International. Currently, Charles Horace Mayo Professor of Medicine at Northwestern University and a Finnish Distinguished Professor (2012–17). Dr. Quaggin has been the recipient of many awards and honors.

Moe, Orson W.
Dr. Orson W. Moe received his MD degree from the University of Toronto, where he also did his internal medicine residency and clinical nephrology fellowship. Dr. Orson Moe moved to the University of Texas Southwestern Medical Center for research training in renal physiology. He is currently Professor of Internal Medicine and Physiology and member of the Nephrology Division at the University of Texas Southwestern Medical Center in Dallas. He is also Director of the Charles and Jane Pak Center of Mineral Metabolism and Clinical Research and holds the Charles and Jane Pak Chair in Mineral Metabolism Research and the Donald Seldin Professorship in Clinical Investigation. Dr. Moe conducts both basic science and patient-oriented research on renal physiology and metabolism, and epithelial biology.

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