Internformat: The Vascular Pole of the Renal Glomerulus of Rat

The Vascular Pole of the Renal Glomerulus of Rat:

Knowledge of the architecture of the renal glomerulus is a prerequisite for understanding both glomerular function and pathology. Glomerular filtration depends on comparably high intracapillary hydrostatic pressures. These high pressures must be balanced by commensurate counterforces to maintain str...

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Bibliographische Detailangaben
Hauptverfasser:	Elger, Marlies (VerfasserIn), Sakai, Tatsuo (VerfasserIn), Kriz, Wilhelm (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Berlin, Heidelberg Springer Berlin Heidelberg 1998
Schriftenreihe:	Advances in Anatomy, Embryology and Cell Biology 139
Schlagworte:	Human Physiology Human physiology Niere Glomerulus Blutgefäßsystem Tiermodell Arteriole Ratte
Online-Zugang:	UBR01 URL des Erstveröffentlichers
Zusammenfassung:	Knowledge of the architecture of the renal glomerulus is a prerequisite for understanding both glomerular function and pathology. Glomerular filtration depends on comparably high intracapillary hydrostatic pressures. These high pressures must be balanced by commensurate counterforces to maintain structural integrity. Elevated pressures can damage the glomerulus. The "window" for pressures high enough for effective filtration and yet tolerable to the glomerulus is narrow. Precise regulation is therefore necessary to keep intraglomerular pressure within an appropriate range. This study provides a comprehensive description of the glomerular arterioles, which are the vessels primarily responsible for the regulation of intraglomerular pressures. It thereby describes the structures which may be presumed to generate counterforces needed to assure structural stability. The arterioles are closely associated with the supporting system comprised of the intra- and extraglomerular mesangium. The extraglomerular mesangium forms a spider-like clamp providing a mechanical interconnection of all components of the vascular pole. At the same time, it may act as a tension receptor, i.e. as a sensor of intraglomerular pressures. Due to its intimate relationship to the macula densa, the extraglomerular mesangium receives information on the distal solute delivery and therefore may act as the integrative center within the juxtaglomerular apparatus. The close spatial association between the afferent and efferent arterioles at the vascular pole suggests a direct regulatory interaction between both arterioles. In addition, the specific wall structure of the efferent arteriole exhibiting the features of a shear stress receptor suggests new pathways for feedback regulation of glomerular hemodynamics
Beschreibung:	1 Online-Ressource (IX, 98 p. 32 illus)
ISBN:	9783642804496
DOI:	10.1007/978-3-642-80449-6

Internformat

MARC


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520			\|a Knowledge of the architecture of the renal glomerulus is a prerequisite for understanding both glomerular function and pathology. Glomerular filtration depends on comparably high intracapillary hydrostatic pressures. These high pressures must be balanced by commensurate counterforces to maintain structural integrity. Elevated pressures can damage the glomerulus. The "window" for pressures high enough for effective filtration and yet tolerable to the glomerulus is narrow. Precise regulation is therefore necessary to keep intraglomerular pressure within an appropriate range. This study provides a comprehensive description of the glomerular arterioles, which are the vessels primarily responsible for the regulation of intraglomerular pressures. It thereby describes the structures which may be presumed to generate counterforces needed to assure structural stability. The arterioles are closely associated with the supporting system comprised of the intra- and extraglomerular mesangium. The extraglomerular mesangium forms a spider-like clamp providing a mechanical interconnection of all components of the vascular pole. At the same time, it may act as a tension receptor, i.e. as a sensor of intraglomerular pressures. Due to its intimate relationship to the macula densa, the extraglomerular mesangium receives information on the distal solute delivery and therefore may act as the integrative center within the juxtaglomerular apparatus. The close spatial association between the afferent and efferent arterioles at the vascular pole suggests a direct regulatory interaction between both arterioles. In addition, the specific wall structure of the efferent arteriole exhibiting the features of a shear stress receptor suggests new pathways for feedback regulation of glomerular hemodynamics
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Datensatz im Suchindex

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author	Elger, Marlies Sakai, Tatsuo Kriz, Wilhelm
author_facet	Elger, Marlies Sakai, Tatsuo Kriz, Wilhelm
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illustrated	Not Illustrated
indexdate	2024-07-10T08:36:25Z
institution	BVB
isbn	9783642804496
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-031524315
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physical	1 Online-Ressource (IX, 98 p. 32 illus)
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publishDate	1998
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publisher	Springer Berlin Heidelberg
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series2	Advances in Anatomy, Embryology and Cell Biology
spelling	Elger, Marlies Verfasser aut The Vascular Pole of the Renal Glomerulus of Rat by Marlies Elger, Tatsuo Sakai, Wilhelm Kriz Berlin, Heidelberg Springer Berlin Heidelberg 1998 1 Online-Ressource (IX, 98 p. 32 illus) txt rdacontent c rdamedia cr rdacarrier Advances in Anatomy, Embryology and Cell Biology 139 Knowledge of the architecture of the renal glomerulus is a prerequisite for understanding both glomerular function and pathology. Glomerular filtration depends on comparably high intracapillary hydrostatic pressures. These high pressures must be balanced by commensurate counterforces to maintain structural integrity. Elevated pressures can damage the glomerulus. The "window" for pressures high enough for effective filtration and yet tolerable to the glomerulus is narrow. Precise regulation is therefore necessary to keep intraglomerular pressure within an appropriate range. This study provides a comprehensive description of the glomerular arterioles, which are the vessels primarily responsible for the regulation of intraglomerular pressures. It thereby describes the structures which may be presumed to generate counterforces needed to assure structural stability. The arterioles are closely associated with the supporting system comprised of the intra- and extraglomerular mesangium. The extraglomerular mesangium forms a spider-like clamp providing a mechanical interconnection of all components of the vascular pole. At the same time, it may act as a tension receptor, i.e. as a sensor of intraglomerular pressures. Due to its intimate relationship to the macula densa, the extraglomerular mesangium receives information on the distal solute delivery and therefore may act as the integrative center within the juxtaglomerular apparatus. The close spatial association between the afferent and efferent arterioles at the vascular pole suggests a direct regulatory interaction between both arterioles. In addition, the specific wall structure of the efferent arteriole exhibiting the features of a shear stress receptor suggests new pathways for feedback regulation of glomerular hemodynamics Human Physiology Human physiology Niere (DE-588)4042270-7 gnd rswk-swf Glomerulus (DE-588)4157648-2 gnd rswk-swf Blutgefäßsystem (DE-588)4133061-4 gnd rswk-swf Tiermodell (DE-588)4140660-6 gnd rswk-swf Arteriole (DE-588)4276342-3 gnd rswk-swf Ratte (DE-588)4177011-0 gnd rswk-swf Ratte (DE-588)4177011-0 s Niere (DE-588)4042270-7 s Glomerulus (DE-588)4157648-2 s Blutgefäßsystem (DE-588)4133061-4 s DE-604 Arteriole (DE-588)4276342-3 s Tiermodell (DE-588)4140660-6 s Sakai, Tatsuo aut Kriz, Wilhelm aut Erscheint auch als Druck-Ausgabe 9783540632412 Erscheint auch als Druck-Ausgabe 9783642804502 https://doi.org/10.1007/978-3-642-80449-6 Verlag URL des Erstveröffentlichers Volltext
spellingShingle	Elger, Marlies Sakai, Tatsuo Kriz, Wilhelm The Vascular Pole of the Renal Glomerulus of Rat Human Physiology Human physiology Niere (DE-588)4042270-7 gnd Glomerulus (DE-588)4157648-2 gnd Blutgefäßsystem (DE-588)4133061-4 gnd Tiermodell (DE-588)4140660-6 gnd Arteriole (DE-588)4276342-3 gnd Ratte (DE-588)4177011-0 gnd
subject_GND	(DE-588)4042270-7 (DE-588)4157648-2 (DE-588)4133061-4 (DE-588)4140660-6 (DE-588)4276342-3 (DE-588)4177011-0
title	The Vascular Pole of the Renal Glomerulus of Rat
title_auth	The Vascular Pole of the Renal Glomerulus of Rat
title_exact_search	The Vascular Pole of the Renal Glomerulus of Rat
title_full	The Vascular Pole of the Renal Glomerulus of Rat by Marlies Elger, Tatsuo Sakai, Wilhelm Kriz
title_fullStr	The Vascular Pole of the Renal Glomerulus of Rat by Marlies Elger, Tatsuo Sakai, Wilhelm Kriz
title_full_unstemmed	The Vascular Pole of the Renal Glomerulus of Rat by Marlies Elger, Tatsuo Sakai, Wilhelm Kriz
title_short	The Vascular Pole of the Renal Glomerulus of Rat
title_sort	the vascular pole of the renal glomerulus of rat
topic	Human Physiology Human physiology Niere (DE-588)4042270-7 gnd Glomerulus (DE-588)4157648-2 gnd Blutgefäßsystem (DE-588)4133061-4 gnd Tiermodell (DE-588)4140660-6 gnd Arteriole (DE-588)4276342-3 gnd Ratte (DE-588)4177011-0 gnd
topic_facet	Human Physiology Human physiology Niere Glomerulus Blutgefäßsystem Tiermodell Arteriole Ratte
url	https://doi.org/10.1007/978-3-642-80449-6
work_keys_str_mv	AT elgermarlies thevascularpoleoftherenalglomerulusofrat AT sakaitatsuo thevascularpoleoftherenalglomerulusofrat AT krizwilhelm thevascularpoleoftherenalglomerulusofrat

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