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OverviewThe history of arterial hypertension is both long and short; long, since BRIGHT (1827) first related hardness of the pulse to hardness of the kidneys and hyper. trophy of the heart; short in that modern research began in the late twenties. Most of what we know of these diseases has been discovered in the past fifty years. The modern story should have begun in 1897 when an extract of kidney was shown to be pressor. But little was done with knowledge until about 1929 when the relationship of this kidney extract called ""renin"" to hypertension was pos· tulated. The pressor effects were, however, unlike most of those seen with sub· stances such as epinephrine or vasopressin. Plasma was required for action of renin and the active substance appeared to be protein. In 1939, it was shown that renin was not in itself a pressor substance but rather a proteolytic enzyme which produced a powerful pressor substance acting on a substrate synthesized by the liver. Later it was noted that the first definable step after the formation of this peptide was cleaving of the decapeptide which had little or no demonstrable activity, with loss of two amino acids to form the octapeptide called ""angiotensin"". Within a decade synthesis was achieved which made the substance available for world·wide study. Full Product DetailsAuthor: I.H. Page , F.M. BumpusPublisher: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG Imprint: Springer-Verlag Berlin and Heidelberg GmbH & Co. K Edition: Softcover reprint of the original 1st ed. 1974 Volume: 37 Dimensions: Width: 17.00cm , Height: 3.40cm , Length: 24.40cm Weight: 1.153kg ISBN: 9783642656026ISBN 10: 3642656021 Pages: 594 Publication Date: 11 November 2011 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand We will order this item for you from a manufactured on demand supplier. Table of ContentsThe Biological Production of Angiotensin.- The Fate of Angiotensin I.- Converting Enzyme in Yitro Measurement and Properties.- The Fate of Angiotensin II.- Catabolism of Angiotensin II.- Structure-Activity Relationship in Angiotensin II Analogs.- Antagonists of Angiotensin II.- Tachyphylaxis to Angiotensin.- Immunogenicity and Antigenicity ol Angiotensin I and II.- Measurement of Renin and of Angiotensin (Extraction and Bioassay).- Angiotensin Immunoassay.- Bioassay of Angiotensin.- Plasma of Serum Vasopressor Peptides Other than Angiotensins.- Primary Aldosteronism: Importance of the Level of Plasma Benin as an Adjunct in Diagnosis.- Secondary Hyperaldosteronism.- Intermediary Metabolism of Aldosterone.- The Renin-Angiotensin System in the Control of Aldosterone Secretion.- Aldosterone Regulation in Sodium Deficiency: Role of Ionic Factors and Angiotensin II.- Effects of Aldosterone on Blood Pressure, Water, and Electrolytes.- Adrenal Medulla.- Central Neurogenic Effects of Angiotensin.- Peripheral Effects of Angiotensin on the Autonomic Nervous System.- Angiotensin on Vascular Smooth Muscle.- Circulatory Effects of Angiotensin.- Effects of Angiotensin on the Renal Circulation.- Intrarenal Action of Angiotensin.- Morphological Effects of Angiotensin on Arteries.- Effects of Angiotensin II on the Permeability of the Vascular Wall.- Biochemical Effects of Angiotensin.- Some Possible Functions of Angiotensin.- Author Index.ReviewsAuthor InformationTab Content 6Author Website:Countries AvailableAll regions |