Advances in Metabolic Disorders, Volume 7 covers the developments in the study of metabolic disorders. The book discusses the role of growth hormone on the stimulation of somatomedin in the tissues; the secretion of natriuretic hormones by extracellular volume expansion; and the methodological aspects on the estimation of genetic effects of environmental agents in man. The text also describes the metabolic aspects of desert adaptation by man and the synthesis and secretion of insulin in dynamic perfusion systems. The general morphological and functional aspects of islet cells as well as the mechanisms involved in the release of insulin from the beta cell are also considered. The book further tackles the mechanisms of insulin action; diabetes mellitus as a disease of pancreatic and extrapancreatic origin; and the pathogenesis of pancreatic islet cell hyperplasia and insulin insensitivity in obesity. The text concludes by looking into the clinical correlation of obesity and diabetes mellitus. The book will prove invaluable to endocrinologists, biochemists, physicians, and medical students.
Front Cover 1
Advances in Metabolic Disorders 4
Copyright Page 5
Table of Contents 6
Contributors 10
Contents of Previous Volumes 14
CHAPTER 1. GROWTH HORMONE AND SOMATOMEDIN 18
I. Introduction 18
II. Sulfation Factor—Somatomedin 20
III. Bioassay of Somatomedin 21
IV. Occurrence of Somatomedin in Serum 26
V. Purification of Somatomedin 30
VI. Mechanism of Production of Somatomedin 35
VII. Biological Action of Purified Somatomedin in Vitro 37
VIII. Relations between Somatomedins and Other Growth Factors 42
IX. Conclusions 46
References 48
CHAPTER 2. NATRIURETIC HORMONES 54
I. Introduction 55
II. An Outline of Current Concepts of the Regulation of Renal Sodium Excretion 56
III. Cross-Circulation and Related Studies 63
IV. In Vitro Assays 68
V. "Natriuretic" Assays 73
VI. Other Natriuretic Agents 76
VII. Site of Secretion and Chemical Nature 80
VIII. Speculations 82
References 84
CHAPTER 3. METHODOLOGICAL ASPECTS ON THE ESTIMATION OF GENETIC EFFECTS OF ENVIRONMENTAL AGENTS IN MAN 90
I. Introduction 90
II. Changes in Selection 91
III. Changes in Mutation Frequency 95
IV. Parameters That Possibly Might Reflect Changes in the Genetic Material 108
V. Summary 109
References 110
CHAPTER 4. METABOLIC ASPECTS OF DESERT ADAPTATION (MAN) 112
I. Introduction 112
II. Methodology of Energy Metabolism Studies 113
III. Adaptive Changes in Man's Basal Metabolism in Hot Environment 117
IV. Man's Body Temperature, Energy Expenditure, and Work Capacity in Desert Climate 122
V. Food Intake, Nutrients, and Water Metabolism in Desert Conditions 130
VI. Acid-Base Balance in Blood of Man in the Desert 35
VII. The Endocrine Background for Metabolic Changes under Desert Conditions 140
VIII. Some Insights into the Cellular Mechanisms of the Metabolic Changes during Exposure to Heat 145
References 148
Part I: Proceedings of a Symposium on Insulin City of Hope Medical Center Duarte, California, February 13, 1972 156
CHAPTER 5. PHILOSOPHY AND OUTLOOK 158
Text 158
CHAPTER 6. SYNTHESIS AND SECRETION OF INSULIN IN DYNAMIC PERFUSION SYSTEMS 172
I. Introduction 172
II. Materials and Methods 173
III. Results and Discussion 173
IV. Summary 183
References 184
Discussion 185
CHAPTER 7. STRUCTURE AND FUNCTION OF THE ENDOCRINE CELL TYPES OF THE ISLETS 188
I. Introduction 188
II. Morphology and Hormones of the Islets of Langerhans 189
III. Formation of Insulin in the Beta Cell 190
IV. Insulin Release from the Beta Cell 191
V. Microfilaments in Beta Cell Secretion 194
VI. Glucoreceptor of the Beta Cell 195
VII. Possible Defects in Insulin Release in the Diabetic Subject 196
VIII. Islet Transplantation 196
References 197
Discussion 197
CHAPTER 8. MECHANISMS OF INSULIN ACTION 200
I. Introduction 200
II. Factors under Consideration 201
III. Current Hypotheses Being Tested 203
References 204
Discussion 206
CHAPTER 9. DIABETES MELLITUS—A DISEASE OF PANCREATIC AND EXTRAPANCREATIC ORIGIN 210
I. Introduction 210
II. The Mechanisms of the Deranged Insulin Secretion 211
III. Metabolic Consequences of Low Insulin Response (in Nondiabetic Subjects) 219
IV. Factors Involved in the Transition from Prediabetes to Diabetes 222
V. Puture Aspects of the Prevention and Treatment of Diabetes 225
VI. Conclusions 226
References 227
Discussion 228
CHAPTER 10. THE PATHOGENESIS OF PANCREATIC ISLET CELL HYPERPLASIA AND INSULIN INSENSITIVITY IN OBESITY 230
I. Introduction 230
II. Factors Influencing Islet Function in Obesity 231
III. The Development of Insulin Insensitivity in Obesity 242
IV. Speculations and Conclusions 250
References 254
Discussion 257
CHAPTER 11. OBESITY AND DIABETES MELLITUS 260
I. Pathophysiological Features of Obesity 260
II. Clinical Correlation of Obesity and Diabetes Mellitus 263
III. Treatment of Obesity and Prevention of Diabetes by Elimination of Hyperinsulinism 264
IV. Summary 270
References 270
Discussion 271
Subject Index 274
Natriuretic Hormones
Norman G. Levinsky*, *Department of Medicine, Boston University School of Medicine, and Evans Memorial Department of Clinical Research, University Hospital, Boston, Massachusetts
Publisher Summary
This chapter provides an overview of natriuretic hormones. Extracellular expansion decreases renal vascular resistance because of changes in blood viscosity, release of vasodilators, or decrease in adrenergic tone to the kidney. The decrease in renal vascular resistance leads to increased peritubular hydrostatic pressure. The decrease in filtration fraction and hemodilution, if saline is infused, lowers peritubular protein concentration and oncotic pressure. These changes in peritubular physical factors inhibit proximal tubular sodium re-absorption. This inhibition, combined with an increase in filtered sodium, causes a marked increment in the delivery of sodium to the loop of Henle and beyond. If hyperoncotic albumin is the infusate or in certain sodium-retaining states, nearly the entire extra load is reabsorbed distally and any increase in urinary sodium excretion is minimal. Among the factors that might limit distal sodium re-absorption during saline loading are an increase in blood flow and a decrease in peritubular oncotic pressure in the medulla. Many of the nonhormonal factors can be measured only with difficulty or not at all. There is some direct evidence for disproportionate increases in filtration in superficial nephrons during acute and chronic volume expansion. However, there is opposing evidence about redistribution, both of plasma flow and of filtrate. Recent work indicates that changes in plasma sodium concentration alter tubular re-absorption of sodium directly. Hypernatremia causes natriuresis that is in part independent of increased filtered sodium load and extracellular volume expansion.
II An Outline of Current Concepts of the Regulation of Renal Sodium Excretion
III Cross-Circulation and Related Studies
I Introduction
During the past decade, there has been a great burst of effort in many laboratories to isolate and identify a natriuretic hormone. There had been speculation about such a hormone for many years previously (Smith, 1957), and sporadic attempts had been made to find it. With the appearance of the work by de Wardener and associates in 1961, attention was focused on factors other than filtered sodium and aldosterone as determinants of sodium excretion. This work was quickly confirmed by several groups (Levinsky and Lalone, 1963; Rector et al., 1964) and the rush to find the natriuretic hormone was on.
The key observations of de Wardener’s group were relatively simple. Dogs given supramaximal amounts of mineralocorticoids were infused with saline. In a number of dogs, sodium excretion increased despite spontaneous falls in the glomerular filtration rate. In two additional dogs, sodium excretion increased during saline expansion despite deliberate reduction of glomerular filtration by partial occlusion of the aorta above the renal arteries. These observations indicated that some factor other than increased filtered sodium or decreased aldosterone was involved in the natriuretic response to acute volume expansion. There had been numerous suggestions previously that variations in sodium excretion could occur independently of changes in filtered sodium. Careful review of this work (Wesson, 1957) had led to continued skepticism about the need for other explanations, since large increases in sodium excretion were mathematically equivalent to small, possibly undetectable, percentage increases in filtered sodium. However, the demonstration by de Wardener et al. (1961) and confirmation by others that sodium excretion could increase in dogs receiving mineralocorticoid hormones despite definite reduction of filtered sodium forced even the most skeptical to concede the existence of a “third factor” in the regulation of sodium excretion by the kidney.
While recent work has established beyond doubt that at least one factor other than aldosterone and filtered sodium load is involved, evidence for the thesis that a natriuretic hormone is secreted in response to volume expansion is by no means definitive. The purpose of this review is to evaluate this evidence. Since work in this area continues at a rapid pace, it is important to note that this is being written in May 1973.
II An Outline of Current Concepts of the Regulation of Renal Sodium Excretion
A Background
Although recent work has not produced unequivocal evidence for a natriuretic hormone, it has demonstrated a number of other factors that play important roles in regulating sodium excretion. The evidence for a natriuretic hormone cannot be evaluated without some knowledge of these other factors. Therefore, a brief outline of current concepts of the control of renal sodium excretion follows. This brief section is a “background sketch” of a very complex process and is not intended to review the evidence for nonhormonal factors in any detail. Moreover, the focus is entirely on the response to extracellular volume expansion, since it is in this context that a natriuretic hormone is being sought.
B Glomerular Filtration Rate
While recent work has established that increased glomerular filtration is not the sole cause of the natriuresis, the filtration rate does tend to rise during volume expansion (Wesson, 1957). Comparable increases in glomerular filtration have been achieved in the dog by a variety of techniques that did not cause volume expansion (Lindheimer et al., 1967). Sodium excretion increased by about 20-80 μeq/min, perhaps 5-15% of the response to acute saline expansion in the dog. These observations suggest that increased filtration per se accounts at most for only a small part of the natriuretic response to saline infusion. Moreover, even in these experiments the increase in filtration was not isolated, but rather occurred together with a proportionate increase in renal blood flow. There is considerable evidence that increased blood flow or some consequence thereof may itself promote increased sodium excretion (see below). Hence, even the small natriuretic response in these experiments does not provide conclusive evidence that an isolated increase in filtration, if it could somehow be produced, would cause increased sodium excretion. Nevertheless, the concept that an acute increase in filtered sodium load will lead to increased sodium excretion is reasonable a priori. Suggestions that a small natriuresis is to be attributed to some other cause when filtration rate also increases must continue to be regarded with skepticism. Moreover, “small natriuresis” is a relative term; an increment of even 50 μeq/min (72 meq per day) is well within the range of increased excretion in most experiments designed to demonstrate a natriuretic hormone.
C Redistribution of Filtrate
Even if the glomerular filtration rate of the kidney as a whole is unchanged during volume expansion, redistribution of filtrate to nephrons with...
Erscheint lt. Verlag | 22.10.2013 |
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Sprache | englisch |
Themenwelt | Sachbuch/Ratgeber ► Gesundheit / Leben / Psychologie ► Krankheiten / Heilverfahren |
Medizin / Pharmazie ► Medizinische Fachgebiete ► Allgemeinmedizin | |
Medizin / Pharmazie ► Medizinische Fachgebiete ► Innere Medizin | |
ISBN-10 | 1-4832-1549-0 / 1483215490 |
ISBN-13 | 978-1-4832-1549-5 / 9781483215495 |
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