Textbook of Nephro Endocrinology 1st edition by Singh, Williams – Ebook PDF Instant Download/Delivery: 0123738709, 9780123738707
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ISBN 10: 0123738709
ISBN 13: 9780123738707
Author: Singh, Williams
The Textbook of Nephro-Endocrinology is the definitive translational reference in the field of nephro-endocrinology, investigating both the endocrine functions of the kidneys and how the kidney acts as a target for hormones from other organ systems. It offers researchers and clinicians expert, gold-standard analyses of nephro-endocrine research and translation into the treatment of diseases such as anemia, chronic kidney disease (CKD), rickets, osteoporosis, and, hypoparathyroidism.
* Investigates both the endocrine functions of the kidneys and how the kidney acts as a target for hormones from other organ systems.
* Presents a uniquely comprehensive and cross-disciplinary look at all aspects of nephro-endocrine disorders in one reference work.
* Clear translational presentations by the top endocrinologists and nephrologists in each specific hormone or functional/systems field.
Textbook of Nephro Endocrinology 1st Table of contents:
PART I: THE KIDNEY AS AN ENDOCRINE ORGAN
Section I: Erythropoietin
Chapter 1 Erythropoietin: An Historical Overview of Physiology, Molecular Biology and Gene Regulatio
I. Introduction
II. Hormonal regulation of erythropoiesis
III. Identification of the site of erythropoietin production
IV. Assays of erythropoietin
V. Isolation and characterization of erythropoietin
VI. Erythropoietin effector mechanisms
VII. Regulation of erythropoiesis by hypoxia
VIII. Regulatory elements of erythropoietin (EPO) gene
IX. Erythropoietin – the paradigm for gene regulation by hypoxia
X. Hypoxia inducible-factor (HIF)
XI. The elusive nature of the oxygen sensor
XII. Degradation of HIF by the ubiquitin-proteosomal pathway
XIII. Disruption of the oxygen-sensing pathway in cancer
XIV. Disruption of the oxygen-sensing pathway in hereditary polycythemia
XV. Pharmacological manipulation of HIF
XVI. Summary
References
Chapter 2 Erythropoiesis: The Roles of Erythropoietin and Iron
I. Erythropoiesis: an overview
II. Role of erythropoietin in erythropoiesis
III. Role of iron in erythropoiesis
References
Chapter 3 Extra-Hematopoietic Action of Erythropoietin
I. Introduction
II. The EPO receptor (EPOR)
III. Regulation of EPOR expression
IV. Action of EPO
V. Mechanisms of EPO action
VI. Summary
References
Chapter 4 Development of Recombinant Erythropoietin and Erythropoietin Analogs
I. Introduction
II. History of recombinant human erythropoietin
III. Biosimilar EPOs
IV. Potential strategies for modifying erythropoietin to create new EPO analogs
V. Darbepoetin alfa
VI. Continuous erythropoietin receptor activator (C.E.R.A.)
VII. Small molecule ESAs
VIII. Other strategies for stimulating erythropoiesis
IX. Conclusions
References
Chapter 5 Erythropoietin Anemia and Kidney Disease
I. Introduction
II. Erythropoietin pathophysiology in CKD patients
III. Anemia of chronic kidney disease
IV. Anemia and erythropoietin treatment in children with CKD
V. Conclusions
References
Section II: Vitamin D, PTH and Novel Regulators of Phosphate
Chapter 6 Vitamin D and the Kidney: Introduction and Historical Perspective
I. Introduction
II. Vitamin D
III. Cinacalcet
References
Chapter 7 Vitamin D: Molecular Biology and Gene Regulation
I. Vitamin D
II. The 1,25-dihydroxyvitamin D/vitamin D receptor complex
III. Relevance of 1,25-dihydroxyvitamin D/VDR actions in health and in kidney disease
IV. Concluding remarks
References
Chapter 8 Molecular Biology of Parathyroid Hormone
I. Introduction
II. Biosynthesis and metabolism
III. PTH receptors
IV. Isoforms
V. Physiological actions of PTH
References
Chapter 9 Endocrine Regulation of Phosphate Homeostasis
I. Introduction
II. Phosphate homeostasis
III. Renal phosphate transport
IV. Role of phosphate in the regulation of renal vitamin D metabolism
V. Mouse models with renal defects of phosphate transport
VI. Disorders with an abnormal regulation of renalphosphate transport
References
Section III: Renin–Angiotensin
Chapter 10 The History of the Renin–Angiotensin System
I. Introduction
II. The 20th century
III. The 21st century
IV. The dream to be normotensive and drug free
V. Conclusion
References
Chapter 11 Molecular Biology of Renin and Regulation of its Gene
I. Introduction
II. Production and activation of renin
III. Renin gene structure and regulation
IV. Renin gene mutation and disease
V. Future perspectives
References
Chapter 12 Physiology and Regulation of the Renin–Angiotensin–Aldosterone System
I. Introduction
II. The classical circulating renin–angiotensin system (RAS)
III. Renin biosynthesis and secretion
IV. The renin receptor
V. Angiotensin-converting enzyme (ACE)
VI. The ACE-2/angiotensin (1–7)/mas receptor pathway
VII. AT1 receptors
VIII. AT2 receptors
IX. Angiotensin receptor heterodimerization
X. Tissue renin–angiotensin systems
XI. Intrarenal renin–angiotensin system
XII. Brain renin–angiotensin system
XIII. Vascular tissue renin–angiotensin system
XIV. Cardiac renin–angiotensin system
XV. Aldosterone and mineralocorticoid receptors
XVI. Clinical effects of the renin–angiotensin–aldosterone system (RAAS)
XVII. Summary
References
Chapter 13 The Renin–Angiotensin–Aldosterone System and the Kidney
I. Introduction
II. Historical background
III. Overview of the RAS pathway
IV. Physiologic effects of RAS
V. Renin inhibitors
VI. Conclusion
References
Chapter 14 The Renin–Angiotensin System and the Heart
I. Introduction
II. Cardiac RAS: local versus endocrine origin
III. RAS actions at the cellular level
IV. RAS and the coronary circulation
V. Significance of the RAS on cardiac function
VI. Conclusions
References
Chapter 15 Renin–Angiotensin Blockade: Therapeutic Agents
I. Introduction
II. Therapeutic classes
III. Pharmacology
IV. ACE inhibitors and angiotensin receptor blockers with other agents
V. Select side-effects of ACE inhibitors and angiotensin-receptor blockers
VI. Summary
References
PART II: THE KIDNEY AS A HORMONAL TARGET
Section IV: Antidiuretic Hormone
Chapter 16 Vasopressin in the Kidney: Historical Aspects
I. Introduction
II. Hypothalamus
III. Vasopressin receptors
IV. Vasopressin regulated urea transport
V. Aquaporins
VI. Nephrogenic diabetes insipidus
VII. Vaptans
References
Chapter 17 Molecular Biology and Gene Regulation of Vasopressin
I. Introduction
II. The antidiuretic hormone, vasopressin
III. Vasopressin receptors
IV. Cellular regulation of water, electrolyte and mineral reabsorption
V. Vasopressin, renal hemodynamics and blood pressure
References
Chapter 18 Vasopressin Antagonists in Physiology and Disease
I. Introduction
II. Physiologic antagonists
III. Vasopressin antagonists and their role in the treatment of water-retaining disorders
IV. Are vasopressin antagonists safe?
V. Summary and unanswered questions
References
Chapter 19 Diabetes Insipidus and SIADH
I. Introduction
II. Diabetes insipidus and SIADH
III. Hyponatremic encephalopathy
References
Section V: The Atrial Natriuretic Peptides
Chapter 20 ANP, BNP and CNP: Physiology and Pharmacology of the Cardiorenal Axis
I. Introduction
II. The natriuretic peptides production, processing and release
III. Natriuretic peptide particulate guanylyl cyclase receptors and physiological actions
IV. Natriuretic peptide receptor and enzymatic pathways for clearance and metabolism
V. Pathophysiologic implications in cardiorenal regulation
VI. Pharmacology and therapeutics of native peptides
VII. Novel delivery systems
VIII. Novel chimeric and synthetic natriuretic peptides
IX. Future directions
References
Section VI: Aldosterone
Chapter 21 Aldosterone: History and Introduction
I. Early history of aldosterone
II. Post-discovery progress to approximately 1970
III. Blockers of aldosterone action
References
Chapter 22 Aldosterone Receptors and Their Renal Effects: Molecular Biology and Gene Regulation
I. Introduction
II. Aldosterone-binding sites and the mineralocorticoid receptor (MR)
III. Molecular biology of the MR
IV. Distribution of the mineralocorticoid receptor in the nephron
V. Proteins induced by aldosterone in transport epithelia
VI. Non-genomic effects of aldosterone in the kidney
References
Chapter 23 Aldosterone and its Cardiovascular Effects
I. Introduction
II. Aldosterone and the heart
III. Aldosterone and stroke
IV. Aldosterone and renal disease
V. Potential mechanisms mediating the adverse cardiovascular effects of aldosterone (Figure 23.1)
VI. Therapeutic considerations
VII. Conclusions
References
Chapter 24 Regulation of Aldosterone Production
I. Introduction
II. Aldosterone biosynthesis
III. Factors regulating aldosterone production
IV. Diseases of aldosterone production
V. Summary
References
Section VII: Endocrine Disorders in Renal Failure
Chapter 25 Insulin Resistance and Diabetes in Chronic Renal Disease
I. Introduction
II. Historical perspective
III. Cellular mechanisms of insulin secretion and action
IV. Clinical physiology of insulin resistance
V. Measurement of insulin resistance
VI. Metabolic syndrome
VII. Pathogenesis of insulin resistance in chronic kidney disease
VIII. Regulation of renal glucose production
IX. Syndromes of severe insulin resistance
X. Treatment
XI. Management of diabetes in chronic kidney disease
XII. Hyperglycemia associated with renal transplantation
XIII. Conclusions
References
Chapter 26 Growth Hormone
I. Growth hormone and insulin-like growth factor-1 in renal failure
II. Pediatric implications: growth failure and the GH/IGF-I axis
III. Adult Implications: myriad effects of disturbed GH/IGF-I axis in CKD
IV. Effects of recombinant growth hormone treatment in renal failure
V. The horizon for improving growth and anabolism in renal failure
VI. Summary
References
Chapter 27 Sexual Dysfunction in Men and Women with Chronic Kidney Disease
I. Introduction
II. Sexual dysfunction in uremic men
III. Evaluation of sexual dysfunction in the uremic man
IV. Treatment of sexual dysfunction in the uremic man
V. Outcomes associated with hypogonadism and treatment
VI. Sexual dysfunction in uremic women
VII. Treatment
References
Chapter 28 Thyroid Status in Chronic Renal Failure Patients – a Non-Thyroidal Illness Syndrome
I. Introduction
II. Circulating thyroid hormone profile
III. Thyroid hormone kinetics
IV. Tissue T3 content and T4 uptake
V. The hypothalamo-pituitary thyroid axis
VI. Iodide retention, goiter, hypo- and hyperthyroidism
VII. Effects of dialysis and transplantation
VIII. Thyroid biology in chronic renal failure and other non-thyroidal illnesses
IX. Should thyroid hormone be replaced in CRF and other non-thyroidal illness patients?
X. Summary
References
Chapter 29 Metabolic Acidosis of Chronic Kidney Disease
I. Introduction
II. Regulation of acid–base balance with normal renal function and chronic kidney disease
III. Acid–base production
IV. Renal bicarbonate generation
V. Cellular buffering
VI. Renal tubular bicarbonate reabsorption
VII. Hormonal regulation of acid–base balance with normal renal function and with CKD
VIII. Clinical characteristics of the metabolic acidosis of chronic kidney disease
IX. Clinical characteristics of acid–base parameters in dialysis patients
X. Effects of metabolic acidosis of CKD on cellular function
XI. Treatment of the metabolic acidosis of CKD
References
Chapter 30 Pregnancy and the Kidney
I. Introduction
II. Normal pregnancy
III. Pre-eclampsia and HELLP syndrome
IV. Other hypertensive disorders of pregnancy
V. Renal failure in pregnancy
References
INDEX
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