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From Finch to Fish to Man: Role of Body Fluid Volume Regulation

From Finch to Fish to Man: Role of Body Fluid Volume Regulation. Robert W. Schrier, MD Professor of Medicine University of Colorado School of Medicine. Darwin’s Origin of the Species. “The constancy of the Milieu Int é rieur is the condition of free and independent existence”.

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From Finch to Fish to Man: Role of Body Fluid Volume Regulation

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  1. From Finch to Fish to Man:Role of Body Fluid Volume Regulation Robert W. Schrier, MD Professor of Medicine University of Colorado School of Medicine

  2. Darwin’s Origin of the Species

  3. “The constancy of the Milieu Intérieur is the condition of free and independent existence” Claude Bernard 19th Century French Physiologist

  4. “The kidney presents in the highest degree the phenomenon of ‘sensibility’; the power of reacting to various stimuli in a direction which is appropriate for the survival of the organism; a power of adaptation which gives one the idea that its component parts must be endowed with intelligence.” E.H. Starling The Fluids of the Body The Harter Lectures, 1909

  5. BODY FLUID DISTRIBUTION COMPARTMENT AMOUNT VOLUME IN 70 KG MAN Total Body Fluid 60% of Body Weight 42.0 liters Intracellular Fluid 40% of Body Weight 28.0 liters Extracellular Fluid (ECF) 20% of Body Weight 14.0 liters Interstitial Fluid Two-thirds of ECF 9.4 liters Plasma Fluid One-third of ECF 4.6 liters Venous Fluid 85% of Plasma Fluid 3.9 liters Arterial Fluid 15% of Plasma Fluid 0.7 liters

  6. Sodium and Water Retention with Plasma Volume Expansion in Edematous Disorders

  7. Body Fluid Volume Regulation Hypothesis

  8. Volume Regulatory Hypothesis

  9. NEW YORK HEART ASSOCIATIONCLASSES OF CARDIAC FAILURE:ASSOCIATED HEMODYNAMIC AND HORMONAL CHANGES Cardiac Index Plasma Hormones (AVP, Renin, Aldosterone, NE) Plasma Volume CLASS II CLASS III CLASS IV Normal

  10. PRETREATMENT SERUM SODIUM CONCENTRATION CORRELATES WITH PLASMA RENIN ACTIVITY IN PATIENTS WITH SEVERE HEART FAILURE r=0.68 p<0.001 logey=0l7x+24.32 n=96 SEE=0.94 Plasma Renin Activity (ng/ml/hr) Pretreatment Serum Na Concentration (mEq/L)

  11. Pretreatment Hyponatremia Predicts an Unfavorable Prognosis in Patients with Heart Failure

  12. Evidence for Non-Osmotic Release of Vasopressin in Hyponatremic Patients with Congestive Heart Failure

  13. Frank-Starling Curve in Normal Subjects and Patients with Heart Failure

  14. Cardiac Index in Cardiac Failure Patients Before and During After-Load Reduction

  15. Water Excretion in Cardiac Failure Patients Before and During After-Load Reduction

  16. Plasma Effective Osmolality and Minimum Urinary Osmolality in Cardiac Failure Patients Before and During After-Load Reduction

  17. Arginine Vasopressin in Cardiac Failure Patients Before and During After-Load Reduction

  18. AVP-mRNA in the Hypothalamus of Sham and Chronic Cardiac Failure (CCF) Rats

  19. V2 Receptor Blockade Prevents the Impaired Water Excretion in Rats with Heart Failure

  20. Selective V2 Receptor Antagonism Decreases Urinary Osmolality in Patients with Chronic Heart Failure

  21. Selective V2 Receptor Antagonism Increases Serum Sodium in Patients with Chronic Heart Failure

  22. The Intracellular Action of the Antidiuretic Hormone, Arginine-Vasopressin

  23. Effects of V2 Antagonist on AQP2 Protein in CHF Rats

  24. The Relationships between Plasma AVP Levels and Urinary Excretion of AQP2 in Normal Subjects

  25. Selective V2 Receptor Antagonism Decreases 24-Hour Urinary AQP2 Excretion in Human Heart Failure

  26. Edematous Disorders

  27. Role of Distal Sodium Delivery in States of Arterial Underfilling

  28. Reversal of Sodium Retention with Aldosterone Antagonism in Heart Failure Patients

  29. Infused ANP Causes Natriuresis in Normal Subjects but not in CHF Patients

  30. Plasma Atrial Natriuretic Peptide Correlates with Urinary cGMP in Heart Failure Patients

  31. Effect of Renal Denervation to Reverse Atrial Natriuretic Peptide Resistance in Experimental Congestive Heart Failure in Rats

  32. Peripheral Arterial Vasodilation

  33. Baseline Hemodynamic Data in Control Rats and Rats with High Output Cardiac Failure Secondary to Aorto-Caval Fistula

  34. Hormonal Results in Control rats and Rats with High Output Cardiac Failure Secondary to Aorto-Caval Fistula

  35. Body Fluid Volume Regulation Hypothesis

  36. The Pathophysiology of Heart Failure

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