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Chapter 26

Chapter 26. Urinary System. Urinary System Functions. Filtering of blood Regulation of blood volume concentration of blood solutes pH of extracellular fluid blood cell synthesis Synthesis of Vitamin D. Urinary System Anatomy:. Location

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Chapter 26

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  1. Chapter 26 Urinary System

  2. Urinary System Functions • Filtering of blood • Regulation of • blood volume • concentration of blood solutes • pH of extracellular fluid • blood cell synthesis • Synthesis of Vitamin D

  3. Urinary System Anatomy:

  4. Location Lie behind peritoneum on posterior abdominal wall on either side of vertebral column Lumbar vertebrae and rib cage partially protect Right kidney slightly lower than left External Anatomy Renal capsule Surrounds each kidney Perirenal fat Engulfs renal capsule and acts as cushioning Renal fascia Anchors kidneys to abdominal wall Hilum Renal artery and nerves enter and renal vein and ureter exit kidneys Location and External Anatomyof Kidneys

  5. Internal Anatomy of Kidneys: • Cortex: Outer area • Renal columns • Medulla: Inner area • Renal pyramids • Calyces • Major: Converge to form pelvis • Minor: Papillae extend • Nephron:Functional unit of kidney • Juxtamedullary • Cortical

  6. The Nephron:

  7. Histology of the Nephron

  8. Renal corpuscle Bowman’s capsule Parietal layer Visceral layer Glomerulus Network of capillaries Arterioles Afferent Blood to glomerulus Efferent Drains Tubules Proximal (convoluted) tubule Loops of Henle Descending limb Ascending limb Distal (convoluted) tubules Collecting ducts Internal Anatomy of Kidneys

  9. Renal Corpuscle

  10. Kidney Blood Flow:

  11. Ureters Tubes through which urine flows from kidneys to urinary bladder Urinary bladder Stores urine Urethra Transports urine from bladder to outside of body Difference in length between males and females Sphincters Internal urinary External urinary Ureters and Urinary Bladder

  12. Ureters and Urinary Bladder

  13. Urine Formation

  14. Filtration Renal filtrate Plasma minus blood cells and blood proteins Most (99%) reabsorbed Filtration membrane Fenestrated endothelium, basement membrane and pores formed by podocytes Filtration pressure Responsible for filtrate formation Glomerular capillary pressure (GCP) minus capsule pressure (CP) minus colloid osmotic pressure (COP) Changes caused by glomerular capillary pressure Filtration

  15. Filtration Pressure

  16. Reabsorption Passive transport Active transport Cotransport Specialization of tubule segments Substances transported Active transport moves Na+ across nephron wall Other ions and molecules moved by cotransport Passive transport moves water, urea, lipid-soluble, nonpolar compounds Tubular Reabsorption

  17. Reabsorption in Proximal Nephron:

  18. Reabsorption in Loop of Henle

  19. Reabsorption in Loop of Henle

  20. Tubular Secretion • Substances enter proximal or distal tubules and collecting ducts • H+, K+ and some substances not produced in body are secreted by countertransport mechanisms

  21. Secretion of Hydrogen and Potassium

  22. In Proximal tubules Na+ and other substances removed Water follows passively Filtrate volume reduced In descending limb of loop of Henle Water exits passively, solute enters Filtrate volume reduced 15% In ascending limb of loop of Henle Na+, Cl-, K+ transported out of filtrate Water remains In distal tubules and collecting ducts Water movement out regulated by ADH If absent, water not reabsorbed and dilute urine produced If ADH present, water moves out, concentrated urine produced Urine Production

  23. Filtrate and Medullary Concentration Gradient

  24. Medullary Concentration and Urea Cycling

  25. When large volume of water consumed Eliminate excess without losing large amounts of electrolytes Response is kidneys produce large volume of dilute urine When drinking water not available Kidneys produce small volume of concentrated urine Removes waste and prevents rapid dehydration Urine Concentration Mechanism

  26. Urine Concentrating Mechanism I:

  27. Urine Concentrating Mechanism II:

  28. ADH Secreted by posterior pituitary Increases water permeability in distal tubules and collecting ducts Aldosterone Produced in adrenal cortex Affects Na+ and Cl- transport in nephron and collecting ducts Renin Produced by kidneys, causes production of angiotensin II Atrial natriuretic hormone Produced by heart when blood pressure increases Inhibits ADH production Reduces ability of kidney to concentrate urine Hormonal Mechanisms

  29. Effect of ADH on Nephron

  30. Aldosterone Effect on Distal Tubule

  31. Autoregulation Involves changes in degree of constriction in afferent arterioles As systemic BP increased, afferent arterioles constrict and prevent increase in renal blood flow Sympathetic stimulation Constricts small arteries and afferent arterioles Decreases renal blood flow Autoregulation and Sympathetic Stimulation

  32. Plasma clearance Volume of plasma cleared of a specific substance each minute Used to estimate GFR Used to calculate renal plasma flow Used to determine which drugs or other substances excreted by kidney Tubular load Total amount of substance that passes through filtration membrane into nephrons each minute Normally glucose is almost completed reabsorbed Clearance and Tubular Load

  33. Tubular Maximum • Tubular maximum • Maximum rate at which a substance can be actively absorbed • Each substance has its own tubular maximum

  34. Urine flow Hydrostatic pressure forces urine through nephron Peristalsis moves urine through ureters Micturition reflex Stretch of urinary bladder stimulates reflex causing bladder to contract, inhibiting urinary sphincters Higher brain centers can stimulate or inhibit reflex Urine Flow and Micturition Reflex

  35. Micturition Reflex

  36. Effects of Aging on Kidneys • Gradual decrease in size of kidney • Decrease in kidney size leads to decrease in renal blood flow • Decrease in number of functional nephrons • Decrease in renin secretion and vitamin D synthesis • Decline in ability of nephron to secrete and absorb

  37. Kidney Dialysis

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