1. The Urinary System Part 1
Honors Anatomy & Physiology

2. Kidney Functions
Regulating total water volume and total solute concentration in water
Regulating ECF ion concentrations
Ensuring long-term acid-base balance
Removal of metabolic wastes, toxins, drugs
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3. Kidney Functions Endocrine functions Activation of vitamin D
Renin - regulation of blood pressure
Erythropoietin - regulation of RBC production
Activation of vitamin D
Gluconeogenesis during prolonged fasting
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4. Urinary System Organs Kidneys - major excretory organs
Ureters - transport urine from kidneys to urinary bladder
Urinary bladder - temporary storage reservoir for urine
Urethra transports urine out of body
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5. Figure 25.1 The urinary system.
Hepatic veins (cut)
Esophagus (cut)
Inferior vena cava
Renal artery
Adrenal gland
Renal hilum
Aorta
Renal vein
Kidney
Iliac crest
Ureter
Rectum (cut)
Uterus (part of female
reproductive system)
Urinary
bladder
Urethra
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6. Kidney Anatomy
Retroperitoneal, in the superior lumbar region; ~ T12 to L5
Right kidney crowded by liver  lower than left
Adrenal (suprarenal) gland atop each kidney
Convex lateral surface, concave medial surface; vertical renal hilum leads to renal sinus
Ureters, renal blood vessels, lymphatics, and nerves enter and exit at hilum
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7. Figure 25.2b Position of the kidneys against the posterior body wall.
12th rib
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8. Figure 25.2a Position of the kidneys against the posterior body wall.
Anterior
Inferior
vena cava
Aorta
Peritoneum
Peritoneal cavity
(organs removed)
Supportive
tissue layers
Renal
vein
• Renal fascia
anterior
posterior
Renal
artery
• Perirenal
fat capsule
• Fibrous
capsule
Body of
vertebra L2
Body wall
Posterior
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9. Kidney Anatomy Layers of surrounding supportive tissue
Renal fascia
Anchoring outer layer of dense fibrous connective tissue
Perirenal fat capsule
Fatty cushion
Fibrous capsule
Prevents spread of infection to kidney
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12. Nephroptosis “floating kidney” inferior displacement of a kidney
develops mostly in very thin people
adipose capsule or renal fascia deficient
females 10x > males
dangerous: ureter may get blocked or kinked

14. Internal Anatomy Renal cortex Granular-appearing superficial region
Renal medulla
Composed of cone-shaped medullary (renal) pyramids
Pyramids separated by renal columns
Inward extensions of cortical tissue
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15. Internal Anatomy Papilla
Tip of pyramid; releases urine into minor calyx
Lobe
Medullary pyramid and its surrounding cortical tissue;
~ 8/kidney
Renal pelvis
Funnel-shaped tube continuous with ureter
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16. More renal vocabulary Parenchyma: renal cortex + pyramids
Papillary Ducts: collecting ducts for urine formed in nephrons
Minor Calyces: cuplike structure papillary ducts drain into
Major Calyces: receive drainage from minor calyces

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18. Figure 25.3 Internal anatomy of the kidney.
Renal
hilum
Renal cortex
Renal medulla
Major calyx
Papilla of
pyramid
Renal pelvis
Minor calyx
Ureter
Renal pyramid in
renal medulla
Renal column
Fibrous capsule
Photograph of right kidney, frontal section
Diagrammatic view
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19. Homeostatic Imbalance
Pyelitis
Infection of renal pelvis and calyces
Pyelonephritis
Infection/inflammation of entire kidney
Normally - successfully treated with antibiotics
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20. Blood and Nerve Supply
Kidneys cleanse blood; adjust its composition  rich blood supply
Renal arteries deliver ~ ¼ (1200 ml) of cardiac output to kidneys each minute
Arterial flow into and venous flow out of kidneys follow similar paths
Nerve supply via sympathetic fibers from renal plexus
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21. Blood supply of the kidneys
kidneys receive 20 – 25% of resting cardiac output
right & left renal arteries (branches of abdominal aorta/drain into IVC)

22. Figure 25.4a Blood vessels of the kidney.
Cortical radiate
vein
Cortical radiate
artery
Arcuate vein
Arcuate artery
Interlobar vein
Interlobar artery
Segmental arteries
Renal vein
Renal artery
Renal pelvis
Ureter
Renal medulla
Renal cortex
Frontal section illustrating major blood vessels
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24. Figure 25.4b Blood vessels of the kidney.
Aorta
Inferior vena cava
Renal artery
Renal vein
Segmental artery
Interlobar vein
Interlobar artery
Arcuate vein
Arcuate artery
Cortical radiate vein
Peritubular
capillaries
or vasa recta
Cortical radiate artery
Afferent arteriole
Efferent arteriole
Glomerulus (capillaries)
Nephron-associated blood vessels
(see Figure 25.7)
(b) Path of blood flow through renal blood vessels
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25. Kidney transplant
donor kidney is placed in pelvis of recipient thru abd wall incision
renal artery & vein attached
Ureter of transplanted kidney attached to urinary bladder
normally. nonfunctioning kidney left in place

26. Nephrons Structural and functional units that form urine
> 1 million per kidney
Two main parts
Renal corpuscle
Renal tubule
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27. Nephrons 80 85% are cortical nephrons 15 – 20% are medullary nephrons
short LoH: blood supply from efferent arterioles
15 – 20% are medullary nephrons
long LoH: blood supply from vasa recta (from efferent arterioles)
thin ascending followed by thick ascending limb

31. Renal Corpuscle Two parts of renal corpuscle Glomerulus
Tuft of capillaries; fenestrated endothelium  highly porous  allows filtrate formation
Glomerular capsule (Bowman's capsule)
Cup-shaped, hollow structure surrounding glomerulus
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32. Renal Corpuscle Glomerular capsule
Parietal layer - simple squamous epithelium
Visceral layer - branching epithelial podocytes
Extensions terminate in foot processes that cling to basement membrane
Filtration slits between foot processes allow filtrate to pass into capsular space
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34. Bowman’s Capsule parietal layer forms wall of capsule
fluid filtered from glomerular capillaries enter capsular space

35. Histology of a Nephron

36. Bowman’s Capsule 2 layers: visceral & parietal
visceral: modified simple squamous cells called podocytes
have foot-like projections called pedicels that wrap around endothelial cells of glomerular capillaries

37. Figure 25.5 Location and structure of nephrons.
Renal cortex
Renal medulla
Renal pelvis
Glomerular capsule: parietal layer
Basement
membrane
Ureter
Podocyte
Kidney
Fenestrated endothelium
of the glomerulus
Renal corpuscle
• Glomerular capsule
Glomerular capsule: visceral layer
• Glomerulus
Distal
convoluted
tubule
Apical
microvilli
Mitochondria
Highly infolded basolateral
membrane
Proximal
convoluted
tubule
Proximal convoluted tubule cells
Cortex
Apical side
Medulla
Basolateral side
Thick
segment
Thin segment
Distal convoluted tubule cells
Nephron loop
• Descending limb
• Ascending limb
Nephron loop (thin-segment) cells
Collecting
duct
Principal
cell
Intercalated cell
Collecting duct cells
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38. Figure 25.5 Location and structure of nephrons. (2 of 7)
Glomerular capsule: parietal layer
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39. Figure 25.5 Location and structure of nephrons. (3 of 7)
Basement
membrane
Podocyte
Fenestrated endothelium
of the glomerulus
Glomerular capsule: visceral layer
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40. Renal Tubule 3 parts Proximal convoluted tubule
Proximal  closest to renal corpuscle
Nephron loop
Distal convoluted tubule
Distal  farthest from renal corpuscle
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42. Renal Tubule Proximal convoluted tubule (PCT)
Cuboidal cells with dense microvilli (brush border  surface area);
Functions in
reabsorption and secretion
confined to cortex
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43. Figure 25.5 Location and structure of nephrons. (4 of 7)
Apical microvilli
Mitochondria
Highly infolded
basolateral membrane
Proximal convoluted tubule cells
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44. Renal tubule & collecting duct
PCT: cells have microvilli: increase surface area for reabsorption & secretion

46. Renal Tubule Nephron loop Descending and ascending limbs
Proximal descending limb continuous with proximal tubule
Distal descending limb = descending thin limb; simple squamous epithelium
Thick ascending limb
Cuboidal to columnar cells; thin in some nephrons
Function: urine concentration by managing amount of water reabsorbed
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48. Figure 25.5 Location and structure of nephrons. (6 of 7)
Nephron loop (thin-segment) cells
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49. Collecting Ducts Two cell types Principal cells
Sparse, short microvilli
Maintain water and Na+ balance
Intercalated cells
Cuboidal cells; abundant microvilli; two types
A and B; both help maintain acid-base balance of blood
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50. Figure 25.5 Location and structure of nephrons. (7 of 7)
Principal cell
Intercalated cell
Collecting duct cells
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51. Collecting Ducts Receive filtrate from many nephrons
Run through medullary pyramids  striped appearance
Fuse together to deliver urine through papillae into minor calyces
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52. Figure 25.5 Location and structure of nephrons.
Renal cortex
Renal medulla
Renal pelvis
Glomerular capsule: parietal layer
Basement
membrane
Ureter
Podocyte
Kidney
Fenestrated endothelium
of the glomerulus
Renal corpuscle
• Glomerular capsule
Glomerular capsule: visceral layer
• Glomerulus
Distal
convoluted
tubule
Apical
microvilli
Mitochondria
Highly infolded basolateral
membrane
Proximal
convoluted
tubule
Proximal convoluted tubule cells
Cortex
Apical side
Medulla
Basolateral side
Thick
segment
Thin segment
Distal convoluted tubule cells
Nephron loop
• Descending limb
• Ascending limb
Nephron loop (thin-segment) cells
Collecting
duct
Principal
cell
Intercalated cell
Collecting duct cells
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53. Classes of Nephrons
Cortical nephrons—85% of nephrons; almost entirely in cortex
Juxtamedullary nephrons
Long nephron loops deeply invade medulla
Ascending limbs have thick and thin segments
Important in production of concentrated urine
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54. Figure 25.7a Blood vessels of cortical and juxtamedullary nephrons.
Cortical nephron
Juxtamedullary nephron
• Short nephron loop
• Glomerulus further from the cortex-medulla junction
• Efferent arteriole supplies peritubular capillaries
• Long nephron loop
• Glomerulus closer to the cortex-medulla junction
• Efferent arteriole supplies vasa recta
Renal
corpuscle
Glomerulus
(capillaries)
Efferent
arteriole
Cortical radiate vein
Cortical radiate artery
Glomerular
capsule
Afferent arteriole
Collecting duct
Proximal
convoluted
tubule
Distal convoluted tubule
Afferent
arteriole
Efferent
arteriole
Peritubular
capillaries
Ascending
limb of
nephron loop
Cortex-medulla
junction
Arcuate vein
Kidney
Arcuate artery
Vasa recta
Nephron loop
Descending
limb of
nephron loop
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55. Nephron Capillary Beds
Renal tubules associated with two capillary beds
Glomerulus
Peritubular capillaries
Juxtamedullary nephrons also associated with
Vasa recta
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57. Nephron Capillary Beds
Glomerulus - specialized for filtration
Different from other capillary beds – fed and drained by arteriole
Afferent arteriole  glomerulus  efferent arteriole
Blood pressure in glomerulus high because
Afferent arterioles larger in diameter than efferent arterioles
Arterioles are high-resistance vessels
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58. Juxtaglomerular Complex (JGC)
One per nephron
Involves modified portions of
Distal portion of ascending limb of nephron loop
Afferent (sometimes efferent) arteriole
Important in regulation of rate of filtrate formation and blood pressure
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61. Juxtaglomerular Apparatus (JGA)
Three cell populations
Macula densa
granular cells
extraglomerular mesangial cells
Tall, closely packed cells of ascending limb
Chemoreceptors; sense NaCl content of filtrate
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62. Juxtaglomerular Apparatus (JGA)
source of Renin: regulation of blood pressure

63. Juxtaglomerular Apparatus (JGA)
Granular cells (juxtaglomerular, or JG cells)
Enlarged, smooth muscle cells of arteriole
Secretory granules contain enzyme renin
Mechanoreceptors; sense blood pressure in afferent arteriole
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64. Juxtaglomerular Apparatus (JGA)
Extraglomerular mesangial cells
Between arteriole and tubule cells
Interconnected with gap junctions
May pass signals between macula densa and granular cells
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66. End of Urinary System Part 1

69. QUIZ Next Class!