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The Urinary System

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The Urinary System Chapter 26 – PowerPoint PPT presentation

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Title: The Urinary System


1
The Urinary System
  • Chapter 26

2
Functions figure 26.1
  • ___________-
  • Excrete waste in urine
  • Regulate blood volume composition (ions, pH)
  • Help regulate blood pressure
  • Synthesize glucose
  • Release erythropoietin
  • Participate in vitamin D synthesis
  • ___________ transport urine from kidneys to
    urinary bladder
  • Urinary bladder stores urine, capacity
    700-800mL
  • ____________ discharges urine from the body

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Kidney
  • Regulates ___________________ composition
  • Na, K, Ca2 , Cl-, and HPO4 2-
  • Regulate _______________
  • Excrete H
  • Conserve HCO3
  • Reg. __________________ conserve or elim water
  • ? blood volume? ? bp, ? blood vol ? ? bp
  • Regulating ___________
  • Secrete renin ? ? bp, or adjust blood volume
  • Maintaining blood osmolarity- reg water solute
    loss
  • Hormones calcitrol (active Vit D),
    ________________________
  • Regulate blood glucose- use glutamine in
    gluconeogenesis
  • Excreting waste and foreign substances

7
Kidney anatomy figure 26.3
  • Retroperitoneal
  • 3 layers surrounding
  • Renal capsule deepest
  • Adipose capsule
  • Renal fascia superficial, anchors to ab wall
  • _______________- fissure where following emerge
  • Renal aretery
  • Renal vein
  • Ureter
  • Internally, 2 distinct regions
  • Renal _________ superficial
  • Renal _________ deep, arranged in renal pyramids

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Nephron figure 26.5 a b
  • Functional unit of the kidney, 2 parts
  • _________________ where blood plasma is
    filtered
  • Glomerulus capillary network
  • Glomerular (Bowmans) capsule epithelial cup
  • _________________ into which the filtrate is
    passed
  • Proximal convoluted tubule (PCT)
  • Loop of Henle (LOH)
  • Distal convoluted tubule (DCT)
  • Types
  • __________ nephron- short LOH, blood from
    peritubular cap
  • __________________ nephron- close to medulla,
    long LOH
  • Long loops enable excretion of very dilute or
    very

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Renal corpuscle fig 26.6
  • __________________- capillary network
  • Glomerular (Bowmans) capsule- double walled
    epithelial cup that surrounds the capillaries
  • Blood plasma is filtered collected in capsule
  • Filtered fluid then passes thru renal tubule
  • _____________- visceral, modified simple squamous
    cells, wrap around glomerular capillaries form
    inner wall of capsule
  • Outer wall (parietal) is simple squamous

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Renal physiology, 3 processes
  • _______________________
  • Water most solutes capillary ? renal capsule
  • _______________________
  • Filtered fluid move thru tubule
  • Cells reabsorb 99 of water useful solutes
  • Returns to blood via
  • Peritubular capillaries
  • Vasa recta
  • ________________________
  • Removes substances from blood
  • Urine contains these excreted substances
    wastes, drugs, excess ions

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Glomerular filtration fig 26.8
  • Filtration fraction- amt of plasma in
    ______________ that becomes glomerular filtrate
    16-20 of plasma
  • Daily volume of glomerular filtrate
  • 150L female,180L male
  • gt99 returned to blood, ? 1-2 L urine/day
  • Substances pass _________________
  • Glomerular endothelial cells fenestrated
  • Between capillaries mesangial cells regulate GF
  • Basal lamina
  • Podocytes w/ pedicel create filtration slits
  • ____________ ______________________
  • Most plasma proteins, blood cells platelets DO
    NOT

21
The filtration membrane, fig 26.8
22
Net filtration pressure, figure 26.9
  • Glomerular filtration dependent on these 3
  • Glomerular blood hydrostatic pressure
  • Blood pressure in glomerular capillaries
  • Promotes filtration
  • Capsular hydrostatic pressure
  • Hydrostatic P exert by fluid in capsular space
  • Opposes filtration
  • Blood colloid osmotic pressure
  • Presence of proteins in blood plasma
  • Opposes filtration

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Glomerular filtration rate (GFR)
  • Filtrate formed in renal corpuscles of both
    kidneys each minute
  • 125 mL/min male, 105 mL/min female
  • Homeostasis req it to be constant
  • If too ?, substance not reabsorbed, lost in urine
  • If too ?, not enough waste excreted
  • Directly related to P determining NFP
  • Regulation
  • Adjusting _______________ to glomerulus
  • Alter glomerular capillary __________- filtration

25
Regulation of GFR, table 26.2
  • 1. _____________________
  • Myogenic mechanism- smooth muscle contraction
    wall of afferent arteriole
  • ? bp, stretch wall, ? smooth mus contracts,
    narrow lumen? renal blood flow ? ? ? GFR
  • Tubuloglomerular feedback- macula densa provide
    feedback to glomerulus
  • If GFR ? due to ? bp, filtered fluid flows
    faster, less time for reabsorption ? nitric oxide
    not released ________________ constricted

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Regulation of GFR (2)
  • 2. _____ regulation- kidney bv supplied by
    SympNS
  • Release NE ? vasoconstrict (exercise,
    hemhorrrage)
  • Blood flow ?, GFR ?
  • ? urine output, conserve blood volume
  • ? blood flow to other body tissues
  • At rest, bv dilated autoregulation occurring
  • 3. ___________ regulation-
  • Angiotensin II- ? GFR by vasoconstriction
  • Atrial natriuretic peptide (ANP) secreted when ?
    blood vol ? relax mesangial cells ? SA ? ? GFR

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Tubular reabsorption
  • PCT
  • ______ _______ reabsorbed in large quantities
  • 65 of filtered water reabsorbed
  • Na/glucose (phosphate, sulfate, aa) symporters
  • Na/H antiporter
  • _________ (HCO3-) reabsorbed- fac diffusion
  • _________ of water
  • Concentrates remaining solutes in PCT
  • Passive reabsorption of other solutes
  • Cl-, K, Ca2, Mg2, urea
  • Urea and ammonia ____________ by PCT

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PCT
31
PCT
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PCT, 2nd half
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Tubular reabsorption (2)
  • Loop of Henle
  • Descending limb
  • ___________ is reabsorbed (15 of filtered water)
  • Ascending limb
  • Na, K, 2Cl- symporters
  • most K leaks back into tubule thru channels
  • Ca2, HCO3-,
  • ____________- ascending LOH virtually impermeable
    to water
  • not automatically coupled to reabsorption of
    other solutes like in PCT
  • Filtrate osmolarity ? as ascend (ions, not water
    reabsorb)

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Ascending LOH
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Tubular reabsorption (3)
  • DCT
  • Na Cl- symporter ? reabsorption
  • PTH causes reabsorption of Ca2
  • Water 10-15, (at this point 80 already ab)
  • by time fluid reaches end of DCT 90-95 of
    filtered solutes water have been returned to
    bloodstream
  • Collecting duct
  • ______ reabsorb thru leak channel?
    Na/Kpump?blood
  • ______ reabsorbed by intercalated cells, secreted
    in variable amounts thru leak channels of
    principal cells

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DCT collecting duct
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Tubular secretion
  • Secretion of H helps control ___________
  • Secretion of others for ____________ from body
  • PCT
  • H and NH4 ions, urea
  • DCT
  • H ions, (K by principal cells at end of DCT)
  • Collecting duct
  • K/ H /NH4 ions (depending on salt, pH balance)

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Hormonal effects table 26.4
  • Angiotensin II-(released when? blood volume, ?
    bp)
  • ? GFR
  • Stim antiporter reabsorb Na, Cl-, H2O in PCT
  • Stim release aldosterone
  • Aldosterone (? plasma K)
  • K secretion, Na, Cl-, H20 reabsorbed
  • ADH- (? osm of ECF or ? blood volume)
  • water reabsorption ? in DCT
  • ANP- (stim by atria stretch, ? blood volume)
  • ? secretion of Na (natriuresis)
  • Suppress reabsorption at PCT
  • ? urine output (diuresis)
  • ANP suppresses ADH aldosterone secretion

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Figure 26.17
40
Dilute concentrated, fig 26.18
  • Body __________ depends largely on kidney
  • Large volume, dilute urine when fluid intake ?
  • Asc LOH DCT rel impermeable to water
  • End of DCT collecting duct impermeable to water
    when ADH ________
  • Small volume, concentrated fluid intake ?
  • ADH enabled by osmotic gradient
  • Differences in solute water permeability along
    LOH collecting duct
  • Countercurrent flow in Des Asc LOH

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Dilute urineformation
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Countercurrent mechanism
  • Hairpin shape of LOH- countercurrent flow
  • Descending limb one direction
  • Very permeable to water
  • I.F. osmolarity gt than inside tube ? water? out
  • As fluid moves down- gradient, osmolarity ?
  • Impermeable to solutes except urea
  • Ascending limb opposite direction
  • Impermeable to water
  • Symporters reabsorb Na, Cl-
  • Fluid osmolarity ? as ascending

43
Countercurrent mechanism (2)
  • ____________ loops working similar to LOH
  • Descending- renal medulla I.F. more
  • More Na, Cl-, urea diffuse into blood
  • Blood osmolarity ?
  • Ascending- I.F. increasingly less
  • Ions diffuse out of Asc vasa recta
  • Reabsorbed water diffuses from I.F. ? vasa recta
  • Osmolarity of blood leaving vasa recta only
    slightly higher than what entered
  • O2 nutrients dropped off w/out ? gradient

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Constituents of urine (lab, p60)
  • ORGANIC
  • Urea
  • Creatinine
  • Uric acid
  • INORGANIC
  • Chloride
  • Sodium
  • Potassium
  • Sulfates
  • Phosphates
  • Ammonia
  • Calcium
  • Magnesium

47
Diuretics
  • ______________ elevated urine flow rate
  • Substances slow renal reabsorption of water
  • Often prescribed for _________________
  • Lower blood volume ? lower bp
  • Most interfere w/mechanism for Na reabsorption
  • Naturally occurring
  • Caffeine- inhibits Na reabsorption
  • Alcohol- inhibits ADH secretion

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Dialysis- to separate
  • _________ of large solutes from smaller ones by
    diffusion thru selectively permeable mem
  • Kidneys so impaired that unable to function
  • __________dialysis- filter patients blood by
    removing wastes, excess electrolytes fluids and
    return blood to patient
  • Hemodialyzer, dialysis membrane
  • Dialysate- solution formed to maintain diffusion
    gradients add needed substances
  • Peritoneal dialysis- catheter dialysate

49
Flow from nephron to urethra
  • (Nephron Bowmans capsule?PCT?LOH?DCT?)
  • Collecting duct ?
  • Papillary duct ?
  • Minor calyx ?
  • Major calyx ?
  • Renal pelvis ?
  • Ureter ?
  • Urinary bladder ?
  • Urethra

50
Micturition
  • Urination or voiding
  • Discharge of urine from urinary bladder
  • Voluntary (SNS) involuntary (ANS) muscle
    contractions
  • When 200-400mL ? stretch receptors trigger
    ________________- S2-S3 ? spinal reflex
  • Contraction of detrusor
  • Relaxation- internal urethral sphincter muscle
  • Filling causes sensation before reflex occurs
  • _______________- lack of voluntary control

51
Clinical connections
  • Diabetes insipidus- nephrogenic- kidneys do not
    respond to __________
  • ADH receptors may be damaged
  • Or kidneys may be damaged
  • UTIs- infection of urinary system or presence of
    large of microbes in the urine
  • Urethritis- inflammed urethra
  • Cystitis- inflammed urinary bladder
  • Pyelonephritis- inflammed kidneys, if chronic-
    scar tissue forms

52
Medical terminology
  • Polyuria- excessive urine formation- maybe due to
    D.M. and ___________________-
  • Inflammation of kidney involving glomeruli often
    from allergic rxns to toxin produced by
    streptococcus
  • Anuria- absence of urine formation
  • Oliguria- abnormally slight or infrequent
    urination
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