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PHGY 210 Study Set Exam

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  • August 16, 2024
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PHGY 210 Study Set Exam
Kidney Functions - Answer 1. regulation of water, inorganic ion balance, acid-base
balance

2. removal of metabollic waste products from blood and excretion in urine

3. removal of foreign chemicals from blood and excretion in urine (ex. antibiotics)

4. production of hormones/enzymes

- erythropoietin: controls erythrocyte production

- renin: controls angiotensin formation and BP, Na balance

- 1,25-dihydroxyvitamin D: active vitamin that influences Ca balance

kidney weight - Answer 150 g each

kidney location - Answer behind peritoneum on either side of vertebral column against
posterior abdominal wall

kidney anatomy - Answer renal cortex, renal medulla, renal pelvis, renal artery, vein,
ureter

renal artery - Answer interlobar arteries (passes from pelvis to medulla; branches into
cortex)

arcuate arteries (perpendicular to interlobar)

nephron - Answer - gets blood from interlobar artery

- ~1 million per kidney

- consists of renal corpuscle (glomerulus (capillary loops + Bowmans capsule) and
tubule

nephron passage - Answer from corpuscle in cortex --> proximal tubule --> loop of Henle
(descending and ascending) --> distal tubule (touches on glomerulus) --> cortical
collecting duct --> medullary collecting duct

renal corpuscle - Answer - glomerulus punching into Bowman's capsule

Bowmans capsule - Answer parietal layer, space, visceral layer (podocytes)

podocytes - Answer cell processes and cell body in glomerular capillary wall

glomerular capillary wall - Answer filtration barrier

- entangled capillary loops surrounded by Bowman's capsule

,- filters blood to make urine

filtrate flow - Answer endothelial cells --> GBM (Glomerular Basement Membrane) -->
podocytes

renal corpuscle - Answer glomerulus (cortex)

Bowman's capsule (cortex)

proximal tubule - Answer proximal convoluted tubule (PCT) - cortex

proximal straight tubule (PST) - cortex/medulla

Henle's loop - Answer descending thin limb - medulla

ascending thin limb - medulla

thick ascending limb - medulla/cortex

distal convoluted tubule - Answer DCT - cortex

collecting duct - Answer cortical collecting duct (CCD) - cortex

medullary collecting duct (MCD) - medulla

nephron vascular supply - Answer efferent arteriole --> peritubular capillaries --> venous
system

urine formation - Answer 1. glomerular filtration

2. tubular secretion

3. tubular reabsorption

glomerular filtration - Answer filtration of plasma from glomerular capillaries into
Bowman's space

- filtrate is cell-free and except for proteins, has substances as plasma in same
concentrations

tubular secretion/absorption - Answer - as filtrate passes through tubules, composition
altered

- reabsorption: tubules --> peritubular capillaries

- secretion: peritubular capillaries --> tubules

Amount Excreted - Answer Amt excreted = amt filtered + amt secreted - amt reabsorbed

(secretion =/= excretion)

3 substance pathways - Answer - complete secretion (ex. PAH para-amino-hippurate to

,calculate blood flow into kidney)

- some/most reabsorption: Na, H2O, most small molecules, most common

- complete reabsorption (ex. glucose, amino acids, stuff essential to the body)

what is filtered - Answer water, small substances

(not proteins, or protein-bound substances)

- 1/2 Ca reabsorbed b/c bound to albumin

filtration forces - Answer - favoring: glomerular capillary BP (Pgc) ~ 60 mmHg

- opposing: fluid pressure in Bowman's space (Pbs) ~ 15mmHg and osmotic force due to
plasma proteins (PIgc) ~ 29 mmHg

net glomerular filtration pressure - Answer Pgc - Pbs - PIgc ~ 16 mmHg

glomerular filtration rate (GFR) - Answer volume fliud filtered from glomeruli to
Bowman's space per unit time

- regulated by net filtration P, membrane permeability, SA available for filtration

normal GFR - Answer for 70 kg person: 180 L/day (125 mL/minute)

- plasma V of such person is 3.5 L

- plasma filtered 51x/day



GFR regulation - Answer - decreased GFR: constrict afferent arteriole or dilate efferent
arteriole so that Pgc increases

- increased GFR: dilate afferent arteriole or constrict efferent arteriole so that Pgc
decreases



Filtered load - Answer total amount freely filtered substance

= GFR * plasma conc. of substance

- ex. filtered load of glucose = 180 L/day * 1 g/L = 180 g/day

- filtered load > amt excreted --> net reabsorption

- filtered load < amt excreted --> net secretion

- enormous, greater than amt substance in body

, reabsorption tubular lumen --> peritubular capillaries - Answer - basolateral membrane,
tight junction b/w tubular epithelial cells on tubular lumen, luminal membrane, interstitial
fluid



paracellular - Answer through tight junction



transcellular - Answer through tubular epithelial cell



urea reabsorption rate - Answer low (44%) compared to water, Na, glucose (~100%) b/c
is a waste product

- K net 86% reabsorption



2 mechanisms or reabsorption - Answer diffusion and mediated transport



diffusion - Answer across tight junction (paracellular) connecting tubular epithelial cells

- e.g. urea in proximal tubule: urea freely filtered in glomerulus, in proximal tubule water
reabsorption, urea concentration higher, urea diffuses into peritubular capillaries and
interstitial fluid



mediated transport - Answer - transcellular

- requires plasma membrane transport proteins

- usually coupled to Na reabsorption



solute transport mechs - Answer - passive: spontaneous, down electrochemical
gradient (no energy); diffusion, channels, uniport, coupled transport, solvent drag

- active: against an electrochemical gradient (needs energy)



Transport Maximum (Tm) - Answer - when transport proteins in membrane saturated,
tubule cannot reabsorb any more --> limit is Tm

- ex. in diabetes mellitus, plasma conc. of glucose can be very high and filtered load

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