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8873758
Hormones of the kidney, micturition
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AHS1. Renal physiology. Frankie 6/6 - last one hollllaa
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physiology
ahs1
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Florence Papworth
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Florence Papworth
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Resumo de Recurso
Hormones of the kidney, micturition
Learning objectives:
atrial naturietic hormone
overview of fluid/solute balance, role of kidney
diuretics
micturition
Atrial Natriuretic Peptide
synthesised and released from cardiac atrial cells
released in response to atrial stretch (increased ECV)
Atrial = heart. Natriuretic = put sodium into urine
ANP released in response to:
low Na+ resabsorption
inhibition of aldosterone production
reduction of renin release
vasodilation of afferent arteriole = increased GFR
Results in INCREASED SODIUM EXCRETION into urine, REDUCTION OF ECV
(water moves from blood into urine as Na+ is excreted into it- so reduced blood ECV as water leaves)
Overview of sodium regulation
Na+ vital for regulation of ECF volume
occurs via changes in ECV - renin - angiotensin system and aldosterone
ANGIOTENSIN 2 - increases Na+/H+ exchange in proximal tubule - increases Na reabsorption and collecting duct
ALDOSTERONE - promotes Na+ reabsorption in distal tubule and collecting duct
ANP - reduces Na+ reabsorption in collecting duct - also acts on distal tubule. Also increases GFR
Sodium regulation hormones
Angiotensin 2 - enhancement of Na+ + H+ exchange in the proximal tubule. Reduction of GFR
ANP - increases GFR
Aldosterone - increased Na+ reabsorption in distal tubule and collecting duct
ANP - decreased Na+ reabsorption in distal tubule and collecting duct
Potassium regulation
Low dietary K+ = K+ secreted into capillaries
67% secreted -proximal tubule
20% secreted - ascending loh
Distal tubule and collecting duct - variable secretion/reabsorption according to dietary intake
ALDOSTERONE - promotes K+ secretion in collecting duct - hormonal effect
normal /high levels of K+ intake = 5-30% K+ secreted into urine - collecting duct
Calcium reabsorption
67% reabsorbed - proximal tubule. 20% reabsorbed = acending limb. 8% reabsorption - distal tubule
Distal tubule = secondary active transport of Ca2+ using Ca2+ATPase antiport with Sk+
Ca2+ moved from apical membrane of collecting duct into capillaries
Ca2+ATPase uses active form of Vitamin D = 2,25 dihydroxycholecalciferol)
Dieuretics
Proximal tubule = osmotic direutics = manitol, glucose = CARBONIC ANHYDRASE inhibitors
Distal tubule - THIAZIDE diuretics - block Na+ transporter in distal tubule
Collecting duct = K+ sparing diuretics - aldosterone antagonist, lower reabsorption of Na+ and secretion of K+ from principal cells = SPIRONOLACTONE
Na+ channel blockers - lower Na+ entry across apical membrane e.g. AMILORIDE
Loop diuretics = inhibit Na+ reuptake in ascending limb - decreases solute of medulla - lower osmolarity of urine e.g. FUROSEMIDE
Anotações:
thick ascending limb = TAL Furosemide - water diuretic pill
Renal physiology - main functions
Regulation of water and salt balance
excrete or conserve H2O, Na+ and K+
Removal of metabolic waste products
urea/uric acid, excess solutes
Removal of foreign substances
drugs or metabolites
Regulation of pH
i.e. HCO3- and H+
Other important renal functions
Hormone production
RENIN - regulates angiotensin 2
ERYTHROPROTEIN - stimulation of erythrocyte production
CALCITROL (vitamin D) - calcium regulation
Production of glucose from substances other than CHO's = glucneogenesis
Erythroprotein, EPO
Hormone produced in the kidney
stimulates red blood cell production in bone marrow
Also involved in:
wound healing
neuronal protection e.g. after stoke
angiogenesis
(used by endurance cyclists)
Micturition
Excreting urine
urine composition leaving bladder remains same leaving renal pelvis EXCEPT HORSE
Transported along ureters -> bladder -> peristalic contractions of SMOOTH muscle
Tonic S activity = bladder relaxed, internal sphincter closed
Tonic SOMATIC activity = external sphincter closed
Bladder full = increased pressure = increased activity in sensory neurone
reflex emptying = increased parasympathetic -> bladder contractions -> decreased somatic activity to external sphincter
Parasympathetic and Somatic = S2-S4
PS =smooth muscle wall of bladder
somatic = outer urethral sphincter -> higher brain centres
Sympathetic = L1-L2
S= inner urethral sphincter
KEY POINTS
1. ADH (vasopressin) - regulation of ECF osmolarity
2. ANP - up regulation of sodium excretion
4. Overview of mechanisms for regulating body fluid
3. Renin - angiotensin - regualtion of fluid volume
5. Role of sodium in regulating body fluid volume
6. Main characteristics of classes of diuretics
7. Mechanisms of the control of micturition
Anexos de mídia
Hormonal Control Of Nephron (image/jpeg)
Atrial Natriuretic Peptide Function In Nephron (image/png)
Potassium Regulation In Nephron (image/jpeg)
Calcium Reabsorbtion (image/jpeg)
Bladder Sympathetic Innervation (image/png)
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