Glomerular Filtration Flashcards
What are the basic renal processes? Brief descriptions too
- Filtration: formation of an essentially protein free filtrate at the glomerular capillaries
- Reabsorption: reabsorb what needs to be kept from filtrate
- Secretion: get rid of the rest
What is the glomerular filtration rate?
Volume of the plasma from the glomerular capillaries filtered into the Bowmans capsule per unit time
What is the approximate normal glomerular filtration rate? What does this allow the body to do?
- 180 L/day
- Allows monitoring of ECF volume and efficient elimination of wastes
Where does reabsorption occur? What is absorbed where?
- In the proximal and distal tubules of the nephron
Proximal tubule: AA’s, sugars, NaCl and water reabsorbed
Distal tubule: NaCl and water reabsorbed
Where does secretion occur in the kidneys? What are the main substances secreted at each site?
- Proximal and distal tubules of the nephron
Proximal: Organic ions and drugs
Distal: K & H ions
Why are the kidneys particularly vulnerable to vascular disease?
Because they receive such a high CO (20-25% of the total), at relatively high pressure.
What is the approximate average value for GFR? What percentage of plasma flowing through the corpuscle does this account for?
GFR usually about 125mL/min
Kidneys receive a BF of about 1200mL/min, 55% of which is plasma, so about 660mL/min (renal plasma flow)
125/660 = 19% (filtration fraction) - so about 19% of renal plasma flow becomes filtrate
What forces determine the amount of glomerular filtration?
Starlings Forces
- Hydrostatic force promoting filtration
- Oncotic pressure favouring reabsorption
Give a brief description of how permeable the glomerular barrier is to certain molecules
- Completely permeable to ions, simple sugars, water and urea
- Significantly less permeable to proteins depending on charge and size, ranging from around 98% permeability for insulin, to <1% for albumin
Describe the different layers of the filtration membrane and what each stops from entering the Bowmans capsule
- (inner) Fenestrations of glomerular endothelial cells allows all components of blood plasma except blood cells through
- Basal lamina of the glomerulus: prevents filtration of larger proteins
- (outer) Slit membranes between pedicels of podocyte cells prevents filtration of medium sized proteins
How does the glomerular capillary pressure compare to the capillary pressure elsewhere in the body? Why is this?
- Significantly higher pressure in glomerular capillaries to keep hydrostatic pressure high, for filtration
- This is because the afferent arteriole is short and wide, offering little resistance to flow
How do the efferent and afferent arterioles compare?
- Afferent: short and wide, offering little resistance
- Efferent: long and narrow, offering high post capillary resistance
How does the efferent arteriole contribute to the high hydrostatic pressure at the glomerular capillaries?
- Having high resistance causes hydrostatic pressure upstream to be increased, and hydrostatic pressure downstream to be decreased
What are the different pressure values that determine the net filtration gradient at the corpuscle?
- Hydrostatic pressure from blood (55mmHg)
- Oncotic pressure from proteins in plasma (30mmHg)
- Fluid pressure from fluid in Bowmans capsule (15mmHg)
Net: 55 - 30 - 15 = 10mmHg favouring filtration
What are some factors that affect the GFR via altering the diameter of afferent / efferent arterioles?
- Sympathetic VC nerves: afferent and efferent constriction, afferent arteriole more sensitive
- Circulating catecholamines (adrenalines): cause constriction of the afferent arteriole
- Angiotensin II: Constriction of efferent at {low], constriction of both at [high]
