Overview of Renal Physiology
3 basic processes:
a. Glomerular filtration
1st step in urine production
Water and solutes in blood plasma move across wall of
glomerular capillaries
Filtered then moved into glomerular capsule then into
renal tubule
b. Tubular reabsorption
As filtrate moves through renal tubules and collecting ducts,
tubule cells reabsorb 99% of filtered water + useful solutes
Water + solutes return to blood
Reabsorption refers to the return of substances into bloodstream
Absorption = means entry of new substances into the body
c. Tubular secretion
As filtrate moves through renal tubules and collecting ducts,
cells secrete other materials such as wastes, drugs, excess ions,
into the fluid
Tubular secretion = removes substances from blood
The rate of urinary excretion of any solute = rate of glomerular filtration +
rate of secretion - rate of reabsorption
Glomerular Filtration
Fluid that enters capsular space = glomerular filtrate
Filtration fraction = the fraction of blood plasma in the afferent arterioles that
becomes glomerular filtrate
o Normally 0.16-0.2 (16-20%)
o Varies in both health and disease
Daily volume of glomerular filtrate in adults:
o Females = 150L
o Males = 180L
o Only 1-2L is excreted as urine
The Filtration Membrane
Glomerular capillaries + podocytes = filtration membrane
o Permits filtration of water and small solutes
o Prevents filtration of most plasma proteins and blood cells
Substances filtered from blood cross 3 barriers:
o Glomerular endothelial cells
Leaky due to fenestrations
Permits all solutes
Prevents blood cells
Contain mesangial cells - located among glomerular capillaries
Contractile cells
, Regulate glomerular filtration
o Basement membrane
Acellular material between endothelium and podocytes
Consists of minute collagen fibers and negatively charged
glycoproteins
Allow water and most small solutes to pass
Negative charge of glycoproteins repels plasma proteins (most
are anionic)
o Filtration slit formed by a podocyte
Each podocyte has thousands of footlike processes = pedicels
Wrap around glomerular capillaries
Spaces between pedicels = filtration slits
Slit membrane = extends across each filtration slit
Allows small molecules (<0.006 um) to pass
Water, glucose, vitamins, amino acids, very
small plasma proteins, ammonia, urea, ions
Principle of filtration = use of pressure to force fluids and solutes through a
membrane
o Same as in blood capillaries
o Volume of fluid filtered by renal corpuscle is much larger than in other
blood capillaries for 3 reasons:
Glomerular capillaries have larger surface area
Mesangial cells regulate how much SA is available
When relaxed, SA is maximal = glomerular filtration
is high
Contraction of mesangial cells = reduced SA =
reduced filtration
Filtration membrane is thin and porous
50x leakier than blood capillaries
Large fenestrations
Glomerular capillary blood pressure is high
Efferent arteriole has smaller diameter than afferent
arteriole
= high resistance to outflow of blood = BP is higher
in glomerular capillaries than in blood capillaries in
other parts of body
Net Filtration Pressure
Glomerular filtration depends on 3 main pressures:
o 1 promotes filtration
o 2 pressure oppose filtration
1. Glomerular blood hydrostatic pressure (GBHP)
o BP in glomerular capillaries
o Generally about 55 mmHg
o Promotes filtration
3 basic processes:
a. Glomerular filtration
1st step in urine production
Water and solutes in blood plasma move across wall of
glomerular capillaries
Filtered then moved into glomerular capsule then into
renal tubule
b. Tubular reabsorption
As filtrate moves through renal tubules and collecting ducts,
tubule cells reabsorb 99% of filtered water + useful solutes
Water + solutes return to blood
Reabsorption refers to the return of substances into bloodstream
Absorption = means entry of new substances into the body
c. Tubular secretion
As filtrate moves through renal tubules and collecting ducts,
cells secrete other materials such as wastes, drugs, excess ions,
into the fluid
Tubular secretion = removes substances from blood
The rate of urinary excretion of any solute = rate of glomerular filtration +
rate of secretion - rate of reabsorption
Glomerular Filtration
Fluid that enters capsular space = glomerular filtrate
Filtration fraction = the fraction of blood plasma in the afferent arterioles that
becomes glomerular filtrate
o Normally 0.16-0.2 (16-20%)
o Varies in both health and disease
Daily volume of glomerular filtrate in adults:
o Females = 150L
o Males = 180L
o Only 1-2L is excreted as urine
The Filtration Membrane
Glomerular capillaries + podocytes = filtration membrane
o Permits filtration of water and small solutes
o Prevents filtration of most plasma proteins and blood cells
Substances filtered from blood cross 3 barriers:
o Glomerular endothelial cells
Leaky due to fenestrations
Permits all solutes
Prevents blood cells
Contain mesangial cells - located among glomerular capillaries
Contractile cells
, Regulate glomerular filtration
o Basement membrane
Acellular material between endothelium and podocytes
Consists of minute collagen fibers and negatively charged
glycoproteins
Allow water and most small solutes to pass
Negative charge of glycoproteins repels plasma proteins (most
are anionic)
o Filtration slit formed by a podocyte
Each podocyte has thousands of footlike processes = pedicels
Wrap around glomerular capillaries
Spaces between pedicels = filtration slits
Slit membrane = extends across each filtration slit
Allows small molecules (<0.006 um) to pass
Water, glucose, vitamins, amino acids, very
small plasma proteins, ammonia, urea, ions
Principle of filtration = use of pressure to force fluids and solutes through a
membrane
o Same as in blood capillaries
o Volume of fluid filtered by renal corpuscle is much larger than in other
blood capillaries for 3 reasons:
Glomerular capillaries have larger surface area
Mesangial cells regulate how much SA is available
When relaxed, SA is maximal = glomerular filtration
is high
Contraction of mesangial cells = reduced SA =
reduced filtration
Filtration membrane is thin and porous
50x leakier than blood capillaries
Large fenestrations
Glomerular capillary blood pressure is high
Efferent arteriole has smaller diameter than afferent
arteriole
= high resistance to outflow of blood = BP is higher
in glomerular capillaries than in blood capillaries in
other parts of body
Net Filtration Pressure
Glomerular filtration depends on 3 main pressures:
o 1 promotes filtration
o 2 pressure oppose filtration
1. Glomerular blood hydrostatic pressure (GBHP)
o BP in glomerular capillaries
o Generally about 55 mmHg
o Promotes filtration
