RenalSystemData

Modules

 FiltrationFraction
 Scalar used to compute reabsorption for substances.
 
 GlomerularFiltrationRate
 Flow rate of filtrate into the tubules.
 
 LeftAfferentArterioleResistance
 resistance to flow going into the glomerular capillaries in the left Kidney
 
 LeftBowmansCapsulesHydrostaticPressure
 Pressure generated from fluid in the bowmans capsules in the left Kidney.
 
 LeftBowmansCapsulesOsmoticPressure
 Pressure generated from substances in the bowmans capsules in the left Kidney.
 
 LeftEfferentArterioleResistance
 Resistance to flow into the peritubular capillaries in the left Kidney.
 
 LeftGlomerularCapillariesHydrostaticPressure
 Pressure generated from fluid in the glomerular capillaries in the left Kidney.
 
 LeftGlomerularCapillariesOsmoticPressure
 Pressure generated from substances in the capillaries in the left Kidney.
 
 LeftGlomerularFiltrationCoefficient
 Calculated for each substance to determine ease of transport into the tubules in the left Kidney.
 
 LeftGlomerularFiltrationRate
 Flow rate of filtrate into the tubules in left Kidney.
 
 LeftGlomerularFiltrationSurfaceArea
 Surface area of glomerular capillaries that experiance filtration in the left Kidney.
 
 LeftGlomerularFluidPermeability
 Permeability coeffitient of the capillary tissue in the left Kidney.
 
 LeftFiltrationFraction
 Scalar used to compute reabsorption for substances in left Kidney.
 
 LeftNetFiltrationPressure
 Total pressure directed into the tubules in the left Kidney.
 
 LeftNetReabsorptionPressure
 Total pressure directed into the peritubular capillaries in the left Kidney.
 
 LeftPeritubularCapillariesHydrostaticPressure
 Pressure generated by the fluid in the peritubular capillaries in the left Kidney.
 
 LeftPeritubularCapillariesOsmoticPressure
 Pressure generated by the substance concentration in the peritubular capillaries in the left Kidney.
 
 LeftReabsorptionFiltrationCoefficient
 Value which determines how much of a substance is reabsorbed into the blood stream in the left Kidney.
 
 LeftReabsorptionRate
 Rate at which fluid or a substance is transported into the peritubular capillaries in the left Kidney.
 
 LeftTubularOsmoticPressure
 Pressure generated by substances in the tubules in the left Kidney.
 
 LeftTubularHydrostaticPressure
 Preassure generated by the fluid in the tubules in the left Kidney.
 
 LeftTubularReabsorptionFiltrationSurfaceArea
 Surface ares of the tubules which is subject to fluid transport (reabsorption) in the left Kidney.
 
 LeftTubularReabsorptionFluidPermeability
 Permeability of the tissue in the tubules, influencing resistance to flow into peritubular capillaries in the left Kidney.
 
 RenalBloodFlow
 Blood flow into the kidney that is not filtered into the tubules.
 
 RenalPlasmaFlow
 Plasma flow into the kidney that is not filtered into the tubules.
 
 RenalVascularResistance
 Total resistance o f the kidney vasculature.
 
 RightAfferentArterioleResistance
 resistance to flow going into the glomerular capillaries in the right Kidney
 
 RightBowmansCapsulesHydrostaticPressure
 Pressure generated from fluid in the bowmans capsules in the right Kidney.
 
 RightBowmansCapsulesOsmoticPressure
 Pressure generated from substances in the bowmans capsules in the right Kidney.
 
 RightEfferentArterioleResistance
 Resistance to flow into the peritubular capillaries in the left Kidney.
 
 RightGlomerularCapillariesHydrostaticPressure
 Pressure generated from fluid in the glomerular capillaries in the left Kidney.
 
 RightGlomerularCapillariesOsmoticPressure
 Pressure generated from substances in the capillaries in the left Kidney.
 
 RightGlomerularFiltrationCoefficient
 Calculated for each substance to determine ease of transport into the tubules in the left Kidney.
 
 RightGlomerularFiltrationRate
 Flow rate of filtrate into the tubules in left Kidney.
 
 RightGlomerularFiltrationSurfaceArea
 Surface area of glomerular capillaries that experiance filtration in the left Kidney.
 
 RightGlomerularFluidPermeability
 Permeability coeffitient of the capillary tissue in the left Kidney.
 
 RightFiltrationFraction
 Scalar used to compute reabsorption for substances in left Kidney.
 
 RightNetFiltrationPressure
 Total pressure directed into the tubules in the left Kidney.
 
 RightNetReabsorptionPressure
 Total pressure directed into the peritubular capillaries in the left Kidney.
 
 RightPeritubularCapillariesHydrostaticPressure
 Pressure generated by the fluid in the peritubular capillaries in the left Kidney.
 
 RightPeritubularCapillariesOsmoticPressure
 Pressure generated by the substance concentration in the peritubular capillaries in the left Kidney.
 
 RightReabsorptionFiltrationCoefficient
 Value which determines how much of a substance is reabsorbed into the blood stream in the left Kidney.
 
 RightReabsorptionRate
 Rate at which fluid or a substance is transported into the peritubular capillaries in the left Kidney.
 
 RightTubularOsmoticPressure
 Pressure generated by substances in the tubules in the left Kidney.
 
 RightTubularHydrostaticPressure
 Preassure generated by the fluid in the tubules in the left Kidney.
 
 RightTubularReabsorptionFiltrationSurfaceArea
 Surface ares of the tubules which is subject to fluid transport (reabsorption) in the left Kidney.
 
 RightTubularReabsorptionFluidPermeability
 Permeability of the tissue in the tubules, influencing resistance to flow into peritubular capillaries in the left Kidney.
 
 UrinationRate
 Rate that fluid exits the bladder.
 
 UrineOsmolality
 The osmolar pressure contributions of the sodium, urea and glucose divided by the mass of the fluid.
 
 UrineOsmolarity
 The osmolar pressure contributions of the sodium, urea and glucose divided by the volume of the fluid.
 
 UrineProductionRate
 The rate of fluid flow to the bladder.
 
 UrineSpecificGravity
 The density of the fluid relative to water.
 
 UrineVolume
 The volume of the urine in the bladder.
 
 UrineUreaNitrogenConcentration
 Scaled concentration of Urea in the bladder.
 

Detailed Description

substances in the blood with behavior dependent upon factors such as dehydration and the presence of diuretics.