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FP = BHP - (CsHP + BCOP)
Starling's law of the capillaries states that the net filtration = forces favouring filtration vs. forces opposing filtration. These forces include: Tonicity, Blod Hydrostatic Pressure (BHP), Blood Colloid Osmotic Pressure (BCOP), Interstitial Fluid Hydrostatic Pressure (IFHP), Interstitial Fluid Colloidal Pressure (IFCOP) and membrane permeability. Therefore effective filtration pressure (and the application of Starling's Law of the Capillaries) is defined as such: EFP=(BHP + IFCOP) - (IFHP + BCOP) Therefore: BHP + IFCOP moves fluid out of the capillaries and IFHP + BCOP moves fluid into capillaries
The Net Filtration Pressure (NFP) at the glomerulus is the difference between the net hydrostatic pressure and the blood colloid osmotic pressure acting across the glomerular capillaries. Under normal circumstances we can summarize this as NFP = NHP - BCOP or NFP = 35mm Hg - 25 mm Hg = 10mm Hg This is the average pressure forcing water and dissolved materials out of the glomerular capillaries and into the capsular spaces.