Warning:
JavaScript is turned OFF. None of the links on this page will work until it is reactivated.
If you need help turning JavaScript On, click here.
This Concept Map, created with IHMC CmapTools, has information related to: F&E balance, F&E balance movement of fluids filtration-Movement of water and molecules through a cell membrane as a result of liquid pressure differences on both sides of a cell membrane Filtration requires force, F&E balance older adults 45-55% fluid, Isotonic-0.9% osmosis-movement of water from area of lesser solute concentration to higher solute concentration, F&E balance Extra cellular interstitial, F&E balance movement of fluids osmosis-movement of water from area of lesser solute concentration to higher solute concentration, hypertonic- solute concentration higher outside cell, water will move out of cell, cell will shrink osmosis-movement of water from area of lesser solute concentration to higher solute concentration, sodium-potassium pump- 2k for every 3 Na active transport-“Uphill” movement of a large molecule across an area of high pressure (“pumping”) Requires the energy of ATP. works AGAINST the concentration gradient., F&E balance infants 70-80% of body is fluid, F&E balance adults 50-60% fluid, F&E balance Extra cellular intravascular, F&E balance movement of fluids active transport-“Uphill” movement of a large molecule across an area of high pressure (“pumping”) Requires the energy of ATP. works AGAINST the concentration gradient., F&E balance Extra cellular trancellular, F&E balance intracellular 40% of fluid is intracellular, F&E balance movement of fluids Diffusion- Movement of a gas, or solid in a liquid, across an area, such as a cell membrane, from an area of higher concentration to an area of lesser concentration. The result is that the solid is evenly distributed in the liquid (sugar in water), hypotonic- solute concentration lower outside cell- fluid will move into cell-cell will lyse osmosis-movement of water from area of lesser solute concentration to higher solute concentration