Results 1 - 10 of 13 for LIDOCAINE OR METHYLPREDNISOLONE OR CHLORIDE ION OR ISOPROPYL ALCOHOL OR BUPIVACAINE OR IODINE OR WATER
  1. ... the chloride channel, preventing the usual flow of chloride ions and water into and out of cells. As a result, ... from functioning properly, which impairs the transport of chloride ions and the movement of water into and out of cells. As a result, ...
  2. ... channels, preventing them from regulating the flow of chloride ions and water across cell membranes. As a result, cells that ...
  3. ... channels, preventing them from regulating the flow of chloride ions and water across cell membranes. As a result, cells in ...
  4. ... outer membrane of most cells, and they transport chloride ions in and out ... the intake and release of water as well as maintaining a normal balance of ...
  5. ... ClC-5 exchanges negatively charged atoms of chlorine (chloride ions) for ... nutrients, water, and other materials that have been filtered from ...
  6. ... a channel that allows negatively charged chlorine atoms (chloride ions) to cross the cell membrane. After infancy, the influx of chloride ions creates an environment in the cell that inhibits ...
  7. ... 2. This channel transports negatively charged chlorine atoms (chloride ions) across cell membranes and plays a key role ... a role in their intake and release of water as well as maintaining a normal balance of ions in cells.Some CLCN2 gene mutations impair the ...
  8. ... sodium in the body, the flow of sodium ions helps control the movement of water in tissues. For example, ENaC channels in lung ...
  9. ... sodium in the body, the flow of sodium ions helps control the movement of water in tissues. For example, ENaC channels in lung ...
  10. ... sodium in the body, the flow of sodium ions helps control the movement of water in tissues. For example, ENaC channels in lung ...
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