Regulation of Cell Volume in Health and Disease

doi:10.1056/NEJM199511093331906

Volume 333:1260-1267		November 9, 1995		Number 19

Regulation of Cell Volume in Health and Disease

Michael L. McManus, M.D., Kevin B. Churchwell, M.D., and Kevin Strange, Ph.D.

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Maintenance of a constant volume in the face of extracellularand intracellular osmotic perturbations is a critical problemfaced by all cells. Most cells respond to swelling or shrinkageby activating specific metabolic or membrane-transport processesthat return cell volume to its normal resting state. These processesare essential for the normal function and survival of cells.This article will outline the cellular and molecular eventsunderlying cell-volume homeostasis and discuss their relevanceto medical practice.

Fundamentals of Cell-Volume Regulation

Meeting Osmotic Challenges

Water is in thermodynamic equilibrium across the plasma membrane.In other words, the osmotic concentrations of cytoplasmic andextracellular fluids are equal under steady-state . . . [Full Text of this Article]

Electrolyte Transport and Volume Regulation

Organic Osmolytes

Sensing Cell Size

Cell-Volume Homeostasis and Pathophysiology

Rapid Regulatory Volume Increase in the Brain — Defeating Osmotherapy

Correction of Plasma Hypertonicity — Undermining Nature

Disruption of Cellular Osmoregulation — Complications of Diabetes Mellitus

Sickle Cell Crisis — Blocking Capillaries by Shrinking Cells

Cellular Proliferation — Volume as a Signal

Conclusions

Source Information

From the Critical Care Research Laboratories, Departments of Anesthesia (M.L.M., K.B.C., K.S.) and Medicine (Nephrology) (K.S.), Children's Hospital and Harvard Medical School, Boston.

Address reprint requests to Dr. McManus at Children's Hospital, Department of Anesthesia, MICU Office, Farley 517, Boston, MA 02115.

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