Cell Damage in the Brain: A Speculative Synthesis

All cells in living organisms have a limited life span, and when the time set by their biological clocks has run out, they will die , their highly orga nized macromolec ular structure will disintegrate, and the low-molec ul ar degrad ation products be come part of the disorder of the surroundings . In thermodynamic terms, this series of events consti tutes what has been c alled the entropic doom. We know little about those molec ul ar mechanisms that limit the life span of cells in the absence of dise ase. For the clinician, therefore, the important task is to prevent or tre at dise ases that jeopardize the proper functioning and viability of cells whose biologic al clocks have not yet run out . Measures instituted to prevent brain cell death have a special importance . This i s partly due t o the fact that w e equate human life with the functioning of the brain. However, this importance also resides in the v ulnerability of brain cells to conditions that allow cells of most other tissue to survive , and to continue or res ume their activitie s . The clinically most important conditions leading to brain cell death are those associated with cere brovascul ar dise ase, particularly stroke, and with head trauma. We will begin, though, by rec alling the traditional view of the occ urrence and loc alization of neuronal damage in four conditions that lead to more disseminated alterations, e specially since they have been considered to c ause nerve cell injury of a