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Concepts in Emergency and Critical Care
JAMA. 1984;251(12):1586-1590. doi: 10.1001/jama.1984.03340360052029

Brain Ischemic Anoxia

Mechanisms of Injury

  1. Blaine C. White, MD;
  2. John G. Wiegenstein, MD;
  3. Carl D. Winegar, MD
  1. From the Division of Emergency Medicine, Department of Medicine, Michigan State University College of Medicine, East Lansing (Drs White and Wiegenstein); and the Division of Emergency Medicine, Department of Surgery, Wayne State University College of Medicine, Detroit (Dr Winegar).

Since this article does not have an abstract, we have provided the first 150 words of the full text.

Excerpt

THE DEVELOPMENT of effective therapy to preserve normal neurological function in patients surviving a cardiac arrest hinges on our growing understanding of the pathophysiology of ischemic anoxia. It is worthwhile, then, to review our new understanding of these mechanisms, as well as the laboratory search for therapies to protect neurons injured by cardiac arrest.

The early doctrine that four to six minutes of ischemic anoxia leads to irreversible brain injury was based on work done in the 1940s with dogs subjected to breathing 100% nitrogen.1,2 However, it became apparent from work by Ames and Guarian3 and Hossman and Kleihues4 that the neurons themselves have substantial intrinsic resistance to complete ischemic anoxia. The evidence suggests that CNS neurons can tolerate between 20 and 60 minutes of complete ischemic anoxia without irreversible injury. Following these severe insults, neurons regain the ability to synthesize protein, produce adenosine triphosphate (ATP), and

Footnotes

  • Reprint requests to Section of Emergency Medicine, Department of Medicine, Room A-206, East Fee Hall, Michigan State University, East Lansing, MI 48824 (Dr White).

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  1. JAMA. 1984;251(12):1586-1590. doi: 10.1001/jama.1984.03340360052029
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