Hubert S. Mickel scite author profile

Exposure of Mongolian gerbils to a 100% oxygen atmosphere after 15 minutes of global brain ischemia resulted in a marked increase in the production of pentane, an in vivo product of lipid peroxidation. Much less pentane production occurred in animals subjected to global brain ischemia then exposed to an air atmosphere and in animals exposed to a 100% oxygen atmosphere without ischemia. Gerbils placed in 100% oxygen for 3-6 hours after 15 minutes of ischemia also had a threefold increase in 14-day mortality compared with gerbils subjected to ischemia and then placed in an air atmosphere. These findings raise a serious question about the use of oxygen-enriched atmospheres during reperfusion following ischemia. (Stroke 1987;18:426-430)

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Changes in Glial Cells During Human Telencephalic Myelinogenesis

Mickel

Gilles

1970

Brain

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The effect of peroxidized arachidonic acid upon human platelet aggregation

Mickel

Horbar

1974

Lipids

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Human platelet aggregation was studied in vitro following exposure to free arachidonic acid and peroxidized arachidonic acid. A slow aggregation response was caused by free arachidonic acid, whereas a rapid, marked response resulted from exposure to peroxidized free arachidonic acid. Aggregation resulting from peroxidized arachidonic acid was not counteracted by adenosine nor by prostaglandin E1, both in high concentrations. Peroxide‐induced platelet aggregation required the presence of added calcium ions in vitro. The aggregation resulting from exposure to peroxidized arachidonic acid was abolished by prior treatment of the lipid peroxide with tocopherol and butylated hydroxy toluenne.

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Prominent white matter lesions develop in Mongolian gerbils treated with 100% normobaric oxygen after global brain ischemia

et al. 1990

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Carotid arteries were occluded bilaterally for 15 min in two groups of Mongolian gerbils. The first group received 100% oxygen during the first 3 h of reperfusion. During that period, room air was given to the second group. After 3 h, both groups received room air. Brains of gerbils that died within 14 days after occlusion were removed, fixed in formalin and embedded in paraffin. Gerbils that survived 15-28 days were perfused with formalin before their brains were removed and embedded in paraffin. Adjacent, serially cut sections were stained with luxol fast blue (LFB)-H&E, cresyl violet, according to the Bodian method, or immunocytochemically with antisera raised against myelin basic protein (MBP) and glial fibrillary acidic protein (GFAP). In brain sections of gerbils receiving 3 h of 100% oxygen, there were circumscribed white matter lesions in the corpus striatum, lateral thalamus, mesencephalon and posterior limb of the internal capsule. Myelin sheaths were swollen, fragmented and were less intensely stained by MBP antiserum. MBP and LFB-stained myelin fragments were present extracellularly and in macrophages. Many axons in these areas appeared undamaged. Previously described ischemic changes were found in gray matter and some areas of white matter in both groups. However, neurons in the deeper laminae of the cerebral cortex appeared to be better preserved in gerbils given oxygen. The results suggest that hyperoxia, if present immediately after transient brain ischemia, may damage myelin more severely than other cellular elements.

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Hubert S. Mickel

Breathing 100% oxygen after global brain ischemia in Mongolian Gerbils results in increased lipid peroxidation and increased mortality.

Changes in Glial Cells During Human Telencephalic Myelinogenesis

The effect of peroxidized arachidonic acid upon human platelet aggregation

Prominent white matter lesions develop in Mongolian gerbils treated with 100% normobaric oxygen after global brain ischemia

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