Ischemia-caused brain cell damage reduction in suspension protocol?

X-Message-Number: 12418
From: "Robert Moore" <>
Subject: Ischemia-caused brain cell damage reduction in suspension protocol?
Date: Tue, 14 Sep 1999 06:05:06 PDT

Wouldn't a drug like the one metioned below that reduces brain cell death 
due to ischemia be valuable as part of a good suspension protocol?

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Dual action drug protects brain against stroke, trauma

NEW YOR (Reuters Health) -- A new drug with two different injury protection 
properties reduces brain cell damage in animal models of stroke and head 
trauma.

Two key processes contribute to the damage seen after ischemia -- an 
interruption of blood flow to the brain. An enzyme called nitric oxide 
synthase (NOS) causes overproduction of a damaging chemical, nitric oxide 
(NO). At the same time, strong oxygen compounds called reactive oxygen 
species (ROS) cause widespread cell damage.

"Our results suggested that controlling both ROS and NO is more efficient 
(in preventing brain damage) than the inhibition of only one of these," 
according to Pierre-Etienne Chabrier from Beaufour-Ipsen Research 
Laboratories in Cedex, France, and colleagues. Their results are published 
in the September issue of the Proceedings of the National Academy of 
Sciences.

The researchers tested BN 80933 in rats and gerbils with stroke-like 
conditions and in mice subjected to head trauma. BN 80933 contains an 
antioxidant (a chemical that prevents ROS effects) linked to an NOS blocker. 
The drug proved effective in preventing cell death, the report indicates.

BN 80933 reduced the death of brain cells by 60% to 70% in rats, and the 
rats that received BN 80933 had better functioning after their ischemic 
episodes, the scientists explain.

In gerbils subjected to ischemia of the entire brain, BN 80933 more than 
doubled the number of surviving brain cells, the investigators report.

Mice that sustained head trauma were also protected by BN 80933, according 
to the results. When administered 5 minutes after injury, BN 80933 reduced 
the damage to the mice by 48% to 58%, depending upon the dose given.

"All these results indicate that BN 80933 represents a class of potentially 
useful therapeutic agents for the treatment of stroke or trauma and possibly 
neurodegenerative disorders that involve both NO and ROS," Chabrier and 
colleagues conclude.

"Most important is that the protection conferred by this agent is sustained; 
thus, it can be given 4 to 8 hours after injury and still provide 
significant neuroprotection," writes Valina Dawson of Johns Hopkins 
University School of Medicine in Baltimore, Maryland, in a related 
commentary. "This approach, which one could envisage being employed with 
alternative targets, is particularly innovative."


Source:  Proceedings of the National Academy of Sciences USA 
1999;96:10824-10829, 10557-10558

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