[Study of the protective effects of phenothiazine derivatives on a stochastic model of brain compression edema-swelling].

Abstract	Search for pathogenically substantiated drugs to treat and prevent brain edema-swelling (BES) is a topical problem of modern biology and medicine. It is possible to solve this challenging biomedical problem by using a method for devising a stochastic model of the tested process. The developed stochastic model of BES identifies the nerve tissue structural components involving in the anti-edematous mechanism of action of phenothiazine derivatives under the conditions of 7-day brain compression. Analyzing the results of this model application revealed the major governing structures in the morphofunctional complexes under study. The investigations made on the stochastic model yielded a quantitative assessment of the impact of morphofunctional structural relationships under the influence of disturbing factors.
Authors	I A Platonov
Journal	Patologicheskaia fiziologiia i eksperimental'naia terapiia (Patol Fiziol Eksp Ter) 1997 Jan-Mar Issue 1 Pg. 12-5 ISSN: 0031-2991 [Print] Russia (Federation)
Vernacular Title	Issledovanie na stokhasticheskoĭ modeli kompressionnogo oteka-nabukhaniia golovnogo mozga protektivnogo deĭstviia proizvodnykh fenotiazina.
PMID	9157371 (Publication Type: English Abstract, Journal Article)
Chemical References	Antipsychotic Agents Neuroprotective Agents Phenothiazines
Topics	Animals Antipsychotic Agents (therapeutic use) Brain Edema (prevention & control) Nerve Compression Syndromes (prevention & control) Neuroprotective Agents (therapeutic use) Phenothiazines Rats Stochastic Processes

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