Pesquisa Veterinária Brasileira (Mar 2009)
Apoptose no cólon menor eqüino submetido à isquemia e reperfusão experimentais Apoptosis in equine small colon subjected to experimental ischemia and reperfusion
Abstract
Isquemia e reperfusão intestinais são importantes fatores de mortalidade em eqüinos. O objetivo deste estudo foi detectar e quantificar a apoptose na mucosa do cólon menor eqüino em um modelo de isquemia e reperfusão. Realizou-se a exposição cirúrgica do cólon menor de doze eqüinos e demarcaram-se dois segmentos intestinais que foram submetidos a 90 (SI) ou 180 (SII) minutos de isquemia arteriovenosa completa. Foram coletadas amostras intestinais antes da isquemia (controle), ao seu final e após 90 e 180 minutos de reperfusão. As amostras foram processadas histologicamente e coradas pela Hematoxilina e Eosina (SI e SII) e pela técnica de TUNEL (SII). Foram digitalizadas imagens histológicas e procedeu-se análise morfométrica para detectar ocorrência de apoptose e determinar o índice apoptótico (IA). Após 90 ou 180 minutos de isquemia arteriovenosa, verificou-se um aumento do IA comparado ao controle, embora não tenha sido detectada diferença entre os diferentes períodos de isquemia (PIntestinal ischemia and reperfusion are important factors for mortality in horses. The objective of this study was to detect and to quantify apoptosis in the mucosa of equine small colon in a model of ischemia and reperfusion. The small colon was surgically exposed in twelve horses, and two intestinal segments were demarcated and subjected to 90 (SI) or 180 (SII) minutes of complete arteriovenous ischemia. Intestinal samples were collected before ischemia (control), at its end and after 90 and 180 minutes of reperfusion. Samples were histological processed and stained by hematoxylin and eosin (SI and SII) and by the technique of TUNEL (SI). Digitized histological images were analyzed morphometrically to detect apoptotic cells and to determine the apoptotic index (AI). After 90 or 180 minutes of arteriovenous ischemia, an increase in apoptotic cells was verified when compared with the control group, although no difference could be detected between the different periods of ischemia (P<0.05). After the first 90 minutes of reperfusion, a decrease in AI occurred, similar in both segments, possibly due to lack of energy source promoted by ischemia. AI was maximized after 180 minutes of reperfusion (sample harvested only in SI) (P<0.05). In conclusion, apoptosis is an important cause of cellular mucosal death in equine small colon ischemic obstruction, occurring early in ischemia, and later (after 90 minutes) in the reperfusion period.
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