In: General Physiology and Biophysics, vol. 37, no. 1
Mina Ranjbaran - Mehri Kadkhodaee - Behjat Seifi - Reza Mirzaei - Parisa Ahghari
Rok, strany: 2018, 83 - 92
Hemorrhagic shock (HS) still has a high mortality rate and none of the known resuscitative regimens completely reverse its adverse outcomes. This study investigated the effects of different models of resuscitative therapy on the healing of organ damage in a HS model. Male Wistar rats were randomized into six groups: Sham, without HS induction; HS, without resuscitation; HS+Blood, resuscitation with the shed blood; HS+Blood+NS, resuscitation with blood and normal saline; HS+Blood+RL, resuscitation with blood and Ringer’s lactate; EPO, erythropoietin was added to the blood and RL. Blood and urine samples were obtained 3 h after resuscitation. Kidney, liver and brain tissue samples were harvested for multiple organ failure evaluation. Survival rate was the highest in the Sham, EPO and HS+Blood+RL groups compared to others. Plasma creatinine concentration, ALT, AST, urinary NAG activity and renal NGAL mRNA expression significantly increased in the HS+Blood+RL group compared to the Sham group. There was a significant increase in tissue oxidative stress markers and pro-inflammatory cytokines in HS+Blood+RL group compared to the Sham rats. EPO had more protective effects on multiple organ failure compared to the HS+Blood+RL group. EPO, as a resuscitative treatment, attenuated HS-induced organ damage. It seems that it has a potential to be attractive for clinical trials.
Ranjbaran, M., Kadkhodaee, M., Seifi, B., Mirzaei, R., Ahghari, P. 2018. Resuscitative therapy with erythropoietin reduces oxidative stress and inflammatory responses of vital organs in a rat severe fixed-volume hemorrhagic shock model. In General Physiology and Biophysics, vol. 37, no.1, pp. 83-92. 0231-5882.
Ranjbaran, M., Kadkhodaee, M., Seifi, B., Mirzaei, R., Ahghari, P. (2018). Resuscitative therapy with erythropoietin reduces oxidative stress and inflammatory responses of vital organs in a rat severe fixed-volume hemorrhagic shock model. General Physiology and Biophysics, 37(1), 83-92. 0231-5882.