Brainstem Damage Underlies Changes in Hypoxic Ventilatory Response Following Cardiac Arrest and Resuscitation in Rats.

People resuscitated after sudden cardiac arrest remain at high risk for mortality, with treatment for survivors varying from monitoring to life support. With respect to assessing survivability post cardiac arrest and resuscitation (CAR), we previously demonstrated the potential of the hypoxic ventilatory response (HVR) as a reliable indicator for discerning between survivors and non-survivors in the early stages of recovery following CAR in rats. Since HVR describes the increase in ventilation in response to hypoxia, we hypothesize that damage to cardiorespiratory regulatory centers in the brainstem underlie the loss of HVR observed post resuscitation in nonsurvivors. Wistar rats underwent cardiac arrest (12-min) and resuscitation. At 1 day post-resuscitation, rats were perfused transcardially and the brains were harvested and processed for immunohistostaining of caspase-3, a marker of apoptosis. Positive caspase-3 staining was observed in brainstem regions such as the rostral ventral lateral medulla (RVLM); Co-localization of caspase-3 and NeuN was observed in the RVLM as well, suggesting that apoptosis most likely occurs in neurons. Our results showed positive markers for neuronal apoptosis present in pathways of the brainstem involved in respiratory and cerebrovascular regulation, suggesting brain stem damage underlies changes in HVR following CAR.