Contribution of the caudal medullary raphe to opioid induced respiratory depression

• Increasing opioid doses differentially affect respiratory-related brainstem areas. • Opioid effects on the rhythm generator profoundly impact respiratory phase timing. • Opioid-induced depression of respiratory drive reduces activity in the rhythm generator. • Exogenous opioids reduce activity of the caudal medullary raphe. • The caudal medullary raphe is partly depressed by endogenous opioids. Opioid-induced respiratory depression can be partially antagonized in the preBötzinger Complex and Parabrachial Nucleus/Kölliker-Fuse Complex. We hypothesized that additional opioid antagonism in the caudal medullary raphe completely reverses the opioid effect. In adult ventilated, vagotomized, decerebrate rabbits, we administrated remifentanil intravenously at “analgesic”, “apneic”, and “very high” doses and determined the reversal with sequential naloxone microinjections into the bilateral Parabrachial Nucleus/Kölliker-Fuse Complex, preBötzinger Complex, and caudal medullary raphe. In separate animals, we injected opioid antagonists into the raphe without intravenous remifentanil. Sequential naloxone microinjections completely reversed respiratory rate depression from “analgesic” and “apneic” remifentanil, but not “very high” remifentanil concentrations. Antagonist injection into the caudal medullary raphe without remifentanil independently increased respiratory rate. Opioid-induced respiratory depression results from a combined effect on the respiratory rhythm generator and respiratory drive. The effect in the caudal medullary raphe is complex as we also observed local antagonism of endogenous opioid receptor activation, which has not been described before.