%0 Journal Article %T A pharmacodynamic model of respiratory rate and end-tidal carbon dioxide values during anesthesia in children %A Lee Ji-Hyun %A Kang Pyo-Yoon %A Jang Young-Eun %A Kim Eun-Hee %A Kim Jin-Tae %A Kim Hee-Soo %J Acta Pharmacologica Sinica %D 2019 %B 2019 %9 %! A pharmacodynamic model of respiratory rate and end-tidal carbon dioxide values during anesthesia in children %K %X It is essential to monitor the end-tidal carbon dioxide (ETCO 2 ) during general anesthesia and adjust the tidal volume and respiratory rate (RR). For the purpose of this study, we used a population pharmacodynamic modeling approach to establish the relationship between RR versus ETCO 2 data during general anesthesia in children, and to identify the clinical variables affecting this relationship. A prospective observational study was designed to include 51 patients (aged ≤ 12 years), including users of antiepileptic drugs (levetiracetam, valproic, or phenobarbital ( n  = 21)) and non-users ( n  = 30), scheduled to receive general anesthesia during elective surgery. When the ETCO 2 was at 40 mmHg, the RR was adjusted 1 breath per every 2 min until the ETCO 2 was 30 mmHg and recovered to 40 mmHg. Pharmacodynamic analysis using a sigmoid E max model was performed to assess the RR-ETCO 2 relationship. As RR varied from 3 to 37 breaths per minute, the ETCO 2 changed from 40 to 30 mmHg. Hysteresis between the RR and ETCO 2 was observed and accounted for when the model was developed. The C e 50 (RR to achieve 50% of maximum decrease in ETCO 2 ; i.e. 35 mmHg) was 20.5 in non-users of antiepileptic drugs and 14.9 in those on antiepileptic drug medication. The values of γ (the steepness of the concentration-response relation curve) and k eo (the first-order rate constant determining the equilibration between the RR and ETCO 2 ) were 7.53 and 0.467 min -1 , respectively. The C e 50 and ETCO 2 data fit to a sigmoid E max model. In conclusion, the RR required to get the target ETCO 2 was much lower in children patients taking antiepileptic drugs than that of non-user children patients during the general anesthesia. %U http://www.chinaphar.com/article/view/9964 %V 40 %N 5 %P 642-647 %@ 1745-7254