Joakim Nyberg1, Husong Li, Pehr Wessmark, Viktor Winther, Donald S Prough, Michael P Kinsky, Christer H Svensén. 1. From the Department of Pharmaceutical Biosciences, Uppsala University, Uppsala, Sweden (J.N.) Department of Anesthesiology, University of Texas Medical Branch Health, Galveston, Texas (H.L., D.S.P., M.P.K., C.H.S.) Master of Science, Royal Institute of Technology, Stockholm, Sweden (P.W., V.W.) Karolinska Institute, Department of Clinical Science and Education, Unit of Anesthesiology and Intensive Care, Södersjukhuset, Stockholm, Sweden (C.H.S.).
Abstract
BACKGROUND: Population-based, pharmacokinetic modeling can be used to describe variability in fluid distribution and dilution between individuals and across populations. The authors hypothesized that dilution produced by crystalloid infusion after hemorrhage would be larger in anesthetized than in awake subjects and that population kinetic modeling would identify differences in covariates. METHODS:Twelve healthy volunteers, seven females and five males, mean age 28 ± 4.3 yr, underwent a randomized crossover study. Each subject participated in two separate sessions, separated by four weeks, in which they were assigned to an awake or an anesthetized arm. After a baseline period, hemorrhage (7 ml/kg during 20 min) was induced, immediately followed by a 25 ml/kg infusion during 20 min of 0.9% saline. Hemoglobin concentrations, sampled every 5 min for 60 min then every 10 min for an additional 120 min, were used for population kinetic modeling. Covariates, including body weight, sex, and study arm (awake or anesthetized), were tested in the model building. The change in dilution was studied by analyzing area under the curve and maximum plasma dilution. RESULTS: Anesthetized subjects had larger plasma dilution than awake subjects. The analysis showed that females increased area under the curve and maximum plasma dilution by 17% (with 95% CI, 1.08 to 1.38 and 1.07 to 1.39) compared with men, and study arm (anesthetized increased area under the curve by 99% [0.88 to 2.45] and maximum plasma dilution by 35% [0.71 to 1.63]) impacted the plasma dilution whereas a 10-kg increase of body weight resulted in a small change (less than1% [0.93 to 1.20]) in area under the curve and maximum plasma dilution. Mean arterial pressure was lower in subjects while anesthetized (P < 0.001). CONCLUSIONS: In awake and anesthetized subjects subjected to controlled hemorrhage, plasma dilution increased with anesthesia, female sex, and lower body weight. Neither study arm nor body weight impact on area under the curve or maximum plasma dilution were statistically significant and therefore no effect can be established.
RCT Entities:
BACKGROUND: Population-based, pharmacokinetic modeling can be used to describe variability in fluid distribution and dilution between individuals and across populations. The authors hypothesized that dilution produced by crystalloid infusion after hemorrhage would be larger in anesthetized than in awake subjects and that population kinetic modeling would identify differences in covariates. METHODS: Twelve healthy volunteers, seven females and five males, mean age 28 ± 4.3 yr, underwent a randomized crossover study. Each subject participated in two separate sessions, separated by four weeks, in which they were assigned to an awake or an anesthetized arm. After a baseline period, hemorrhage (7 ml/kg during 20 min) was induced, immediately followed by a 25 ml/kg infusion during 20 min of 0.9% saline. Hemoglobin concentrations, sampled every 5 min for 60 min then every 10 min for an additional 120 min, were used for population kinetic modeling. Covariates, including body weight, sex, and study arm (awake or anesthetized), were tested in the model building. The change in dilution was studied by analyzing area under the curve and maximum plasma dilution. RESULTS: Anesthetized subjects had larger plasma dilution than awake subjects. The analysis showed that females increased area under the curve and maximum plasma dilution by 17% (with 95% CI, 1.08 to 1.38 and 1.07 to 1.39) compared with men, and study arm (anesthetized increased area under the curve by 99% [0.88 to 2.45] and maximum plasma dilution by 35% [0.71 to 1.63]) impacted the plasma dilution whereas a 10-kg increase of body weight resulted in a small change (less than1% [0.93 to 1.20]) in area under the curve and maximum plasma dilution. Mean arterial pressure was lower in subjects while anesthetized (P < 0.001). CONCLUSIONS: In awake and anesthetized subjects subjected to controlled hemorrhage, plasma dilution increased with anesthesia, female sex, and lower body weight. Neither study arm nor body weight impact on area under the curve or maximum plasma dilution were statistically significant and therefore no effect can be established.
Authors: Gabriel Hundeshagen; George C Kramer; Nicole Ribeiro Marques; Michael G Salter; Aristides K Koutrouvelis; Husong Li; Daneshvari R Solanki; Alexander Indrikovs; Roger Seeton; Sheryl N Henkel; Michael P Kinsky Journal: Crit Care Med Date: 2017-10 Impact factor: 7.598
Authors: Ake Norberg; Kirk I Brauer; Donald S Prough; Johan Gabrielsson; Robert G Hahn; Tatsuo Uchida; Daniel L Traber; Christer H Svensén Journal: Anesthesiology Date: 2005-05 Impact factor: 7.892
Authors: Ake Norberg; Robert G Hahn; Husong Li; Joel Olsson; Donald S Prough; Elisabet Børsheim; Scott Wolf; Regina K Minton; Christer H Svensén Journal: Anesthesiology Date: 2007-07 Impact factor: 7.892