Le Corre P, Malledant Y, Tanguy M, Le Verge R
Department of Anesthesiology and Reanimation, Hôpital de Pontchaillou, C.H.R.U. de Rennes, France.
Crit Care Med. 1993 Nov;21(11):1652-7. doi: 10.1097/00003246-199311000-00013.
To study the pharmacokinetics of dopamine in hemodynamically stable adult patients.
Prospective clinical study.
University hospital intensive care unit.
Fourteen patients (aged 43 to 73 yrs) recovering from esophageal surgery.
Dopamine was infused and blood samples were collected.
Plasma dopamine concentrations were measured at steady state and subsequently at the end of the dopamine infusion using high-performance liquid chromatography. Clearances, volume of distribution, mean residence times, half-lives, and elimination and distribution rate constants were derived. The clearances were independent of the infusion rate at 1, 3, and 6 micrograms/kg/min, and ranged between 0.050 and 0.056 L/min/kg. A two-compartment open model was fitted to the postinfusion plasma concentration data obtained at 3 and 6 micrograms/kg/min. On average, the steady-state volume of distribution and the apparent terminal elimination half-life increased with the dose: 0.78 to 1.58 L/kg, respectively, and 22.1 to 37.9 mins, respectively, for the rates of 3 and 6 micrograms/kg/min. The rate constant associated with the uptake of dopamine into the peripheral compartment (K12) was on average four to five times higher than the rate constant associated with the reverse process (K21).
The redistribution of dopamine into the central compartment could be the main factor involved in the apparent terminal elimination of dopamine from plasma. Due to the relative rates of distribution and elimination, the attainment of a steady-state plasma concentration of dopamine should only depend on the terminal half-life. These results, which remain to be validated in a greater number of patients, indicate that the attainment of 90% of the plateau (i.e., in 3.3 half-lives) would require 70 to 125 mins, depending on the infusion rate.
研究多巴胺在血流动力学稳定的成年患者体内的药代动力学。
前瞻性临床研究。
大学医院重症监护病房。
14例(年龄43至73岁)食管手术后康复的患者。
输注多巴胺并采集血样。
采用高效液相色谱法在稳态时及多巴胺输注结束时测量血浆多巴胺浓度。计算清除率、分布容积、平均驻留时间、半衰期以及消除和分布速率常数。清除率在多巴胺输注速率为1、3和6微克/千克/分钟时与输注速率无关,范围在0.050至0.056升/分钟/千克之间。对3和6微克/千克/分钟输注后获得的血浆浓度数据拟合二室开放模型。平均而言,稳态分布容积和表观终末消除半衰期随剂量增加:3和6微克/千克/分钟输注速率时,分别为0.78至1.58升/千克以及22.1至37.9分钟。与多巴胺进入外周室摄取相关的速率常数(K12)平均比与逆向过程相关的速率常数(K21)高4至5倍。
多巴胺重新分布至中央室可能是其从血浆中表观终末消除的主要因素。由于分布和消除的相对速率,多巴胺血浆稳态浓度的达到应仅取决于终末半衰期。这些结果仍有待在更多患者中验证,表明达到平台期的90%(即3.3个半衰期)需要70至125分钟,具体取决于输注速率。
