Emmen H H, Hoogendijk E M, Klöpping-Ketelaars W A, Muijser H, Duistermaat E, Ravensberg J C, Alexander D J, Borkhataria D, Rusch G M, Schmit B
TNO Nutrition and Food Research Institute, Zeist, The Netherlands.
Regul Toxicol Pharmacol. 2000 Aug;32(1):22-35. doi: 10.1006/rtph.2000.1402.
HFC 134a (1,1,1,2-tetrafluoroethane) and HFC 227 (1,1,1,2,3,3, 3-heptafluoropropane) are used to replace chlorofluorocarbons (CFCs) in refrigerant and aerosol applications, including medical use in metered-dose inhalers. Production and consumption of CFCs are being phased out under the Montreal Protocol on Substances that Deplete the Ozone Layer. The safety and pharmacokinetics of HFC 134a and HFC 227 were assessed in two separate double-blind studies. Each HFC (hydrofluorocarbon) was administered via whole-body exposure as a vapor to eight (four male and four female) healthy volunteers. Volunteers were exposed, once weekly for 1 h, first to air and then to ascending concentrations of HFC (1000, 2000, 4000, and 8000 parts per million (ppm)), interspersed with a second air exposure and two CFC 12 (dichlorodifluoromethane) exposures (1000 and 4000 ppm). Comparison of either HFC 134a or HFC 227 to CFC 12 or air gave no clinically significant results for any of the measured laboratory parameters. There were no notable adverse events, there was no evidence of effects on the central nervous system, and there were no symptoms of upper respiratory tract irritation. HFC 134a, HFC 227, and CFC 12 blood concentrations increased rapidly and in an exposure-concentration-dependent manner, although not strictly proportionally, and approached steady state. Maximum blood concentrations (C(max)) tended to be higher in males than females; in the HFC 227 study, these were statistically significantly (P < 0. 05) higher in males for each HFC 227 and CFC 12 exposure level. In the HFC 134a study, the gender difference in C(max) was only statistically significant (P < 0.05) for CFC 12 at 4000 ppm and HFC 134a at 8000 ppm. Following the end of exposure, blood concentrations declined rapidly, predominantly biphasically and independent of exposure concentration. For the HFC 134a study, the t(1/2)alpha (alpha elimination half-life) was short for both CFC 12 and HFC 134a (<11 min). The t(1/2)beta (beta elimination half-life) across all exposure concentrations was a mean of 36 and 42 min for CFC 12 and HFC 134a, respectively. Mean residence time (MRT) was an overall mean of 42 and 44 min for CFC 12 and HFC 134a, respectively. In the HFC 227 study, t(1/2)alpha for both CFC 12 and HFC 227, at each exposure level, was short (<9 min) and tended to be lower in males than females. For CFC 12 mean t(1/2)beta ranged from 23 to 43 min and for HFC 227 the mean range was 19-92 min. The values tended to be lower for females than males for HFC 227. For both CFC 12 and HFC 227, MRT was statistically significantly lower (P < 0.05) in males than females and independent of exposure concentration. For CFC 12, MRT was a mean of 37 and 45 min for males and females, respectively, and for HFC 227 MRT was a mean of 36 and 42 min, respectively. Exposure of healthy volunteers to exposure levels up to 8000 ppm HFC 134a, 8000 ppm HFC 227, and 4000 ppm CFC 12 did not result in any adverse effects on pulse, blood pressure, electrocardiogram, or lung function.
氢氟碳化合物134a(1,1,1,2 - 四氟乙烷)和氢氟碳化合物227(1,1,1,2,3,3,3 - 七氟丙烷)被用于在制冷剂和气溶胶应用中替代氯氟烃(CFCs),包括在定量吸入器中的医疗用途。根据《关于消耗臭氧层物质的蒙特利尔议定书》,氯氟烃的生产和消费正在逐步淘汰。在两项独立的双盲研究中评估了氢氟碳化合物134a和氢氟碳化合物227的安全性和药代动力学。每种氢氟烃(HFC)通过全身暴露以蒸汽形式给予八名(四名男性和四名女性)健康志愿者。志愿者每周暴露一次,每次1小时,首先暴露于空气,然后暴露于浓度递增的氢氟烃(百万分之一千、百万分之二千、百万分之四千和百万分之八千),其间穿插第二次空气暴露和两次氯氟烃12(二氯二氟甲烷)暴露(百万分之一千和百万分之四千)。将氢氟碳化合物134a或氢氟碳化合物227与氯氟烃12或空气进行比较,对于任何测量的实验室参数均未得出具有临床意义的结果。没有明显的不良事件,没有对中枢神经系统产生影响的证据,也没有上呼吸道刺激的症状。氢氟碳化合物134a、氢氟碳化合物227和氯氟烃12的血药浓度迅速升高,且呈暴露浓度依赖性,尽管并非严格成比例,并趋于稳态。男性的最大血药浓度(C(max))往往高于女性;在氢氟碳化合物227研究中,对于每个氢氟碳化合物227和氯氟烃12暴露水平,男性的这些值在统计学上显著更高(P < 0.05)。在氢氟碳化合物134a研究中,仅在百万分之四千的氯氟烃12和百万分之八千的氢氟碳化合物134a时,C(max)的性别差异在统计学上显著(P < 0.05)。暴露结束后,血药浓度迅速下降,主要呈双相性且与暴露浓度无关。对于氢氟碳化合物134a研究,氯氟烃12和氢氟碳化合物134a的t(1/2)α(α消除半衰期)均较短(<11分钟)。在所有暴露浓度下,氯氟烃12和氢氟碳化合物134a的t(1/2)β(β消除半衰期)平均分别为36分钟和42分钟。平均驻留时间(MRT)氯氟烃12和氢氟碳化合物134a总体平均分别为42分钟和44分钟。在氢氟碳化合物227研究中,在每个暴露水平下,氯氟烃12和氢氟碳化合物227的t(1/2)α均较短(<9分钟),且男性往往低于女性。氯氟烃12的平均t(1/2)β范围为23至43分钟,氢氟碳化合物227的平均范围为19 - 92分钟。对于氢氟碳化合物227,女性的值往往低于男性。对于氯氟烃12和氢氟碳化合物227,男性的MRT在统计学上显著低于女性(P < 0.05)且与暴露浓度无关。氯氟烃12的MRT男性和女性分别平均为37分钟和45分钟,氢氟碳化合物227的MRT分别平均为36分钟和42分钟。健康志愿者暴露于高达百万分之八千的氢氟碳化合物134a、百万分之八千的氢氟碳化合物227和百万分之四千的氯氟烃12的暴露水平下,对脉搏、血压、心电图或肺功能均未产生任何不良影响。
