In this study,we aimed to develop and evaluate a whole-body physiologically based pharmacokinetic(WB-PBPK)/pharmacodynamic(PD)model for saxagliptin,simulate its pharmacokinetic and pharmacodynamic properties in health...In this study,we aimed to develop and evaluate a whole-body physiologically based pharmacokinetic(WB-PBPK)/pharmacodynamic(PD)model for saxagliptin,simulate its pharmacokinetic and pharmacodynamic properties in healthy adults and patients with hepatic function impairment,and provide a new method for the research to the clinical pharmacy of special patients.Based on the drug-specific properties,such as log D,plasma protein binding collected by the published literature,the WB-PBPK model and the PD model were established.After comparing the simulated concentration-time profiles and the pharmacokinetic parameters with data in healthy adults from oral and intravenous clinical investigation,the WB-PBPK model could be optimized.After comparing the simulated DPP-4 inhibition profile with the observed pharmacodynamic in healthy subjects,the PD model could be optimized.The PK/PD model was utilized to predict the mean and variability of the pharmacokinetic and pharmacodynamic profiles in subjects with different hepatic impairment.All of the predicted pharmacokinetic curves were comparable to the observed curves both in healthy subjects and hepatic impairment subjects(Cmax and AUC were less than 1.3-fold).The predicted pharmacodynamic curves were comparable to the observed ones in different oral dosage after optimization,and pharmacodynamics of saxagliptin in hepatic impairment subjects were predicted successfully.The WB-PBPK/PD model can accurately simulate the pharmacokinetics and pharmacodynamics of saxagliptin in normal adults and different hepatic impaired patients.展开更多
[目的]建立芍药内酯苷的药动学-药效学(PK-PD)模型。[方法]首先采用液质联用法测定大鼠脑缺血再灌注损伤模型给予辛芍组方后的不同时间点所得血浆样本中芍药内酯苷的药物浓度,获得药时曲线;同时采用试剂盒测定不同时间点所得血浆样本中...[目的]建立芍药内酯苷的药动学-药效学(PK-PD)模型。[方法]首先采用液质联用法测定大鼠脑缺血再灌注损伤模型给予辛芍组方后的不同时间点所得血浆样本中芍药内酯苷的药物浓度,获得药时曲线;同时采用试剂盒测定不同时间点所得血浆样本中的超氧化物歧化酶(SOD)和乳酸脱氢酶(LDH)含量,获得时效曲线。然后用Win Non Lin软件采用房室模型的分析方法对芍药内酯苷的药代动力学参数进行拟合,获得PK参数。在此基础之上,固定相关的药代动力学参数,对时效关系进行拟合,得到相关的PD参数,根据PD参数,建立辛芍组方中芍药内酯苷的PK-PD模型。[结果]当以SOD为药效指标时,可得辛芍组方中芍药内酯苷的PK-PD模型为E=21.04+(7.16×Ce)/(Ce+372.4);当以LDH为药效指标时,可得辛芍组方中代表成分芍药内酯苷的PK-PD模型为E=216.83-(37.31×Ce)/(Ce+0.04)。[结论]SOD和LDH的浓度与芍药内酯苷的浓度存在一定的相关性。芍药内酯苷可通过提高SOD、降低LDH发挥抗氧化作用来实现保护脑缺血再灌注损伤。展开更多
目的通过建立阿奇霉素的成人-儿童转化模型,为儿科临床用药提供指导性的建议,降低儿童用药风险,实现儿童临床个性化用药。方法查阅相关文献,利用成人的临床阿奇霉素口服给药试验的受试者生理参数结合阿奇霉素的药物特异参数,通过建立异...目的通过建立阿奇霉素的成人-儿童转化模型,为儿科临床用药提供指导性的建议,降低儿童用药风险,实现儿童临床个性化用药。方法查阅相关文献,利用成人的临床阿奇霉素口服给药试验的受试者生理参数结合阿奇霉素的药物特异参数,通过建立异速生长模型,生理药动学(physiologically based pharmacokinetic,PBPK)模型,根据文献提取的儿童个体口服阿奇霉素临床数据验证这2个模型的参数缩放公式的正确性。进一步利用这2种模型模拟出儿童相关药动学参数并计算出这些参数的相对偏差和相对标准误差。结果通过模拟发现2个模型得到的药动学参数cmax、tmax、AUC0-∞实测值接近,都在文献范围内,可认为2模型的参数转化公式正确。进一步计算参数的相对偏差和相对标准误差,成人-儿童PBPK预测模型的cmax、tmax、AUC0-∞的相对偏差和相对标准误差都比异速生长模型的小。结论阿奇霉素PBPK模型预测儿童药动学参数较异速生长模型要好。本研究所应用的口服用药成人-儿童模型特异性参数的缩放公式,经阿奇霉素验证成功,可以外推至其他药物,为其他口服给药的成人-儿童模型转化提供便利。展开更多
本研究旨在建立辛芍组方中灯盏甲素的PK-PD结合模型。首先采用液质联用法测定大鼠脑缺血再灌注损伤模型给药后的不同时间点所得血浆样本中灯盏甲素的药物浓度,获得药时曲线;同时采用试剂盒测定不同时间点所得血浆样本中的两种药效指标(...本研究旨在建立辛芍组方中灯盏甲素的PK-PD结合模型。首先采用液质联用法测定大鼠脑缺血再灌注损伤模型给药后的不同时间点所得血浆样本中灯盏甲素的药物浓度,获得药时曲线;同时采用试剂盒测定不同时间点所得血浆样本中的两种药效指标(SOD和LDH),获得时效曲线。然后用Win Non Lin软件采用房室模型的分析方法对灯盏甲素的药代动力学参数进行拟合,获得PK参数。在此基础之上,固定相关的药代动力学参数,对时效关系进行拟合,得到相关的PD参数,根据PD参数,建立辛芍组方中灯盏甲素的PK-PD结合模型。当以SOD为药效指标时,可得辛芍组方中灯盏甲素的PK-PD模型为E=20.67+(1.22×Ce)/(Ce+5.58);当以LDH为药效指标时,可得辛芍组方中代表成分灯盏甲素的PK-PD模型为E=214.17-(32.72×Ce)/(Ce+0.08)。结果表明,SOD和LDH的浓度与灯盏甲素的浓度存在一定的相关性。辛芍组方及其主要活性成分灯盏甲素可通过提高SOD、降低LDH发挥抗氧化作用来实现保护脑缺血再灌注损伤。展开更多
目的:基于药动学(pharmacokinetics,PK)/药效学(pharmacodynamics,PD)模型和蒙特卡洛模拟(Mote Carlo simulation,MCS),分析大肠埃希菌所致脓毒症休克患者抗感染治疗方案的优化过程,为临床感染患者构建合理有效的治疗方案提供参考。方法...目的:基于药动学(pharmacokinetics,PK)/药效学(pharmacodynamics,PD)模型和蒙特卡洛模拟(Mote Carlo simulation,MCS),分析大肠埃希菌所致脓毒症休克患者抗感染治疗方案的优化过程,为临床感染患者构建合理有效的治疗方案提供参考。方法:一患者因不明原因发热入院,初步诊断为尿路感染和脓毒症休克。入院后第一时间完善了相关实验室检查,随后采用PK/PD模型和MCS依据微生物培养结果及其药敏试验确定最优的抗感染治疗方案。结果:入院第3天,微生物培养检出大肠埃希菌,随后的药敏试验提示其对美罗培南、亚胺培南敏感,而对头孢哌酮-舒巴坦钠中介;采用PK/PD模型和MCS对拟定的几个抗感染治疗方案进行分析,结果发现美罗培南(1 g,q8h)和亚胺培南(0.5 g,q6h)的达标概率(probability of target attainment,PTA)均为100.00%,而头孢哌酮-舒巴坦钠(3 g,q12h)的PTA为1.14%,头孢哌酮-舒巴坦钠(3 g,q8h)的PTA为7.65%;最终,临床选择了美罗培南(1 g,q8h)治疗,1周后患者的感染指征基本消失。结论:PK/PD模型和MCS两个工具可以较好地帮助临床药师预测抗感染治疗方案的可能效果,从而更好地协助医生制定和优化治疗方案,进而最大程度保证患者的治疗效果。展开更多
文摘In this study,we aimed to develop and evaluate a whole-body physiologically based pharmacokinetic(WB-PBPK)/pharmacodynamic(PD)model for saxagliptin,simulate its pharmacokinetic and pharmacodynamic properties in healthy adults and patients with hepatic function impairment,and provide a new method for the research to the clinical pharmacy of special patients.Based on the drug-specific properties,such as log D,plasma protein binding collected by the published literature,the WB-PBPK model and the PD model were established.After comparing the simulated concentration-time profiles and the pharmacokinetic parameters with data in healthy adults from oral and intravenous clinical investigation,the WB-PBPK model could be optimized.After comparing the simulated DPP-4 inhibition profile with the observed pharmacodynamic in healthy subjects,the PD model could be optimized.The PK/PD model was utilized to predict the mean and variability of the pharmacokinetic and pharmacodynamic profiles in subjects with different hepatic impairment.All of the predicted pharmacokinetic curves were comparable to the observed curves both in healthy subjects and hepatic impairment subjects(Cmax and AUC were less than 1.3-fold).The predicted pharmacodynamic curves were comparable to the observed ones in different oral dosage after optimization,and pharmacodynamics of saxagliptin in hepatic impairment subjects were predicted successfully.The WB-PBPK/PD model can accurately simulate the pharmacokinetics and pharmacodynamics of saxagliptin in normal adults and different hepatic impaired patients.
文摘[目的]建立芍药内酯苷的药动学-药效学(PK-PD)模型。[方法]首先采用液质联用法测定大鼠脑缺血再灌注损伤模型给予辛芍组方后的不同时间点所得血浆样本中芍药内酯苷的药物浓度,获得药时曲线;同时采用试剂盒测定不同时间点所得血浆样本中的超氧化物歧化酶(SOD)和乳酸脱氢酶(LDH)含量,获得时效曲线。然后用Win Non Lin软件采用房室模型的分析方法对芍药内酯苷的药代动力学参数进行拟合,获得PK参数。在此基础之上,固定相关的药代动力学参数,对时效关系进行拟合,得到相关的PD参数,根据PD参数,建立辛芍组方中芍药内酯苷的PK-PD模型。[结果]当以SOD为药效指标时,可得辛芍组方中芍药内酯苷的PK-PD模型为E=21.04+(7.16×Ce)/(Ce+372.4);当以LDH为药效指标时,可得辛芍组方中代表成分芍药内酯苷的PK-PD模型为E=216.83-(37.31×Ce)/(Ce+0.04)。[结论]SOD和LDH的浓度与芍药内酯苷的浓度存在一定的相关性。芍药内酯苷可通过提高SOD、降低LDH发挥抗氧化作用来实现保护脑缺血再灌注损伤。
文摘目的通过建立阿奇霉素的成人-儿童转化模型,为儿科临床用药提供指导性的建议,降低儿童用药风险,实现儿童临床个性化用药。方法查阅相关文献,利用成人的临床阿奇霉素口服给药试验的受试者生理参数结合阿奇霉素的药物特异参数,通过建立异速生长模型,生理药动学(physiologically based pharmacokinetic,PBPK)模型,根据文献提取的儿童个体口服阿奇霉素临床数据验证这2个模型的参数缩放公式的正确性。进一步利用这2种模型模拟出儿童相关药动学参数并计算出这些参数的相对偏差和相对标准误差。结果通过模拟发现2个模型得到的药动学参数cmax、tmax、AUC0-∞实测值接近,都在文献范围内,可认为2模型的参数转化公式正确。进一步计算参数的相对偏差和相对标准误差,成人-儿童PBPK预测模型的cmax、tmax、AUC0-∞的相对偏差和相对标准误差都比异速生长模型的小。结论阿奇霉素PBPK模型预测儿童药动学参数较异速生长模型要好。本研究所应用的口服用药成人-儿童模型特异性参数的缩放公式,经阿奇霉素验证成功,可以外推至其他药物,为其他口服给药的成人-儿童模型转化提供便利。
文摘本研究旨在建立辛芍组方中灯盏甲素的PK-PD结合模型。首先采用液质联用法测定大鼠脑缺血再灌注损伤模型给药后的不同时间点所得血浆样本中灯盏甲素的药物浓度,获得药时曲线;同时采用试剂盒测定不同时间点所得血浆样本中的两种药效指标(SOD和LDH),获得时效曲线。然后用Win Non Lin软件采用房室模型的分析方法对灯盏甲素的药代动力学参数进行拟合,获得PK参数。在此基础之上,固定相关的药代动力学参数,对时效关系进行拟合,得到相关的PD参数,根据PD参数,建立辛芍组方中灯盏甲素的PK-PD结合模型。当以SOD为药效指标时,可得辛芍组方中灯盏甲素的PK-PD模型为E=20.67+(1.22×Ce)/(Ce+5.58);当以LDH为药效指标时,可得辛芍组方中代表成分灯盏甲素的PK-PD模型为E=214.17-(32.72×Ce)/(Ce+0.08)。结果表明,SOD和LDH的浓度与灯盏甲素的浓度存在一定的相关性。辛芍组方及其主要活性成分灯盏甲素可通过提高SOD、降低LDH发挥抗氧化作用来实现保护脑缺血再灌注损伤。
