基于\(^{41}Ca\)的药代动力学模型在人类骨重建研究中的开发。

Development of 41Ca-based pharmacokinetic model for the study of bone remodelling in humans.

机构信息

Department of Therapeutic Radiology, University of Minnesota, Twin Cities, Minneapolis, Minnesota 55455, USA.

出版信息

Clin Pharmacokinet. 2011 Mar;50(3):191-9. doi: 10.2165/11537840-000000000-00000.

DOI:10.2165/11537840-000000000-00000

PMID:21294596

Abstract

BACKGROUND AND OBJECTIVE

Initial studies show that 41Ca may be employed as a useful diagnostic bioassay for monitoring metabolic bone disease and its treatment management. The 41Ca-based pharmacokinetic model is developed to assess its feasibility in monitoring bone disease and clinical responsiveness to therapeutic regimens.

METHODS

A four-compartment calcium kinetic model is developed to interpret the results of clinically measured 41Ca tracer kinetics for oral and intravenous dose. This model is extended to simulate changes in bone turnover due to osteoporosis by using Gompertzian function with and without cellular accommodation. The rate constants obtained by fitting to the experimental data on drug intervention are used to simulate the impact of strategic treatment intervention.

RESULTS

The present model fits well with the available experimental data on 41Ca tracer kinetics. In the simulated osteoporotic model, the negative bone balance (i.e. bone loss) reflected by 41Ca/Ca urine ratio is used to demonstrate slow/fast increase over time compared to the normal state. The cellular accommodation impact is reflected by a recovery from perturbed balance. The model's predictive ability on the impact of therapeutic intervention is verified using published experimental data. The effect of bisphosphonate intervention results in positive bone balance (i.e. bone gain).

CONCLUSION

The four-compartment 41Ca tracer kinetic model can be flexibly used in the interpretation of results obtained from ongoing clinical studies.

摘要

背景与目的

初步研究表明，41Ca 可作为监测代谢性骨病及其治疗管理的有用诊断生物标志物。本文建立了基于 41Ca 的药代动力学模型，以评估其在监测骨病和临床对治疗方案反应方面的可行性。

方法

建立了一个四室钙动力学模型，以解释口服和静脉剂量临床测量 41Ca 示踪动力学的结果。该模型通过使用带有和不带有细胞适应的 Gompertz 函数扩展到模拟骨质疏松引起的骨转换变化。通过拟合药物干预的实验数据获得的速率常数用于模拟策略性治疗干预的影响。

结果

本模型与现有的 41Ca 示踪动力学实验数据拟合良好。在模拟骨质疏松模型中，41Ca/Ca 尿比值反映的负骨平衡（即骨丢失）与正常状态相比，随时间呈现缓慢/快速增加。细胞适应的影响通过从失衡中恢复来反映。使用已发表的实验数据验证了模型对治疗干预影响的预测能力。双膦酸盐干预的效果导致正骨平衡（即骨增益）。

结论

四室 41Ca 示踪动力学模型可灵活用于解释正在进行的临床研究中获得的结果。

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基于\(^{41}Ca\)的药代动力学模型在人类骨重建研究中的开发。

Development of 41Ca-based pharmacokinetic model for the study of bone remodelling in humans.

机构信息

出版信息

BACKGROUND AND OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景与目的

方法

结果

结论

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