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在完全麻醉的甲型血友病小鼠中建立尾静脉横断出血模型——两种新型FVIII分子的特性研究

Development of a tail vein transection bleeding model in fully anaesthetized haemophilia A mice - characterization of two novel FVIII molecules.

作者信息

Johansen P B, Tranholm M, Haaning J, Knudsen T

机构信息

Global Research, Novo Nordisk A/S, Måløv, Denmark.

Global Development, Novo Nordisk A/S, Måløv, Denmark.

出版信息

Haemophilia. 2016 Jul;22(4):625-31. doi: 10.1111/hae.12907. Epub 2016 Mar 3.

DOI:10.1111/hae.12907
PMID:26936336
Abstract

INTRODUCTION

The tail tip bleeding model and the tail vein transection survival model in mice are important tools for assessment of in vivo effect in haemostasis research. While the tail vein transection model exhibits the best sensitivity to pharmacological intervention it uses death or near-death as endpoint which is fully avoided in the tail tip bleeding model.

AIM

The aim of this study was to develop a new tail bleeding model maintaining the sensitivity of the previous survival model but avoiding death/near-death as endpoint.

METHODS

Combining the two existing tail bleeding models we developed an optimized version of the survival model with full anaesthetic coverage and short duration of experiments. Using this model, we characterized the effect of turoctocog alfa, a B-domain truncated FVIII molecule (NovoEight(®) ), as well as the prolonged half-life version of the same molecule (turoctocog alfa pegol, N8-GP).

RESULTS

Data showed that the model was sensitive to clinically relevant doses of both turoctocog alfa as well as N8-GP when dosed for 'on demand' treatment. The model also correctly identified a longer duration of effect for N8-GP compared with turoctocog alfa. Moreover, the model allowed the use of mice of both genders and was reproducible over time.

CONCLUSION

The optimized tail vein transection bleeding model is sensitive to standard as well as half-life prolonged FVIII molecules and should be a valuable alternative to both the tail tip bleeding model, enhancing sensitivity to pharmacological intervention, as well as to the previously used tail vein transection survival model, avoiding death or near-death as endpoint.

摘要

引言

小鼠尾尖出血模型和尾静脉横断存活模型是止血研究中评估体内效应的重要工具。虽然尾静脉横断模型对药物干预表现出最佳敏感性,但它以死亡或濒死作为终点,而尾尖出血模型完全避免了这一点。

目的

本研究的目的是开发一种新的尾部出血模型,保持先前存活模型的敏感性,但避免以死亡/濒死作为终点。

方法

结合现有的两种尾部出血模型,我们开发了一种优化的存活模型版本,具有完全麻醉覆盖和较短的实验持续时间。使用该模型,我们表征了B结构域截短的FVIII分子(诺和凝血八因子(NovoEight®))以及同一分子的延长半衰期版本(聚乙二醇化重组人凝血因子VIII,N8-GP)的作用。

结果

数据表明,当按“按需”治疗给药时,该模型对诺和凝血八因子以及N8-GP的临床相关剂量敏感。该模型还正确识别出与诺和凝血八因子相比,N8-GP的作用持续时间更长。此外,该模型允许使用两种性别的小鼠,并且随时间具有可重复性。

结论

优化后的尾静脉横断出血模型对标准以及半衰期延长的FVIII分子敏感,应该是尾尖出血模型(提高对药物干预的敏感性)以及先前使用的尾静脉横断存活模型(避免以死亡或濒死作为终点)的有价值替代方案。

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