一种新型的 3D 打印外固定鼠后肢关节挛缩模型。

A novel mouse model of hindlimb joint contracture with 3D-printed casts.

机构信息

Department of Orthopedic Surgery, University of California San Francisco, San Francisco, California, USA.

Department of Orthopedic Surgery, San Francisco VA Medical Center, San Francisco, California, USA.

出版信息

J Orthop Res. 2022 Dec;40(12):2865-2872. doi: 10.1002/jor.25313. Epub 2022 Mar 11.

DOI:10.1002/jor.25313

PMID:35266583

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10289010/

Abstract

Stiff joints formed after trauma, surgery or immobilization are frustrating for surgeons, therapists and patients alike. Unfortunately, the study of contracture is limited by available animal model systems, which focus on the utilization of larger mammals and joint trauma. Here we describe a novel mouse-based model system for the generation of joint contracture using 3D-printed clamshell casts. With this model system we are able to generate both reversible and irreversible contractures of the knee and ankle. Four- or 8-month-old female mice were casted for either 2 or 3 weeks before liberation. All groups formed measurable contractures of the knee and ankle. Younger mice immobilized for less time formed reversible contractures of the knee and ankle. We were able to generate irreversible contracture with either longer immobilization time or the utilization of older mice. The contracture formation translated into differences in gait, which were detectable using the DigiGait® analysis system. This novel model system provides a higher throughput, lower cost and more powerful tool in studying the molecular and cellular mechanisms considering the large existing pool of transgenic/knockout murine strains.

摘要

创伤、手术或固定后形成的僵硬关节令外科医生、治疗师和患者都感到沮丧。不幸的是，挛缩的研究受到现有动物模型系统的限制，这些系统侧重于利用较大的哺乳动物和关节创伤。在这里，我们描述了一种使用 3D 打印蛤壳模具产生关节挛缩的新型小鼠模型系统。使用该模型系统，我们能够产生膝关节和踝关节的可逆和不可逆挛缩。4 或 8 月龄的雌性小鼠在释放前分别固定 2 或 3 周。所有组均形成可测量的膝关节和踝关节挛缩。固定时间较短的年轻小鼠形成膝关节和踝关节的可逆挛缩。我们可以通过更长的固定时间或使用年龄较大的小鼠来产生不可逆的挛缩。挛缩的形成转化为步态的差异，这可以使用 DigiGait®分析系统检测到。与大量现有的转基因/敲除小鼠品系相比，这种新型模型系统为研究分子和细胞机制提供了更高的通量、更低的成本和更强大的工具。

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