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A Removable Hybrid Robot System for Long Bone Fracture Reduction

Tianmiao Wang, Changsheng Li, Lei Hu, Peifu Tang, Lihai Zhang, Hailong Du, Sheng Luan, Lifeng Wang, Yiming Tan, Peng Cheng

发表年份
2014
引用次数
23

摘要

In traditional long bone fracture reduction surgery, there are some drawbacks such as low accuracy, high radiation for surgeons and a risk of infection. To overcome these disadvantages, a removable hybrid robot system is developed, which integrates a removable series-parallel mechanism with a motor-double cylinder (MDC) driven mode. This paper describes the mechanism in detail, analyses the principle and the method of the fracture reduction, presents the surgical procedure, and verifies the reduction accuracy by experiments with bone models. The results are shown as follows. The mean deviations of the axial displacement and lateral displacement are 1.60mm and 1.26 mm respectively. The standard deviations are 0.69 mm and 0.30 mm. The mean deviations of the side angle and turn inward are 2.06° and 2.22° respectively. The standard deviations are 0.50° and 0.99°. This minimally invasive robot features high accuracy and zero radiation for surgeons, and is able to conduct fracture reduction for long bones.

关键词

Reduction (mathematics)Displacement (psychology)Standard deviationMechanism (biology)Fracture (geology)RobotComputer scienceCylinderSimulationBiomedical engineering

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