PEGASOS - A New Linking Mechanism for Modular Osteosynthesis Plates in Minimally Invasive Acetabular Surgery

IF 0.8 4区 医学 Q4 ENGINEERING, BIOMEDICAL
A. Trulson, M. Küper, Artur Leis, U. Stöckle, F. Stuby, M. Hossfeld
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引用次数: 0

Abstract

Background: Recently presented minimally invasive endoscopic surgical techniques demonstrated the feasibility of implanting standard osteosynthesis plates for pelvic fractures. The reconstruction and internal fixation of complex acetabular fractures is still challenging. The goal of this study is to introduce a divisible implant, with a positive-locking in situ linking mechanism for plate osteosynthesis, making it possible to stabilize large and complex acetabular fractures with involvement of the quadrilateral surface. Method: Standard implants were used to recreate a base design. Using computer aided design (CAD), a three-dimensional standard implant was divided into two parts, so they could be re-allocated in situ. A critical objective was to reduce the cross-section of each part (clearance gauge). To connect the separated parts in situ, a new linking mechanism (cone in cone) was created. The new construct also features self-stabilization, self-centering, reinforced positional movement and preloading effects. Results: A linking system for plate osteosynthesis was developed entitled PEGASOS ("Percutaneous Endoscopic Guided Acetabulum-Stabilizing Osteosynthesis System"). Endoscopic implantation and in-situ-linking could be performed in a human cadaver. Therefore, we could demonstrate, that buttressing the quadrilateral surface of the acetabulum could be performed minimally invasive using a divisible suprapectineal buttress plate. Conclusion: We created a linking mechanism to couple two plates in situ. This mechanism enables an extremely strong, positive-locking connection, whereas its geometric shape allows for different relative movements during the locking procedure, with a single screw.
PEGASOS-微创髋臼手术中模块化接骨板的新型连接机制
背景:最近提出的微创内镜手术技术证明了骨盆骨折植入标准骨固定钢板的可行性。复杂髋臼骨折的重建和内固定仍然具有挑战性。本研究的目的是引入一种可分植入物,具有钢板固定的正锁定原位连接机制,使其能够稳定涉及四边形表面的大而复杂的髋臼骨折。方法:采用标准种植体重建基底设计。利用计算机辅助设计(CAD)将三维标准种植体分成两部分,使其可以在原位重新分配。一个关键的目标是减少每个零件的横截面(间隙规)。为了在原位连接分离的部件,创建了一种新的连接机构(锥对锥)。新结构还具有自稳定,自定心,加强位置运动和预加载效果。结果:开发了一种名为PEGASOS(经皮内镜引导髋臼稳定骨合成系统)的钢板固定连接系统。内窥镜植入和原位连接可以在人体尸体上进行。因此,我们可以证明,使用可分割的耻骨上支撑板可以微创地支撑髋臼四边形表面。结论:我们建立了一种连接机制来原位耦合两个板。该机构实现了非常坚固的正向锁定连接,而其几何形状允许在锁定过程中使用单个螺钉进行不同的相对运动。
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来源期刊
CiteScore
1.80
自引率
11.10%
发文量
56
审稿时长
6-12 weeks
期刊介绍: The Journal of Medical Devices presents papers on medical devices that improve diagnostic, interventional and therapeutic treatments focusing on applied research and the development of new medical devices or instrumentation. It provides special coverage of novel devices that allow new surgical strategies, new methods of drug delivery, or possible reductions in the complexity, cost, or adverse results of health care. The Design Innovation category features papers focusing on novel devices, including papers with limited clinical or engineering results. The Medical Device News section provides coverage of advances, trends, and events.
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