基于 X 射线图像的双平面双支撑螺钉内固定技术治疗年轻患者的 Pauwels III 型股骨颈骨折

IF 1.7 4区医学 Q3 ENGINEERING, BIOMEDICAL

Medical Engineering & Physics Pub Date : 2024-03-01 DOI:10.1016/j.medengphy.2024.104135

Diping Cao , Jie Yin , Pei Yu , Chao Li , Hantao Yuan , Wenbo Sheng , Sibo Li

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引用次数: 0

摘要

传统的治疗方法存在一定的局限性。近年来，人们提出了基于 X 射线图像的双平面双支撑螺钉内固定技术，以提高治疗效果。本研究的主要目的是探讨基于 X 射线图像的双平面双支撑螺钉内固定技术的有效性。在手术过程中，根据 X 光图像确定手术方法，然后在骨折部位进行切开复位手术，最后使用双平面双支撑螺钉进行内固定。所有患者都成功接受了基于X光图像的双平面双支撑螺钉固定术。术后，X 光图像显示骨折部位缩小良好，无明显松动或内固定失败。术后随访显示，患者的疼痛症状明显缓解，恢复期间未出现明显并发症。

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Treatment of Pauwels III femoral neck fracture in young patients using biplane double support screw internal fixation technology based on X-ray image

Traditional treatment methods have certain limitations. In recent years, the technique of internal fixation with double-plane double-supported screws based on X-ray images has been proposed to improve the therapeutic effect. The main objective of this research was to examine the effectiveness of the X-ray image-based bi-planar double-braced screw internal fixation technique . During surgery, the procedure was determined based on X-ray images, followed by an open reduction procedure at the fracture site, and finally internal fixation using bi-planar double-support screws. All patients were successfully treated with X-ray image-based bi-planar double support screw fixation. After surgery, X-ray images showed a good reduction of the fracture site without significant loosening or failure of the internal fixation. At the postoperative follow-up, the patient's pain symptoms were significantly relieved, and no significant complications occurred during recovery.

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来源期刊

Medical Engineering & Physics 工程技术-工程：生物医学

CiteScore

4.30

自引率

4.50%

发文量

172

审稿时长

3.0 months

期刊介绍： Medical Engineering & Physics provides a forum for the publication of the latest developments in biomedical engineering, and reflects the essential multidisciplinary nature of the subject. The journal publishes in-depth critical reviews, scientific papers and technical notes. Our focus encompasses the application of the basic principles of physics and engineering to the development of medical devices and technology, with the ultimate aim of producing improvements in the quality of health care.Topics covered include biomechanics, biomaterials, mechanobiology, rehabilitation engineering, biomedical signal processing and medical device development. Medical Engineering & Physics aims to keep both engineers and clinicians abreast of the latest applications of technology to health care.