Surgical Simulations to Optimize the Treatment of Wrist Osteoarthritis

优化腕骨关节炎治疗的手术模拟

• 批准号: 8387091
• 负责人: Jennifer A. Nichols
• 金额: $ 3.51万
• 依托单位: NORTHWESTERN UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-03-01 至 2015-02-28
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8387091
• 关键词: Activities of Daily Living; Affect; Arthritis; Arthroplasty; Articular Range of Motion; Biomechanics; Cadaver; Clinical; Complex; Complication; Computer Simulation; Consensus; Contralateral; Data; Degenerative Disorder; Degenerative polyarthritis; Distal; Educational process of instructing; Excision; Fiber; Flexor; Hand; Hand Strength; Hand functions; Height; Hip region structure; Impairment; Implant; Joints; Knee; Knowledge; Lateral; Lead; Length; Life; Limb structure; Measurement; Measures; Mechanics; Methods; Motion; Muscle; Muscle Fibers; Musculoskeletal; Operative Surgical Procedures; Osteoarthrosis Deformans; Outcome; Pain; Patients; Postoperative Period; Procedures; Protocols documentation; Quality of life; Rehabilitation therapy; Research; Retrospective Studies; Scaphoid bone; Side; Simulate; Specimen; Techniques; Testing; Thumb structure; Torque; Training; Ultrasonography; United States; Work; Wrist; Wrist joint; arm; base; career; design; experience; grasp; human subject; improved; in vivo; interest; kinematics; rehabilitation strategy; research study; simulation; skills

Wrist osteoarthritis is a degenerative disease that causes severe pain. This pain limits functional abilities and frequently causes the inability to work. One of the most reliable methods to reduce pain is surgery. However, current surgical treatments permanently decrease wrist range of motion and grip strength. This loss of grip strength is particularly detrimental because it limits patient's abilities to perform activities ofdaily living, including picking up a saucepan and opening a door. The objective of this proposal is to identify the biomechanical factors that limit grip strength following two procedures to treat osteoarthritis: proximal row carpectomy (PRC) and scaphoid-excision four-corner fusion (SE4CF). PRC and SE4CF are of particular interest because there is no consensus regarding which is better at preserving grip strength, even though there are a large number of retrospective studies comparing these procedures. Additionally, PRC and SE4CF change the biomechanical design of the wrist in different ways, suggesting that different factors limit grip strength following each procedure. In the proposed study, post-operative muscle moment-generating (Aim 1) and force-generating parameters (Aim 2) will be measured and evaluated in the context of post-operative impairments in strength (Aim 3). In Aim 1, a cadaveric experiment will be conducted to measure the muscle moment arms of the primary wrist and extrinsic thumb muscles following simulated PRC and SE4CF. In Aim 2, post-operative muscle fiber length of the primary wrist muscles will be measured in vivo using ultrasound. In Am 3, post-operative wrist and hand strength will be measured in vivo, and these data will be used in musculoskeletal computer models to evaluate how changes in moment arm and fiber length influence wrist, pinch, and grip strength. Completion of this work will improve the scientific understanding of how the design of the wrist influences the forces produced by the hand, and thereby affects hand function. Ultimately, clinicians will be able to use knowledge gained from this study to develop rehabilitation protocols and surgical techniques to overcome post-operative impairments, thereby improving patient outcomes and quality of life. Through this research, the applicant will gain experience in performing experiments involving both cadavers and human subjects as well as using computer modeling to enhance the interpretation of experimental results. The applicant will receive additional training on teaching effectively, collaborating on interdisciplinary teams, and presenting to both scientific and clinical audiences. These experiences will teach the applicant technical and professional skills that are essential for a lifelong research career.

手腕骨关节炎是一种导致剧烈疼痛的退行性疾病。这种疼痛限制了功能能力并经常导致无法工作。减轻疼痛最可靠的方法之一是手术。然而，目前的手术治疗永久地降低了手腕的运动范围和握力。这种握力的丧失特别有害，因为它限制了患者进行日常生活活动的能力，包括拿起平底锅和开门。该提案的目的是确定在治疗骨关节炎的两种手术后限制握力的生物力学因素：近行腕骨切除术（PRC）和舟状骨切除四角融合术（SE4CF）。 PRC 和 SE4CF 特别令人感兴趣，因为尽管有大量回顾性研究比较了这些程序，但对于哪种方法更能更好地保持握力尚未达成共识。此外，PRC 和 SE4CF 以不同的方式改变了手腕的生物力学设计，这表明不同的因素限制了每个手术后的握力。在拟议的研究中，将在术后力量损伤（目标 3）的背景下测量和评估术后肌肉力矩生成（目标 1）和力生成参数（目标 2）。在目标 1 中，将进行尸体实验，以测量模拟 PRC 和 SE4CF 后主要手腕和外在拇指肌肉的肌肉力臂。在目标 2 中，将使用超声波在体内测量主要腕部肌肉的术后肌纤维长度。在 Am 3 中，将在体内测量术后手腕和手部的力量，这些数据将用于肌肉骨骼计算机模型，以评估力臂和纤维长度的变化如何影响手腕、捏力和握力。完成这项工作将提高对手腕设计如何影响手部产生的力，从而影响手部功能的科学理解。最终，临床医生将能够利用从这项研究中获得的知识来制定康复方案和手术技术，以克服术后损伤，从而改善患者的治疗结果和生活质量。 通过这项研究，申请人将获得进行涉及尸体和人类受试者的实验以及使用计算机建模来增强对实验结果的解释的经验。申请人将接受关于有效教学、跨学科团队合作以及向科学和临床观众展示的额外培训。这些经验将教会申请人终生研究生涯所必需的技术和专业技能。