Deep Learning-Enhanced Hand Grip and Release Test for Degenerative Cervical Myelopathy: Shortening Assessment Duration to 6 Seconds

IF 3.8 2区医学 Q1 CLINICAL NEUROLOGY

Neurospine Pub Date : 2024-03-01 DOI:10.14245/ns.2347326.663

Yongyu Ye, Yunbing Chang, Weihao Wu, Tianying Liao, Tao Yu, Chong Chen, Zhengran Yu, Junying Chen, G. Liang

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引用次数: 0

Abstract

Objective Hand clumsiness and reduced hand dexterity can signal early signs of degenerative cervical myelopathy (DCM). While the 10-second grip and release (10-s G&R) test is a common clinical tool for evaluating hand function, a more accessible method is warranted. This study explores the use of deep learning-enhanced hand grip and release test (DL-HGRT) for predicting DCM and evaluates its capability to reduce the duration of the 10-s G&R test. Methods The retrospective study included 508 DCM patients and 1,194 control subjects. Propensity score matching (PSM) was utilized to minimize the confounding effects related to age and sex. Videos of the 10-s G&R test were captured using a smartphone application. The 3D-MobileNetV2 was utilized for analysis, generating a series of parameters. Additionally, receiver operating characteristic curves were employed to assess the performance of the 10-s G&R test in predicting DCM and to evaluate the effectiveness of a shortened testing duration. Results Patients with DCM exhibited impairments in most 10-s G&R test parameters. Before PSM, the number of cycles achieved the best diagnostic performance (area under the curve [AUC], 0.85; sensitivity, 80.12%; specificity, 74.29% at 20 cycles), followed by average grip time. Following PSM for age and gender, the AUC remained above 0.80. The average grip time achieved the highest AUC of 0.83 after 6 seconds, plateauing with no significant improvement in extending the duration to 10 seconds, indicating that 6 seconds is an adequate timeframe to efficiently evaluate hand motor dysfunction in DCM based on DL-HGRT. Conclusion DL-HGRT demonstrates potential as a promising supplementary tool for predicting DCM. Notably, a testing duration of 6 seconds appears to be sufficient for accurate assessment, enhancing the test more feasible and practical without compromising diagnostic performance.

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针对颈椎退行性病变的深度学习增强型手部握力和释放测试：将评估时间缩短至 6 秒钟

目的手部笨拙和手部灵活性降低可能是颈椎退行性脊髓病（DCM）的早期信号。虽然 10 秒钟握力和释放（10 秒钟 G&R）测试是评估手部功能的常用临床工具，但仍需要一种更方便的方法。本研究探讨了深度学习增强型手部握力和松力测试（DL-HGRT）在预测 DCM 方面的应用，并评估了其缩短 10 秒握力和松力测试时间的能力。方法该回顾性研究包括 508 名 DCM 患者和 1,194 名对照组受试者。研究采用倾向得分匹配法（PSM），以尽量减少与年龄和性别相关的混杂效应。使用智能手机应用程序采集了 10 秒钟 G&R 测试的视频。利用 3D-MobileNetV2 进行分析，生成了一系列参数。此外，还利用接收器操作特征曲线来评估 10 秒 G&R 测试在预测 DCM 方面的性能，并评估缩短测试时间的有效性。结果 DCM 患者的大多数 10 秒 G&R 测试参数都出现了障碍。在 PSM 之前，循环次数的诊断效果最好（曲线下面积 [AUC]，0.85；灵敏度，80.12%；特异性，74.29%，20 个循环），其次是平均握力时间。对年龄和性别进行 PSM 后，AUC 仍保持在 0.80 以上。平均握力时间在 6 秒后达到最高的 AUC，为 0.83，在持续时间延长到 10 秒后趋于平稳，没有明显改善，这表明 6 秒是基于 DL-HGRT 有效评估 DCM 手部运动功能障碍的适当时间范围。结论 DL-HGRT 具有作为预测 DCM 的辅助工具的潜力。值得注意的是，6 秒钟的测试时间似乎足以进行准确评估，从而在不影响诊断效果的情况下提高了测试的可行性和实用性。

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来源期刊

Neurospine Multiple-

CiteScore

5.80

自引率

18.80%

发文量

审稿时长

10 weeks