External Validation of a Dynamic Prediction Model for Upper Limb Function After Stroke

IF 1.9 Q2 REHABILITATION Archives of rehabilitation research and clinical translation Pub Date : 2024-03-01 DOI:10.1016/j.arrct.2023.100315

Iris C. Brunner PhD , Eleni-Rosalina Andrinopoulou PhD , Ruud Selles PhD , Camilla Biering Lundquist PhD , Asger Roer Pedersen PhD

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Abstract

Objective

To externally validate the dynamic prediction model for prediction of upper limb (UL) function 6 months after stroke. The dynamic prediction model has been developed and cross-validated on data from 4 Dutch studies.

Design

Data from a prospective Danish cohort study were used to assess prediction accuracy.

Setting

A Danish neurorehabilitation hospital.

Participants

In this external validation study, follow-up data for 80 patients in the subacute phase after stroke (N=80), mean age 64 (SD11), 43% women, could be obtained. They were assessed at 2 weeks, 3 months, and 6 months after stroke with the Action Research Arm Test (ARAT), Fugl-Meyer Motor Assessment upper limb (FMA), and Shoulder Abduction (SA) Finger Extension (FE), (SAFE) test.

Intervention

Not applicable.

Main Outcome Measures

Prediction accuracy at 6 months was examined for 3 categories of ARAT (0-57 points): mild (48-57), moderate (23-47), and severe (0-22). Two individual predictions of ARAT scores at ±6 months post-stroke were computed based on, respectively, baseline (2 weeks) and 3 months ARAT, FE, SA values. The absolute individual differences between observed and predicted ARAT scores were summarized.

Results

The prediction model performed best for patients with relatively good UL motor function, with an absolute error median (IQR) of 3 (2-9), and worst for patients with severe UL impairment, with a median (IQR) of 30 (3-39) at baseline. In general, prediction accuracy substantially improved when data obtained 3 months after stroke was included compared with baseline at 2 weeks after stroke.

Conclusion

We found limited clinical usability due to the lack of prediction accuracy 2 weeks after stroke and for patients with severe UL impairments. The dynamic prediction model could probably be refined with data from biomarkers.

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中风后上肢功能动态预测模型的外部验证

目的对预测中风后 6 个月上肢（UL）功能的动态预测模型进行外部验证。设计丹麦前瞻性队列研究的数据用于评估预测的准确性。参与者在这项外部验证研究中，获得了 80 名中风后亚急性期患者的随访数据（N=80），平均年龄 64 岁（SD11），女性占 43%。干预措施不适用。主要结果测量对 ARAT（0-57 分）的 3 个类别：轻度（48-57 分）、中度（23-47 分）和重度（0-22 分）在 6 个月时的预测准确性进行了检查。根据基线（2 周）和 3 个月的 ARAT、FE、SA 值，分别计算出中风后±6 个月时 ARAT 评分的两个个体预测值。结果预测模型在 UL 运动功能相对较好的患者中表现最好，绝对误差中位数（IQR）为 3（2-9），而在 UL 功能严重受损的患者中表现最差，基线绝对误差中位数（IQR）为 30（3-39）。总的来说，与卒中后 2 周的基线相比，卒中后 3 个月的数据大大提高了预测准确性。动态预测模型可以通过生物标记物数据进行改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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