Department of Physical and Rehabilitation Medicine, Center for Prevention and Rehabilitation, Heart Vascular Stroke Institute, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Republic of Korea.
Department of Rehabilitation Medicine, College of Medicine, Chungnam National University, Daejeon, Republic of Korea.
JAMA Netw Open. 2022 Sep 1;5(9):e2233094. doi: 10.1001/jamanetworkopen.2022.33094.
Because stroke causes diverse functional deficits, understanding the long-term recovery pattern of each functional domain may inform prognosis and therapeutic strategies.
To observe long-term changes in functional status and residual disability in survivors of first-time stroke.
DESIGN, SETTING, AND PARTICIPANTS: This cohort study was an interim analysis of the Korean Stroke Cohort for Functioning and Rehabilitation. Between August 2012 and May 2015, 7858 of 10 636 screened patients with first-time strokes from 9 district hospitals in Korea provided informed consent to participate. Data were analyzed from September 2021 through February 2022.
First-time stroke.
Study data include multifaceted face-to-face functional assessments obtained at 8 to 9 points until 60 months after stroke onset. The Korean Mini-Mental State Examination (K-MMSE), Fugl-Meyer Assessment, Functional Ambulatory Category, American Speech-Language-Hearing Association National Outcome Measurement System Swallowing Scale, and Short Korean version of the Frenchay Aphasia Screening Test were performed from 7 days to 60 months after stroke. The Korean Modified Barthel Index was measured from 3 months to 60 months after stroke.
A total of 4443 patients (2649 men [59.62%]; mean [SD] age 62.13 [12.43] years) who underwent repeated functional assessments for 60 months after stroke (3508 patients with ischemic and 935 patients with hemorrhagic stroke) were included. Overall, functions plateaued between 12 and 18 months after stroke and declined after 30 months; for example, mean (SD) K-MMSE improved from 7 days (22.89 [7.89]) to 12 months (26.03 [5.48]) (P < .001), plateaued until 36 months (26.03 [5.84]), and decreased to 48 months (26.02 [5.82]) (P < .001). Interaction associations were found between time after stroke and age, stroke severity, and stroke type in functional assessment outcomes. For example, mean (SE) FMA for ages 65 years or younger vs older than 65 years was 81.64 (0.63) vs 80.69 (0.68) at 7 days and 91.28 (0.47) vs 88.46 (0.58) at 6 months (P for interaction < .001), and for IS vs HS, it was 84.46 (0.47) vs 69.02 (1.24) at 7 days and 91.20 (0.38) vs 85.51 (0.98) at 6 months (P for interaction < .001). Mean (SE) FMA was 94.39 (0.21) at 7 days and 97.57 (0.14) at 6 months for mild stroke, 44.69 (1.18) at 7 days and 70.43 (1.21) at 6 months for moderate stroke, and 13.22 (0.99) at 7 days and 48.07 (2.62) at 6 months for severe stroke (P for interaction < .001). Factors associated with activities of daily living independence at 60 months included older age (β per 1-year increase = -0.35; standard error [SE], 0.03; P < .001), male sex (β = 2.12; SE, 0.73; P = .004), and hemorrhagic stroke type (β vs ischemic stroke = 2.35; SE, 0.81; P = .004).
This study found that long-term recovery patterns in multifaceted functional domains differed from one another and varied by patient age, stroke severity, and stroke type. Understanding the diversity of long-term functional recovery patterns and factors associated with these outcomes in survivors of stroke may help clinicians develop strategies for effective stroke care and rehabilitation.
由于中风导致多种功能障碍,了解每个功能领域的长期恢复模式可能有助于预后和治疗策略的制定。
观察首次中风幸存者的功能状态和残留残疾的长期变化。
设计、地点和参与者:这是一项队列研究,是韩国中风功能与康复队列的中期分析。2012 年 8 月至 2015 年 5 月期间,从韩国的 9 家地区医院筛选出的 10636 名首次中风患者中,有 7858 名患者提供了知情同意书,参与了这项研究。数据的分析时间为 2021 年 9 月至 2022 年 2 月。
首次中风。
研究数据包括从中风后 7 天到 60 个月进行的多方面面对面功能评估。从中风后 7 天到 60 个月,进行了韩国简易精神状态检查(K-MMSE)、Fugl-Meyer 评估、功能性步行分类、美国言语语言听力协会国家结局测量系统吞咽量表和短版法国失语症筛查测试。中风后 3 个月至 60 个月进行了韩国改良巴氏量表的测量。
共纳入 4443 名患者(2649 名男性[59.62%];平均[标准差]年龄 62.13[12.43]岁),这些患者在中风后 60 个月内进行了重复的功能评估(3508 名缺血性中风患者和 935 名出血性中风患者)。总体而言,中风后 12 至 18 个月之间功能趋于稳定,30 个月后开始下降;例如,K-MMSE 的平均值(标准差)从 7 天(22.89[7.89])改善到 12 个月(26.03[5.48])(P < .001),在 36 个月时趋于稳定(26.03[5.84]),并在 48 个月时下降到 26.02[5.82])(P < .001)。在功能评估结果中,发现时间与年龄、中风严重程度和中风类型之间存在交互关联。例如,年龄在 65 岁及以下与年龄在 65 岁以上的患者的 FMA 平均值(SE)分别为 7 天时 81.64(0.63)和 80.69(0.68),6 个月时分别为 91.28(0.47)和 88.46(0.58)(P 值< .001),IS 与 HS 相比,7 天时分别为 84.46(0.47)和 69.02(1.24),6 个月时分别为 91.20(0.38)和 85.51(0.98)(P 值< .001)。轻度中风患者的 FMA 平均值(SE)为 7 天时 94.39(0.21),6 个月时 97.57(0.14);中度中风患者的 FMA 平均值(SE)为 7 天时 44.69(1.18),6 个月时 70.43(1.21);重度中风患者的 FMA 平均值(SE)为 7 天时 13.22(0.99),6 个月时 48.07(2.62)(P 值< .001)。与 60 个月时日常生活活动独立相关的因素包括年龄较大(每增加 1 岁的β值为-0.35;标准误差[SE]为 0.03;P < .001)、男性(β值为 2.12;SE 为 0.73;P = .004)和出血性中风类型(与缺血性中风相比,β值为 2.35;SE 为 0.81;P = .004)。
本研究发现,多方面功能领域的长期恢复模式存在差异,且因患者年龄、中风严重程度和中风类型而异。了解中风幸存者长期功能恢复模式的多样性以及这些结果的相关因素,可能有助于临床医生制定有效的中风护理和康复策略。
