Health & Disability Research Institute, Boston University School of Public Health, Boston, MA; MGH Institute of Health Professions, Boston, MA.
Health & Disability Research Institute, Boston University School of Public Health, Boston, MA.
Arch Phys Med Rehabil. 2018 Sep;99(9):1783-1788. doi: 10.1016/j.apmr.2018.02.014. Epub 2018 Mar 31.
To examine the ability of the Spinal Cord Injury-Functional Index/Assistive Technology (SCI-FI/AT) measure to detect change in persons with spinal cord injury (SCI).
Multisite longitudinal (12-mo follow-up) study.
Nine SCI Model Systems programs.
Adults (N=165) with SCI enrolled in the SCI Model Systems database.
Not applicable.
SCI-FI/AT computerized adaptive test (CAT) (Basic Mobility, Self-Care, Fine Motor Function, Wheelchair Mobility, and/or Ambulation domains) completed at discharge from rehabilitation and 12 months after SCI. For each domain, effect size estimates and 95% confidence intervals were calculated for subgroups with paraplegia and tetraplegia.
The demographic characteristics of the sample were as follows: 46% (n=76) individuals with paraplegia, 76% (n=125) male participants, 57% (n=94) used a manual wheelchair, 38% (n=63) used a power wheelchair, 30% (n=50) were ambulatory. For individuals with paraplegia, the Basic Mobility, Self-Care, and Ambulation domains of the SCI-FI/AT detected a significantly large amount of change; in contrast, the Fine Motor Function and Wheelchair Mobility domains detected only a small amount of change. For those with tetraplegia, the Basic Mobility, Fine Motor Function, and Self-Care domains detected a small amount of change whereas the Ambulation item domain detected a medium amount of change. The Wheelchair Mobility domain for people with tetraplegia was the only SCI-FI/AT domain that did not detect significant change.
SCI-FI/AT CAT item banks detected an increase in function from discharge to 12 months after SCI. The effect size estimates for the SCI-FI/AT CAT vary by domain and level of lesion. Findings support the use of the SCI-FI/AT CAT in the population with SCI and highlight the importance of multidimensional functional measures.
检验脊髓损伤功能指数/辅助技术(SCI-FI/AT)测量在脊髓损伤(SCI)患者中的变化能力。
多地点纵向(12 个月随访)研究。
九个脊髓损伤模型系统计划。
参与脊髓损伤模型系统数据库的 SCI 成人(N=165)。
不适用。
在康复出院时和 SCI 后 12 个月使用 SCI-FI/AT 计算机自适应测试(CAT)(基本移动、自理、精细运动功能、轮椅移动和/或行走域)完成。对于每个域,为截瘫和四肢瘫亚组计算效应大小估计值和 95%置信区间。
样本的人口统计学特征如下:46%(n=76)截瘫患者,76%(n=125)男性参与者,57%(n=94)使用手动轮椅,38%(n=63)使用电动轮椅,30%(n=50)能行走。对于截瘫患者,SCI-FI/AT 的基本移动、自理和行走域检测到显著的大量变化;相比之下,精细运动功能和轮椅移动域仅检测到少量变化。对于四肢瘫患者,基本移动、精细运动功能和自理域检测到少量变化,而行走项域检测到中等量的变化。四肢瘫患者的轮椅移动域是唯一没有检测到明显变化的 SCI-FI/AT 域。
SCI-FI/AT CAT 项目库检测到从出院到 SCI 后 12 个月功能的增加。SCI-FI/AT CAT 的效应大小估计值因域和损伤程度而异。研究结果支持在 SCI 人群中使用 SCI-FI/AT CAT,并强调多维功能测量的重要性。
