Physical Therapy, Radford University, Radford, Virginia, USA.
Neuroscience, Northwestern University, Evanston, Illinois, USA.
J Neuroeng Rehabil. 2024 Jun 8;21(1):99. doi: 10.1186/s12984-024-01397-8.
Accurate perception of tactile stimuli is essential for performing and learning activities of daily living. Through this scoping review, we sought to summarize existing examination approaches for identifying tactile deficits at the upper extremity in individuals with stroke. The goal was to identify current limitations and future research needs for designing more comprehensive examination tools.
A scoping review was conducted in accordance with the Joanna Briggs Institute methodological framework and the PRISMA for Scoping Reviews (PRISMA-ScR) guidelines. A database search for tactile examination approaches at the upper extremity of individuals with stroke was conducted using Medline (Ovid), The Cochrane Library (Wiley), CINAHL Plus with Full Text (Ebsco), Scopus (Elsevier), PsycInfo (Ebsco), and Proquest Dissertations and Theses Global. Original research and review articles that involved adults (18 years or older) with stroke, and performed tactile examinations at the upper extremity were eligible for inclusion. Data items extracted from the selected articles included: if the examination was behavioral in nature and involved neuroimaging, the extent to which the arm participated during the examination, the number of possible outcomes of the examination, the type(s) of tactile stimulation equipment used, the location(s) along the arm examined, the peripheral nerves targeted for examination, and if any comparison was made with the non-paretic arm or with the arms of individuals who are neurotypical.
Twenty-two articles met the inclusion criteria and were accepted in this review. Most examination approaches were behavioral in nature and involved self-reporting of whether a tactile stimulus was felt while the arm remained passive (i.e., no volitional muscle activity). Typically, the number of possible outcomes with these behavioral approaches were limited (2-3), whereas the neuroimaging approaches had many more possible outcomes ( ). Tactile examinations were conducted mostly at the distal locations along the arm (finger or hand) without targeting any specific peripheral nerve. Although a majority of articles compared paretic and non-paretic arms, most did not compare outcomes to a control group of individuals who are neurotypical.
Our findings noted that most upper extremity tactile examinations are behavioral approaches, which are subjective in nature, lack adequate resolution, and are insufficient to identify the underlying neural mechanisms of tactile deficits. Also, most examinations are administered at distal locations of the upper extremity when the examinee's arm is relaxed (passive). Further research is needed to develop better tactile examination tools that combine behavioral responses and neurophysiological outcomes, and allow volitional tactile exploration. Approaches that include testing of multiple body locations/nerves along the upper extremity, provide higher resolution of outcomes, and consider normative comparisons with individuals who are neurotypical may provide a more comprehensive understanding of the tactile deficits occurring following a stroke.
准确感知触觉刺激对于进行和学习日常生活活动至关重要。通过本次范围综述,我们旨在总结目前用于识别脑卒中患者上肢触觉缺陷的上肢检查方法。目标是确定设计更全面的检查工具的当前局限性和未来研究需求。
按照乔安娜·布里格斯研究所方法框架和用于范围综述的 PRISMA(PRISMA-ScR)指南进行范围综述。使用 Medline(Ovid)、Cochrane 图书馆(Wiley)、CINAHL Plus with Full Text(Ebsco)、Scopus(Elsevier)、PsycInfo(Ebsco)和 Proquest Dissertations and Theses Global 对脑卒中患者上肢触觉检查方法进行数据库检索。纳入的原始研究和综述文章涉及 18 岁或以上的脑卒中成年患者,并对上肢进行触觉检查。从选定文章中提取的数据项目包括:如果检查具有行为性质且涉及神经影像学,则检查过程中手臂的参与程度、检查的可能结果数量、使用的触觉刺激设备的类型、检查手臂的位置、检查的外周神经以及是否与非瘫痪手臂或神经正常个体的手臂进行任何比较。
22 篇文章符合纳入标准并被纳入本次综述。大多数检查方法本质上是行为性的,涉及到在手臂保持被动(即无随意肌肉活动)时报告是否感觉到触觉刺激。这些行为方法的可能结果通常数量有限(2-3),而神经影像学方法的可能结果则更多( )。触觉检查主要在手臂的远端位置(手指或手)进行,而不针对任何特定的外周神经。尽管大多数文章比较了瘫痪侧和非瘫痪侧手臂,但大多数文章并未将结果与神经正常的个体对照组进行比较。
我们的研究结果表明,大多数上肢触觉检查都是行为方法,这些方法本质上是主观的,分辨率不足,不足以确定触觉缺陷的潜在神经机制。此外,大多数检查是在检查者手臂放松(被动)时在上肢的远端位置进行。需要进一步研究来开发更好的触觉检查工具,这些工具结合行为反应和神经生理结果,并允许进行自愿的触觉探索。包括测试上肢多个部位/神经的方法、提供更高分辨率的结果,并考虑与神经正常的个体进行正常比较,可能会更全面地了解脑卒中后发生的触觉缺陷。
