Context: After stroke, most patients suffer from hemiparesis with variable functional consequences that can strongly impact autonomy in daily activities. Motor recovery is, therefore, an essential part of the therapeutic strategy in order to optimize the patient's capacities and functional autonomy. Some authors suggest that trunk control would be essential in the capacities of standing balance, transfer tasks and gait. However, no studies have tested the reliability and validity of proprioceptive and sitting balance clinical tests for patients with post-stroke hemiparesis. These tests would be very useful in advancing our understanding of trunk impairments and for clinicians to manage an appropriate treatment strategy. Objective: The main objective is to assess the reliability of the Trunk Positional Sense Test, the unstable sitting test with forceplate and the Modified Functional Reach Test (MFRT) in individuals with post-stroke hemiparesis. The secondary objectives is 1) to assess the validity of the Trunk Positional Sense Test and the unstable sitting test with forceplate, 2) to assess the validity of a phone inertial captors to assess the instable sitting. Method. - Thirty-two individuals with subacute post-stroke hemiparesis will be included in this study. After clinical tests (trunk strength, Balance Assessment in Standing and Sitting, Timed Up and Go test), the MFRT, Trunk Positional Sense Test and unstable sitting will be evaluated by two physiotherapists in a first session (inter-rater reliability). After a rest of 2-4 h, a second similar session was conducted with the first physiotherapist (intra-rater reliability). For unstable seated balance, two tools will be used: the force platform and a smartphone. Reliability will be tested by calculating the intraclass correlation (ICC) and Bland-Altman analysis. For trunk positional sense test and unstable sitting test, the validity will be tested with correlations with each clinical test. The validity, between forceplate variables and inertial phone variables, will be tested with correlations. Perspectives. - The promotion of quality tests to assess patients in clinical practice is essential. The results of this study should provide knowledge for selecting the best trunk control tests to assess the individuals after stroke and to understand the influence of trunk control on functional activities.
Study Type
OBSERVATIONAL
Enrollment
32
MicroFET 2 Handheld Dynamometer is a force evaluation testing device to evaluate the strength of various trunk muscle groups in flexion, extension, and lateral (N).
The BASS is a test to assess static and dynamic sitting and standing balance, which has been validated for post-stroke hemiparetic patients. Each test is evaluated by a score from "0" (patient needs external support) to "4" (stable without external help) for static condition and from "0" (no possibility to pick up objects) to "3" (objects picked up without external help) for dynamic condition. The maximal score (sitting, standing, static and dynamic) is 14 points.
The participant sits on a chair, gets up, walks 3m, makes a half turn in 1m2, walks 3m and comes back to sit on the chair. The time (s) to complete the task is measured.
The MFRT is a dynamic seated balance test that measures the trunk's ability to move forward, to the paretic and non paretic side (cm).
The joint positional sense test of the trunk consists in evaluating the positional error of the trunk in the sagittal plane (mm) and in the frontal plane (mm) during a trunk flexion posture (target position).
This test evaluates the balance capacities of the subject in an unstable sitting position on a seesaw (mediolateral or anteroposterior instability) with forceplate and phone application using center of pressure variables: total displacement (mm), area (mm2), deltas (mm), mean velocity (mm/s) et maximal velocity (mm/s).
Hôpitaux Universitaires de Genève (Hôpital Beau-Séjour)
Geneva, Switzerland
Reliability of trunk tests
The inter-rater reliability will be evaluated by comparing the test results of two physiotherapists administering the same tests (Trunk position sense, Modified Functional Reach Test, unstable sitting on a seesaw), and the intra-rater reliability will be evaluated by comparing the test results of two sessions (test-retest) which will be executed by the same tester, with the intra-class correlations coefficient (ICC) and Bland-Altman analysis.
Time frame: The measures will be collected over a timeframe of 22 months
Construct validity
The validity of the three tests (Trunk position sense, Modified Functional Reach Test, unstable sitting on a seesaw) with clinical tests (Balance Assessment in standing and sitting, Trunk strength, Timed Up and Go Test) will be assessed with correlations (r).
Time frame: The measures will be collected over a timeframe of 22 months
Concurrent validity
The validity between center of pressure variables (forceplate) and inertial captors' variables (phone) during the same unstable sitting balance tests on a seesaw will be assessed with correlations (r) and Bland Altman analysis.
Time frame: The measures will be collected over a timeframe of 22 months
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