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Angle-Specific Torque Profile...

Angle-Specific Torque Profile Analysis in the Wrist Joint

Last Updated: 2025-08-14

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

NOT_YET_RECRUITING

Total Enrollment

50 participants

Study Classification

OBSERVATIONAL

Study Start Date

2025-09-01

Study Completion Date

2025-12-01

Brief Summary

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The wrist joint performs various tasks at multiple angles during daily activities, both in flexion and extension positions. Among the parameters that facilitate these tasks, strength-particularly in relation to coordination and motor control-plays a key role. Therefore, identifying potential strength deficits is important for maintaining the continuity of daily functional tasks. In the literature, a wide range of methods exist for evaluating strength, from manual tests to advanced technological devices (references). One such method, isokinetic dynamometry, is considered among the most reliable due to its ability to provide objective and standardized measurements across different types of muscle contractions (isometric, isotonic, and isokinetic). Isokinetic dynamometers yield various data including peak torque, average torque, total work, fatigue index, and torque slope. Researchers frequently interpret findings based on peak or average torque values generated during isokinetic contractions. These torque measures provide an overall representation of strength during a given movement.

In wrist movements, rather than a single muscle, muscle groups are responsible for executing motion. However, when only peak or average torque at a single joint angle is assessed, the presence or absence of weakness in the movement can be detected, but it offers limited information. If weakness exists, identifying the specific joint angle at which it occurs can provide more direct insights into which muscles may be impaired. Furthermore, angle-specific profiling allows for characterization of muscle behavior throughout the movement, offering valuable information about potential kinematic disruptions. Having normative data on these profiles enables the detection of deviations from typical patterns across the full range of motion, which can be beneficial for both diagnosis and treatment planning.

However, to derive such benefits, it is critical that the data be obtained using reliable methods. Reliability refers to the degree to which an instrument or technique yields consistent results across repeated measurements, and is a prerequisite for usability. Statistical Parametric Mapping (SPM) is an increasingly popular method that enables angle-specific torque analysis, providing clinically and scientifically meaningful information on muscle strength. Angle-specific mapping is considered the "gold standard" because it presents torque values across the entire joint range, eliminating the need for interpolation between angles. For example, during daily activities, the wrist joint commonly operates within a range from 40° extension to 38° flexion. Therefore, measuring strength at only one joint angle may not be sufficient to reflect the potential limitations experienced in everyday tasks.

Despite its advantages, no reliability study involving SPM analysis has been found for the wrist joint. Furthermore, there is currently no study providing normative data for SPM-based analysis in the wrist. The aim of this study is to examine the reliability of angle-specific torque profile analysis during wrist flexion and extension movements and to provide normative data for healthy young adults.

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Detailed Description

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Conditions

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Wrist Reliability Torque Isokinetic

Study Design

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Observational Model Type

COHORT

Study Time Perspective

RETROSPECTIVE

Interventions

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Angle Specific Torque Profile Analysis

All assessment data will be obtained from the archival records of young healthy adults, and no new assessments will be conducted. Raw data from wrist flexion and extension evaluations performed using an isokinetic dynamometer will be utilized.

Intervention Type DIAGNOSTIC_TEST