This project will compare the effectiveness of sensory and motor exercises used in clinical settings for healthy young adults. This approach will allow the investigators to evaluate the impact of these exercises on hand functions. The study plans to include 80 healthy young adults aged 18-25. After providing participants with information about the study's purpose, written informed consent will be obtained to confirm voluntary participation. Participants will be randomly assigned to one of three groups: "sensory exercise," "motor exercise," and "sensory and motor exercise." The effects on muscle reaction time and hand skills for the dominant hands will be evaluated before and after the exercises.
Hand functions occupy a significant place in the functional activities of daily life. Therefore, impairments in wrist function can severely impact daily activities and quality of life. Hand rehabilitation includes various methods aimed at improving hand functions for treating numerous conditions affecting the wrist. However, it has been determined that treatments targeting both motor and sensory functions should be used together to enhance functionality. For this purpose, this project will compare the effectiveness of sensory and motor exercises used in clinical settings in healthy young adults, allowing investigators to evaluate their impact on hand functions. The study will include 80 healthy young adults aged 18-25. After participants are informed about the study's purpose, written informed consent will be obtained to confirm voluntary participation. Participants will be randomly assigned to one of three groups: "sensory exercise," "motor exercise," and "sensory and motor exercise." The effects on muscle reaction time and hand skills for the dominant hand will be evaluated before and after the exercises. Data from the study will be analyzed using the Statistical Package for the Social Sciences (SPSS) version 25.0. Demographic characteristics of participants will be expressed as arithmetic mean ± standard deviation and percentages. The normal distribution of data will be examined using visual (histogram and probability plots) and analytical methods (Kolmogorov-Smirnov/Shapiro-Wilk tests). Pre- and post-evaluations within groups will be assessed using the student-t test, and intergroup comparisons will be evaluated with the student-t test if data follows a normal distribution, or with the Mann-Whitney U test if not. A p-value of \<0.05 will be considered statistically significant.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
80
This program consists of wrist motor exercises focused on active range of motion (including flexion, extension, ulnar and radial deviation, and finger flexion) along with nerve mobilization exercises for the medial, radial, and ulnar nerves. The aim is to enhance motor function in the wrist and hand.
Arm Description: This group will engage in sensory exercises designed to enhance sensory awareness in the hand and wrist. Exercises will include interaction with varied textures (such as sand and sensory balls), different fabrics (fur, satin, linen), and multisensory foam gels. The goal is to improve sensory function and tactile discrimination.
Participants in this group will perform both motor and sensory exercises as described for the first two groups. By combining motor and sensory interventions, this group aims to improve both motor skills and sensory awareness in the wrist and hand, potentially enhancing overall hand function more effectively.
Istanbul Atlas University
Istanbul, Turkey (Türkiye)
Hand Dexterity (Moberg Pick-Up Test) Hand Dexterity (Moberg Pick-Up Test) Hand Dexterity (Moberg Pick-Up Test)
This measure will evaluate hand dexterity and functional hand skills using the Moberg Pick-Up Test. Participants will be asked to place various objects into a container using both their dominant and non-dominant hands, with and without visual cues. The time taken for each attempt will be recorded, and the best score from three trials will be used to assess dexterity. Measurements are recorded in seconds, where lower scores indicate better hand dexterity. Scale Range: No minimum or maximum value in seconds (lower time indicates better dexterity). Interpretation: Lower times signify better outcomes, as they reflect quicker and more coordinated hand movements in completing the task.
Time frame: immediately after the intervention
Muscle Reaction Time
Light Trainer® system, which consists of a wireless lighting system with LED pods and a central controller. The participants were seated with their hands on the table, 40 cm apart, palms down, and elbows at 90°. The Light Trainer was positioned centrally 20 cm away from each hand. When the pod was illuminated, the participants were instructed to turn off the light as quickly as possible by touching it. Light activation was randomized to avoid predictability, requiring participants to respond based on light cues each time. In the first task, the participants used their dominant hand to turn off the light as quickly as possible. In the second task, they responded to a light signal by deactivating a predetermined light from two different colors using their dominant hand. Scale Range: No minimum or maximum value in milliseconds (lower time is better). Interpretation: Lower reaction times signify better outcomes, as they reflect faster muscle response to visual stimuli.
Time frame: immediately after the intervention
Grip Strength (Measured Using Jamar Electronic Dynamometer)
Hand performance was assessed based on grip strength using a Takei Handheld Dynamometer (Takei Scientific Instruments Co., Tokyo, Japan). Participants were seated with elbows flexed at 90 degrees and forearms in a neutral position, and were instructed to squeeze the dynamometer with maximum force for 3-5 seconds, with the palm facing upwards. Each hand was tested three times with a 20-second rest between trials, and the highest value was recorded. This protocol ensures standardized and consistent results, with measurements documented in kilograms (kg) to provide reliable grip strength assessment. Scale Range: The dynamometer measures from 0 to 90 kg. Interpretation: Higher scores reflect stronger grip strength, which is indicative of better hand function.
Time frame: immediately after the intervention
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