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Not Yet RecruitingNCT07340034

Effects of Focal Muscle Vibration Versus Whole Upper Limb Vibration in Post-Stroke Patients

Effects of Focal Muscle Vibration Versus Whole Upper Limb Vibration on Spasticity and Upper Motor Control Functions in Post-Stroke Patients

Status
Not Yet Recruiting
Phase
N/A
Study type
Interventional
Enrollment
54 (estimated)
Sponsor
Lahore University of Biological and Applied Sciences · Academic / Other
Sex
All
Age
45 Years – 60 Years
Healthy volunteers
Not accepted

Summary

This study contributes to the growing body of knowledge on rehabilitation strategies for post-stroke patients, specifically focusing on the efficacy of vibration therapy modalities. By comparing focal muscle vibration therapy and whole upper limb vibration therapy, the research aims to provide empirical evidence that can inform clinical practices and enhance rehabilitation outcomes. The findings are expected to clarify which modality is more effective in reducing spasticity and improving motor control, thereby guiding clinicians in selecting appropriate interventions tailored to individual patient needs, increasing chances of benefits, time management and useful for academic purpose. Furthermore, the study addresses a critical gap in the literature, facilitating further research and discussion on the mechanisms underlying vibration therapy's effects. Ultimately, this research aims to reduce spasticity and improve community outcomes by enhancing the quality of life for stroke survivors, enabling them to regain independence and participate more fully in daily activities by regaining the motor control functions. By contributing to both theoretical and practical frameworks, the study seeks to advance the field of neurorehabilitation and support informed decision-making among healthcare professionals.

Detailed description

Motor impairment post-stroke, which usually affects the movement of the face, arm, and leg on one side of the body, impacts approximately 80% of individuals who have experienced a stroke. Upper limb motor impairments (involving the arm, hand, and/or fingers) are often long-lasting and debilitating; only about half of stroke survivors with an initially paralyzed upper limb recover some useful function within six months. Recently, mechanical vibrations have been utilized as a form of somatosensory stimulation to enhance motor function and to address muscle spasticity in the upper limbs following a stroke. When applying vibration stimuli during exercise or physical rehabilitation, these can be broadly classified into two categories: (a) vibrations that are directly applied to a specific muscle or tendon, and (b) indirect vibrations that are not limited to a specific muscle, delivered either through the feet while standing on a platform or through the hands using a handheld device. The direct application of vibrations to a muscle or tendon is often referred to as focal muscle vibration (FMV) or segmental vibration (SV), and it may also be called repetitive muscle vibration (rMV). In contrast, indirect vibrations delivered through the hands are typically known as upper limb vibration (ULV), while those aimed at the lower limbs are referred to as whole-body vibration (WBV). Vibration therapy (VT) is a form of physical therapy that employs mechanical vibration waves to stimulate the human neuromuscular system for therapeutic benefits. It demonstrates promising potential for use in the rehabilitation of dysfunctions part of bosy resulting from a stroke. Focal muscle vibration (FMV) OR segmental muscle vibration is a relatively new approach used to enhance motor function and reduce spasticity in the hemiplegic upper limb of stroke patients. In FMV, a vibratory stimulus is delivered to a specific muscle tendon via a mechanical device, which activates the muscle spindle primary endings and generates Ia inputs. Vibration applied to a muscle can elevate the motor-evoked potential recorded from that muscle at rest, indicating an increase in corticospinal excitability during the vibration. Additionally, studies have shown that the duration of the cortical silent period in a forearm flexor muscle can increase when the antagonist forearm extensors are vibrated, providing strong evidence that pure sensory stimulation can influence motor cortical excitability.

Conditions

Interventions

TypeNameDescription
OTHERFocal muscle vibration through focal muscle vibrator along with conventional neurorehabilitationGroup A will receive the 30 minutes treatment protocol. Warm-up exercises for first 15 minutes with ROM and stretching exercises of upper extremity 15 minutes application of FMV All participants were instructed to sit back in a high, fixed chair without armrests, keeping their feet flat on the floor. The dominant shoulder was positioned slightly away from the trunk i.e. in slight abduction and the elbow was held at a 90° angle as part of the designated vibration position. After setting up, the researcher guided the participants to remain seated in the same position as it might affect the results and treatment. The participants then received the vibration in frequency of 30 Hz in both vertical and horizontal directions. Based on our review of prior clinical studies aimed at improving muscle spasticity we implemented vibration protocols with exposure times ranging from 30 to 60 seconds and rest intervals between 15 and 60 seconds. The analysis focused on seven muscle groups
OTHERUpper limb vibration through whole body vibrator along with conventional neurorehabilitationGroup B will receive the 30 minutes treatment protocol. Warm-up exercises for first 15 minutes with ROM and stretching exercises of upper extremity. Patients in the treatment group received upper limb vibration using the Power Plate vibration platform (Performance Health Systems, Power Plate Pro5, North America 2009). The patient was seated on a stool placed next to the whole-body vibration device; the elbow was positioned at 70-80 degrees flexion and wrist was positioned at dorsiflexion and upper limb vibration was applied through Whole body vibrator to the affected limb for two minutes. The WBV consisted of two sessions of 60 seconds of stimulation interrupted by a one-minute break between each session to prevent muscle fatigue. The amplitude of the vibration was 2 mm, and the frequency was 35-40 Hz. An experienced physical therapist supervised the WBV administration. The upper limb vibration treatment was performed 5 times a week for 8 weeks.

Timeline

Start date
2025-12-20
Primary completion
2026-05-20
Completion
2026-05-20
First posted
2026-01-14
Last updated
2026-01-14

Source: ClinicalTrials.gov record NCT07340034. Inclusion in this directory is not an endorsement.