Stroke is one of the world's leading causes of death and disability. It can cause a variety of motor disorders, such as apraxia, sensory deficits, abnormal muscle tone, inadequate weight transfer, lack of fine motor skills, incoordination, and balance deficit. These disorders can have a significant negative impact on a person's quality of life.
The definition of a stroke, as given by the World Health Organization (WHO), is a clinical illness that includes focused disruptions in cerebral functioning that develop quickly and have a vascular origin. Cerebrovascular accidents, or strokes, rank third in the world in terms of disability and are the second major cause of mortality. A stroke is a major cause of dementia and depression. A stroke is the abrupt death of some brain cells from a lack of oxygen when blood supply to the brain is interrupted by an artery rupturing or blocking the brain. Across the world, low- and middle-income nations account for 70% of stroke cases and 87% of stroke-related fatalities as well as disability-adjusted life years. Patients who have had a stroke often experience a variety of motor disorders, such as dysphagia and dysarthria, imbalance issues, apraxia, sensory deficiencies, abnormal muscle tone, abnormal motor pattern, inadequate weight transfer, lack of fine motor skills, and muscle weakness. After completing their rehabilitation, 50% to 60% of stroke patients still have some degree of motor impairments, and at least 50% of these patients depend on their daily activities. Muscle paresis and spasticity are two of the most prevalent stroke disabilities. This study aims to explore the effects of combining focal vibration (FV) with electrical neuromuscular stimulation (NMES) on the ankle dorsiflexors in subacute stroke patients. These techniques are relatively new in neurorehabilitation and have shown promise in reducing muscle stiffness and enhancing movement compared to traditional physiotherapy methods. By focusing on the lower limb issues commonly seen after a stroke, we seek to understand how this combination therapy can improve motor function in these patients. The findings of this study could help in developing more effective treatment strategies for stroke survivors dealing with lower limb dysfunction.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
50
Segmental vibrator only on dorsiflexor: After standard physiotherapy session this group received the intervention of segmental vibration. Tibialis anterior muscle targeted for dorsiflexor. The segmental vibration of high frequency i.e 100 Hz and low amplitude (0.2-0.5mm) was applied at muscle belly for 10 min while interpersed with a 1 min break by mean of segmental vibrator.
Segmental vibrator + Electrical stimulation on dorsiflexors: After standard physiotherapy session this group received the intervention of neuromuscular electrical stimulations by means of EMS. Two electrodes were used for this procedure. Tibialis anterior muscle targeted for dorsiflexor. One pad of electrode was placed on anterior of lower leg just below tibial tuberisty and other was 5cm below to it .With a 250-microsecond pulse duration, the EMS device was set up to provide a biphasic current with a symmetrical waveform at 50 Hz for 15 seconds. It was also tuned for a 3-second ramp up time and a 30-second rest period. Each respondent set the intensity to the highest level they could tolerate. Secondly, segmental vibrator was applied for focal vibrations on tibialis anterior. The segmental vibration of high frequency i.e 100 Hz and low amplitude (0.2-0.5mm) was applied at muscle belly for 10 min while interpersed with a 1 min break by mean of segmental vibrator.
Jinnah Hospital
Lahore, Punjab Province, Pakistan
RECRUITINGModified Ashworth Scale (for spasticity)
The Modified Ashworth Scale (MAS) is a revised version of the original Ashworth Scale that measures spasticity in patients with lesions to the central nervous system. MAS is an assessment that is used to measure the increase in muscle tone. MAS assigns a grade of spasticity from a 0-4 ordinal scale.
Time frame: 8 weeks
Fugl-Meyer Assessment (for lower limb function)
Fugl-Meyer Assessment (FMA) is a stroke-specific, performance-based impairment index. It is designed to assess motor functioning, balance, sensation and joint functioning in patients with post-stroke hemiplegia. The scale is comprised of five domains and there are 155 items in total: * Motor functioning (in the upper and lower extremities) * Sensory functioning (evaluates light touch on two surfaces of the arm and leg, and position sense for 8 joints) * Balance (contains 7 tests, 3 seated and 4 standing) * Joint range of motion (8 joints) * Joint pain Scale items are scored on the basis of ability to complete the item using a 3-point ordinal scale where 0=cannot perform; 1=performs partially; and 2=performs fully. The total possible scale score is 226.
Time frame: 8 weeks
10 Metre Walk Test (mobility)
The 10-Metre Walk Test is a performance measure used to assess walking speed in meters per second over a short distance. It can be employed to determine functional mobility, gait, and vestibular function. Gait speed is calculated by dividing the total distance to time
Time frame: 8 weeks
Wisconsin Gait Scale (for gait)
Wisconsin Gait Scale (WGS) is an observational tool for the evaluation of gait quality in individuals after stroke with hemiplegia. It is divided into four subscales, which assess a total of fourteen spatiotemporal and kinematic parameters of gait observed during the consecutive gait phases.
Time frame: 8 weeks
Goniometer for ROM
A goniometer is a valid clinical tool used to measure the range of motion in joints. It used to measure the ankle dorsiflexion ROM.
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Time frame: 8 weeks