Clinical and Ultrasonographic Evaluation of the Efficacy of Extracorporeal Shock Wave Therapy (ESWT) in Post-Stroke Spasticity

Wrist range of motion

During the measurement, the goniometer is aligned with the joint's axis of rotation to determine the maximum angle during passive movement. It is crucial that the limb is moved slowly and carefully to avoid eliciting resistance from the patient's spastic muscles. A slow, controlled movement minimizes spasticity, thereby ensuring a more accurate measurement.Wrist passive range of motion will be measured.

Time frame: Baseline 4th week 8th week and 12th week after treatment.

Modified Barthel Index

The Barthel Index (BI) consists of 10 items related to mobility and activities of daily living (ADL), and it assesses activities such as feeding, transfer from wheelchair to bed and back, personal grooming, bathing, walking, ascending and descending stairs, dressing, and bladder and bowel continence. The Modified Barthel Index (MBI) is a revision of the original Barthel Index (BI) and uses the same 10 items. The main difference between these two measures is that the MBI consistently classifies patient performance into five scoring levels: unable to perform the task, attempts the task but is unsafe, moderate assistance required, minimal assistance required, and fully independent. The total score of the MBI also ranges from 0 to 100, with higher scores indicating greater independence in ADL.

Time frame: Baseline, 4th week, 8th week and 12th week after treatment.

The Fugl-Meyer Upper Extremity Scale

The Fugl-Meyer Assessment for the Upper Extremity (FMA-UE) is designed to quantitatively evaluate the motor function of stroke patients and includes tests for upper extremity motor and sensory function. The FMA-UE is used to assess upper extremity motor impairment and contains 33 items scored on a scale from 0 to 2 (0 = cannot perform, 1 = performs partially, and 2 = performs fully), with a total score range of 0-66. The FMA has been reported to have high reliability for testing motor performance in post-stroke patients.

Time frame: Baseline, 4th week, 8th week and 12th week after treatment.

Modified Heckmatt Scale

he Modified Heckmatt Scale is a method that uses ultrasonography to reliably evaluate echogenic changes in a spastic muscle, thereby indicating the level of fibrotic change. The Modified Heckmatt Scale was developed to achieve greater sensitivity between grades compared to the original Heckmatt Scale, particularly for muscles with mildly to moderately increased echo intensity (Grades 2 and 3). Grade 1: Normal echogenicity, distinct from the bone echo, is observed in over 90% of the muscle. Grade 2: There is increased muscle echogenicity in 10-50% of the tissue, but a distinct bone echo and areas of normal muscle echo are still present. Grade 3: A marked increase in muscle echogenicity is seen in 50% to 90% of the tissue, with reduced differentiation of the bone echo from the muscle. Grade 4: Very strong muscle echogenicity is observed in \>90% of the tissue, with a near-complete loss of the distinct bone echo from the muscle.

Time frame: Baseline, 4th week, 8th week and 12th week after treatment.

Sonoelastographic strain index

Quantitative elastography analysis will be used to measure stiffness. As a software feature of the ultrasound system, quantitative elastography analysis numerically measures the color distribution in a selected area across single or multiple frames and calculates an elasticity index for the measured area. The elasticity index is a value between 0.0 and 6.0, generated by the reflected color distribution within the selected region. A higher value signifies greater stiffness, which is predominantly represented by the color blue on the screen. While the elasticity index is calculated separately for the reference area and the muscle, the system automatically calculates the strain ratio as muscle/reference area.

Time frame: Baseline, 4th week, 8th week and 12th week after treatment.