This study looks at how thoracolumbar fascia release affects breathing in people who had a stroke. After a stroke, many people have trouble breathing well because their muscles become stiff. We want to see if releasing the thoracolumbar fascia (a big sheet of tissue in the lower back) can help improve lung function. Participants will be divided into three groups: Control group - Receives standard stroke rehabilitation. Breathing exercise group - Gets standard rehabilitation plus breathing exercises. Thoracolumbar fascia release group - Gets standard rehabilitation plus thoracolumbar fascia release therapy. We will measure lung function right after a single session to see if this therapy makes breathing easier. Our primary outcome is to check if thoracolumbar fascia release improves lung function compared to the other groups. This study hopes to find new ways to help stroke survivors breathe better and feel more comfortable.
This randomized controlled study investigates the immediate effects of thoracolumbar fascia (TLF) release on pulmonary function in stroke patients. Post-stroke impairments often lead to respiratory dysfunction due to musculoskeletal restrictions and altered neuromuscular control. Given the biomechanical connections between the thoracolumbar fascia and the respiratory system, we hypothesize that TLF release may enhance pulmonary mechanics by improving respiratory functions, in single session. Participants randomly assigned into three groups: Control group - Receives standard post-stroke rehabilitation. Respiratory exercise group - Undergoes standard rehabilitation combined with structured breathing exercises. TLF release group - Receives standard rehabilitation along with thoracolumbar fascia release. The primary outcome measure is the immediate change in spirometric parameters, including forced vital capacity (FVC%), forced expiratory volume in one second (FEV₁%), FEV₁/FVC (tiffeneu index) and peak expiratory flow (PEF%). By evaluating the acute effects of thoracolumbar fascial release on respiratory function, this study aims to explore a potential adjunct therapy for post-stroke pulmonary rehabilitation.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
42
Personalized traditional stroke rehabilitation programme including spasticity inhibition, sensory-perceptual-motor integration techniques, core stabilization and strengthening exercises, balance training i.e. applied as needed for stroke patients approximately for 45 minutes
Thoracolumbar fascia release was performed by physiotherapist for one session. Supine Pelvic Rotation, Supine Arm Elevation, Bending Forward in Sitting Position and Sitting Crossed Arm and Knee Positions were performed approximately for 10-15 minutes after 45 minutes of traditional stroke rehabilitation.
Respiratory exercises were performed by physiotherapist for one session. Pursed-Lip Breathing, Deep Breathing Exercise, Diaphragm Strengthening Exercise and Thoracic Expansion Exercises were performed approximately for 10-15 minutes after 45 minutes of traditional stroke rehabilitation.
Kocaeli Sağlık ve Teknoloji Üniversitesi
Kocaeli, Turkey (Türkiye)
Pulmonary Function
Spirometric measurements were performed by respiratory physical therapist using COSMED Pony FX spirometer (Elsa Medical Ltd., Rome, Italy) portable device. FEV1(%), FVC (%) and FEV1/FVC and PEF (%) were taken to assess the pulmonary functions.
Time frame: From enrollment to the immediately after one session of treatment in all groups
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