Trials / Not Yet Recruiting

Not Yet RecruitingNCT07345871

Connective Tissue Dry Needling for Low Back Pain Related to Local Posterior Superior Iliac Spine Pain

Investigating the Effectiveness of Connective Tissue Dry Needling Technique on Patients With Low Back Pain Caused by Local Pain at Superior Posterior Iliac Spine: a Single-blind, Randomized Controlled Trial

Status: Not Yet Recruiting
Phase: N/A
Study type: Interventional
Enrollment: 42 (estimated)

Sponsor: University of Social Welfare and Rehabilitation Science · Academic / Other
Sex: All
Age: 18 Years – 75 Years
Healthy volunteers: Not accepted

Summary

This single-blind randomized controlled trial will aim to determine the effectiveness of a connective tissue dry needling (CTDN) technique, in reducing pain and improving function in individuals with chronic mechanical low back pain associated with pain and tenderness at the posterior superior iliac spine (PSIS). Forty participants with local PSIS-related low back pain will be recruited and randomly assigned into two groups using the block balanced randomization method. The treatment group will receive CTDN targeting connective tissue trigger points around the PSIS in addition to a sacroiliac joint stabilization exercise program, while the control group will perform the same exercise program alone under the supervision of a physiotherapist. The intervention protocol will span two weeks, during which participants will attend three treatment sessions per week, for a total of six sessions. The primary outcome measurement will use the Visual Analog Scale (VAS) to assess pain intensity. The study will measure secondary outcomes through lumbar range of motion (ROM) in flexion and extension and pressure pain threshold (PPT), and Roland-Morris Disability Questionnaire (RMDQ) functional disability and Short Form-36 (SF-36) health-related quality of life. The researchers will assess all outcomes at three time points: baseline and after the first session, and the sixth session, while VAS will receive an additional assessment at the 3-month follow-up. The findings of this study are expected to provide evidence supporting CTDN as a safe, effective, and cost-efficient treatment option for PSIS-related mechanical low back pain.

Detailed description

Low back pain (LBP) is one of the most widespread musculoskeletal disorders, which creates substantial disability and healthcare expenses throughout both developed and developing nations (1,2). The medical field categorizes LBP into two distinct types: specific and non-specific. The medical field identifies specific LBP through detectable causes, including infections and trauma and structural problems but non-specific LBP lacks identifiable spinal pathology and represents most cases (3,4). Research shows that LBP originates from multiple sources including intervertebral discs and facet joints and sacroiliac joints (SIJ) and their associated ligaments and muscles (5-8). Research indicates that the SIJ acts as a primary pain source for 15-25% of patients who experience chronic LBP (9). The SIJ plays a vital biomechanical role by connecting the spine to the lower extremities through its complex network of ligaments and fascia which distributes both axial and rotational forces (10). The Posterior Superior Iliac Spine (PSIS) represents a significant anatomical reference point near the SIJ where multiple essential soft tissue structures including the long posterior sacroiliac ligament and thoracolumbar fascia and gluteus maximus converge (10,11). Studies based on clinical and anatomical evidence show that tissue dysfunction or irritation in this area leads to pain development in the PSIS region (12). The Fascial Distortion Model (FDM) among other recent models demonstrates how fascia-bone junctions produce musculoskeletal pain through their mechanical interactions. The model indicates that extended periods of inactivity together with abnormal mechanical forces disrupt cellular communication and mineral transport at these junctions which leads to fascial adhesions and persistent pain (13,14). The complex anatomy and high sensitivity of the PSIS area has led to increased research about treatments that focus on the surrounding connective tissue structures. The minimally invasive technique of dry needling fascial structures known as fascia dry needling (FDN) aims to create mechanical and cellular changes in the extracellular matrix of connective tissues. Research shows that dry needling procedures in connective tissue areas lead to increased fibroblast activity and cytoskeletal rearrangement which may create better matrix organization and decrease pain signals (15,17-19). Research through imaging and mechanobiological studies has proven that needle rotation in both directions leads to substantial tissue movement and increased gene expression for tissue repair without inflicting any structural harm (20-25). Research conducted with animal subjects has validated these mechanistic results through observations of tendon recovery and tissue reorganization following needling procedures (22-25). The clinical application of dry needling has produced beneficial results for patients with lateral epicondylosis and Achilles tendinopathy and thoracic pain syndromes by improving their pain levels and mobility and functional abilities (26,29,30). The medical field lacks any randomized controlled trial that investigates how fascia dry needling affects the PSIS region despite rising evidence about dry needling effects on different musculoskeletal conditions. The current clinical guidelines recommend periarticular or intra-articular injections for PSIS or SIJ-related pain but these procedures come with high costs and complex procedures and potential adverse effects for patients (31). The non-invasive nature of FDN makes it an attractive treatment option which needs thorough clinical assessment. The research study aims to evaluate PSIS area fascia dry needling as an additional treatment for standard physiotherapy represents a critical knowledge gap in current medical literature. The confirmation of safety and effectiveness of this treatment method would lead to updated clinical guidelines and help decrease reliance on invasive procedures while giving healthcare providers an effective new treatment option for patients with PSIS-related mechanical low back pain. Hypotheses: Null Hypothesis (H₀): The fascia dry needling technique (Mahshid method) has no significant effect on pain intensity, lumbar range of motion, pain pressure threshold, functional disability, or quality of life in patients with chronic mechanical low back pain and point tenderness at the posterior superior iliac spine. Alternative Hypothesis (H₁): The fascia dry needling technique (Mahshid method) has a significant positive effect on pain intensity, lumbar range of motion, pain pressure threshold, functional disability, and quality of life in patients with chronic mechanical low back pain and point tenderness at the posterior superior iliac spine.

Conditions

Interventions

Type	Name	Description
PROCEDURE	Connective tissue dry needling	Connective tissue dry needling: Eight sterile single-use needles placed 1.5 cm from the PSIS center, inserted at about 45° to bony contact, withdrawn 0.5 cm, rotated five times to maximal tissue stiffness, then retained for 20 minutes with concurrent infrared therapy. Three sessions per week for two weeks, total six sessions. Needle size 50 mm × 0.5 mm.
PROCEDURE	Exercise therapy	Pelvic bridging, leg-lowering, curl-up or bridging, and isolated lumbar stabilizer training. Three sets of ten repetitions for each exercise, three sessions per week for two weeks.

Timeline

Start date: 2026-04-10
Primary completion: 2026-05-14
Completion: 2026-09-01
First posted: 2026-01-16
Last updated: 2026-01-21

Source: ClinicalTrials.gov record NCT07345871. Inclusion in this directory is not an endorsement.