Effects of Different Kinds of Exercise in Low Back Pain

Not Applicable

Completed

• Conditions: Low Back Pain
• Interventions: Other: Isometric exercise; Other: Aerobic exercise; Other: Placebo intervention

• Registration Number: NCT06330961
• Lead Sponsor: University of Valencia

Brief Summary

Low back pain is considered one of the great global challenges in public health due to its high prevalence. Exercise have been shown to cause an increase in pain thresholds, through the effect known as exercise-induced hypoalgesia. Little is known about exercise-induced hypoalgesia induced by different modalities of exercise in low back pain, and its possible effects in lumbopelvic biomechanics.

The goal of this clinical trial is to compare the effect of exercise-induced hypoalgesia after an isometric, aerobic and a sham/ placebo exercise in non-specific low back pain. The main questions it aims to answer are:

* Does an isometric exercise intervention cause exercise-induced hypoalgesia in non-specific low back pain patients?

* Is the effect of an isometric exercise intervention comparable to that of aerobic exercise?

* Is a placebo/ sham intervention also effective to reduce pain thresholds in these patients?

* Do healthy subjects show the same effects in pain thresholds as low back pain patients ? Participants will perform an isometric, aerobic and placebo/ sham exercise intervention in three different recording sessions. Before and after the interventions, pain intensity, pain-pressure thresholds and lumbopelvic biomechanical parameters during trunk flexion-extension will be recorded.

Researchers will compare a group of low back pain patients to an age-, gender- and anthropometrics-matched control group of pain-free subjects to see if exercise-induced hypoalgesia is also observed when there is no low back pain diagnosis.

Detailed Description

Exercise causes an immediate reduction in pain sensitivity, known as exercise-induced hypoalgesia. This phenomenon is described as the immediate and lasting reduction of pain sensitivity after therapeutic exercise. This effect has been observed after isometric muscle contractions and aerobic exercises in healthy subjects.

The hypoalgesic response is often shown as an increase in pain-pressure thresholds in regions close to the most active muscle groups during exercise, and also in regions further away, which probably reflects the activation of systemic endogenous pain inhibitory systems. This effect has also been studied in patients with chronic pain.

Although there is previous work that has shown that aerobic exercise and isometric exercise can cause exercise-induced hypoalgesia, there is no evidence on exercise-induced hypoalgesia caused by isometric maneuvers in patients with low back pain. There is also a lack of placebo-controlled studies, or even studies comparing the analgesic effect of isometric and aerobic exercise in this population.

Therefore, the aim of this study will be to investigate, in a placebo-controlled intervention, whether various exercise modalities (isometric, aerobic) that involve activation of the lumbopelvic muscles result in local hypoalgesia in the area of the most active muscles, and/or hypoalgesia in more distant areas of the body, in subjects with low back pain and a group of healthy subjects which will serve as a control group.

Study Timeline

• Study Start: 2024-01-08
• Study First Submitted: 2024-01-31
• Study First Submitted QC: 2024-03-20
• Study First Posted: 2024-03-26
• Status Verified: 2025-05
• Primary Completion: 2025-05-13
• Study Completion: 2025-05-13
• Last Update Submitted: 2025-05-13
• Last Update Posted: 2025-05-18

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 76

Inclusion Criteria

Control group: no prior history of low back pain or any other kind of low back disorders.

Low back pain group:

• current symptoms of non-specific low back pain
• Symptoms must be severe enough to have caused recent loss of work days.

Exclusion Criteria

• mental or cognitive impairment influencing the ability to understand and execute oral or written instructions
• any sign or symptom suggestive of potential underlying diseases
• presence of red flags or high-risk criteria for referral to emergency medical services
• severe functional limitation due to the intensity of the pain
• high irritability of symptoms at the time of the selection process
• inability to tolerate the prone position

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Low back pain patients	Isometric exercise	Aerobic exercise, Biering-Sorensen test and placebo interventions will be administered to a group of non-specific low back pain patients. They will serve as the primary intervention group.
Low back pain patients	Aerobic exercise	Aerobic exercise, Biering-Sorensen test and placebo interventions will be administered to a group of non-specific low back pain patients. They will serve as the primary intervention group.
Pain-free participants	Aerobic exercise	Aerobic exercise, Biering-Sorensen test and placebo interventions will be administered to a group of subjects with no past history of low back pain. They will serve as a control group.
Pain-free participants	Placebo intervention	Aerobic exercise, Biering-Sorensen test and placebo interventions will be administered to a group of subjects with no past history of low back pain. They will serve as a control group.
Pain-free participants	Isometric exercise	Aerobic exercise, Biering-Sorensen test and placebo interventions will be administered to a group of subjects with no past history of low back pain. They will serve as a control group.
Low back pain patients	Placebo intervention	Aerobic exercise, Biering-Sorensen test and placebo interventions will be administered to a group of non-specific low back pain patients. They will serve as the primary intervention group.

Primary Outcome Measures

Name	Time	Method
Pain intensity	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Pain intensity will be tested using a visual analogue scale, scored from 0 to 10.
Pain-pressure thresholds	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Pain-pressure thresholds will be measured with an algometer on 3 points in a randomized order: 1) thenar eminence; 2) erector spinae (5 cm distal to L3); 3) the center of the long head of biceps femoris. Unit: kg/cm2
Time of maximum flexion	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Percentage of total flexion-extension time during which the lumbar spine and the pelvis are flexed over 90% of their maximum flexion, measured with a Liberty 240/16 electrogoniometer (Polhemus Inc., Colchester, USA). Unit: percentage of total flexion-extension time
Pain distribution and supra-threshold stimulation	Day 1, before and after the first intervention. Day 8, before and after the second intervention. Day 15, before and after the third intervention.	Area of pain irradiation, and area of distribution of pressure-induced referred pain after a supra-threshold stimulation over the infraspinatus muscle. Depicted by the participants on a body chart. Unit: cm2
Maximum ranges of lumbar and pelvic flexion	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Maximum ranges of lumbar and pelvic flexion, in degrees, measured with a Liberty 240/16 electrogoniometer (Polhemus Inc., Colchester, USA). Unit: degrees
Fear-avoidance beliefs	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Fear-avoidance beliefs will be tested using a validated version of the Fear-Avoidance Beliefs Questionnaire (FABQ).
Trunk flexion-extension electromyography (EMG)	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Average percentages of lumbopelvic muscles activation during flexion, extension, eccentric and concentric contractions and the myoelectrical silence, recorded by an EMG100C Biopac module (Biopac Systems, Inc., Goleta, CA). Unit: percentages of maximum muscle activation
Flexion-extension ratio (EMG)	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	A ratio between the average lumbopelvic muscles activity at trunk flexion and its average activity at extension, to quantify the relaxation level of the muscle. Unit: dimensionless
Trunk flexion-extension percentages of motion	Day 1, before, after and 30 minutes past the first intervention. Day 8, before, after and 30 minutes past the second intervention. Day 15, before, after and 30 minutes past the third intervention.	Average percentages of maximum lumbar and pelvic flexion during flexion and extension, and at the start and end of lumbopelvic muscles relaxation, measured with a Liberty 240/16 electrogoniometer (Polhemus Inc., Colchester, USA) and expressed as a percentage of the maximum range of flexion during each flexion-extension cycle. Unit: percentages of maximum flexion

Secondary Outcome Measures

Name	Time	Method
Date of birth/ age	Day 1, before the first intervention.	Self-reported. Unit: years
Sex/ gender	Day 1, before the first intervention.	Self-reported
Anthropometric data: height	Day 1, before the first intervention. Day 8, before the second intervention. Day 15, before the third intervention.	Measured with a stadiometer, barefoot. Unit: meters
Basic clinical history and occupational data	Day 1, before the first intervention.	Self-reported, in an interview. Antecedents of low back pain, occupation
Anthropometric data: weight	Day 1, before the first intervention. Day 8, before the second intervention. Day 15, before the third intervention.	Measured with a calibrated scale with the participant barefoot and wearing light clothes. Unit: kilograms

Trial Locations

Locations (1)

Clinical Anatomy of the Musculoskeletal System Laboratory. Department of Anatomy and Human Embryology, School of Medicine, Universitat de València; 🇪🇸 Valencia, Spain