Comparative Effects of Tensioning and Sliding Neural Mobilization on Nerve Root Function

Not Applicable

Completed

• Conditions: Physical and Rehabilitation Medicine
• Interventions: Other: Sham intervention; Other: neural mobilization

• Registration Number: NCT04690959
• Lead Sponsor: University of Sharjah

Brief Summary

the current study will try to answer the question: Is it theoretically possible, that increased longitudinal stress on nerve root from sliding or tensioning intervention may subtly affect the neural function? Our hypothesis is that tensioning and sliding, differently affect the neural function.

Detailed Description

A prospective, parallel randomized, controlled study will be conducted at a research laboratory of our University. Participant recruitment will begin following approval from the Ethics Committee .The patients will participate in the study after signing an informed consent form prior to data collection.

Per inclusion criteria, subjects will be between 18 and 50 years of age, not currently experiencing any neck or dominant upper extremity symptoms, do not have a history significant for a chronic painful condition, and will not using pain relievers. Prior to participating in any study-related procedures, participants will read and signed an informed consent form approved by the Institutional Review Board.

Participants will be divided into three groups; One group will receive neural gliding mobilization and the other neural tensioning mobilization, both targeting the median nerve.

. the third group will receive sham neural mobilization intervention . Participants were not given information on which neural mobilization technique they were receiving; they were only told that they could receive one of two different neural mobilization techniques. Six sessions will be given every other day for 2 weeks.

Study Timeline

• Study First Submitted: 2020-12-26
• Study First Submitted QC: 2020-12-30
• Study First Posted: 2020-12-31
• Study Start: 2021-01-01
• Primary Completion: 2021-01-14
• Study Completion: 2021-01-22
• Status Verified: 2021-02
• Last Update Submitted: 2021-02-27
• Last Update Posted: 2021-03-02

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 90

Inclusion Criteria

• not currently experiencing any neck or dominant upper extremity symptoms.
• do not have a history significant for a chronic painful condition.
• do not using pain relievers.

Exclusion Criteria

• inflammatory joint disease or other systemic pathologies.
• prior history of overt injury and surgery relating to the musculoskeletal system.
• disorder related to the spine and extremities.
• musculoskeletal pain in the last three months.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Control	Sham intervention	Participants in the sham group will receive a treatment consisting of maneuvers that mimic the neural mobilization treatment but not to stress the neural tissues in the upper extremity. The sham mobilization consists of passively positioning the participants in the following consecutive positions: (1) a neutral cervical spine (0° of lateral flexion), (2) 45°of shoulder abduction without scapula depression, and (3) 45° of shoulder external rotation combined with 45° of elbow flexion with forearm pronation. This will be immediately followed by 10 cycles of passive wrist flexion/extension at a rate of approximately 6 seconds per cycle (3 seconds into extension and 3 seconds into flexion) . Upon moving from wrist flexion to extension, an initial sense of resistance will be used as a sign to alternate directions. Following the 10th cycle, a static hold will be maintained while in wrist flexion for 10 seconds.
Neural gliding mobilization	neural mobilization	Initial participant positioning for gliding will be : lying in supine, shoulder at approximately 90 of abduction, wrist in neutral, elbow at 90 flexion and head/neck neutral. From this starting position, participants actively and simultaneously will perform extension of the elbow (to 45) and ipsilateral neck flexion (to approximately 45) and then returned to 90 of elbow flexion and 45 of contralateral neck flexion while maintaining the shoulder at 90 abduction. According to Silva et al., (2014) this combination of movements was the one that promoted the greatest excursion of the median nerve (10.2 mm) . For gliding, four series of 10 movements at a rhythm of approximately 6 s per cycle and 1-min rest between series was performed.
Neural tensioning mobilization	neural mobilization	Tensioning will be performed with the subject lying supine. The investigator will perform the upper limb neurodynamic test as reported by Butler (2000): shoulder depression; 110 of shoulder abduction; external shoulder rotation; wrist and fingers extension; forearm supination and then elbow extension. The final test position will be defined as either i) end of joint amplitude or ii) the joint amplitude that provokes pain, paresthesia or numbness. In this case, a decrease of 5 to 10 of range of motion (elbow extension) will be allowed for symptoms to disappear and from this end position the investigator will perform repetitive movements of approximately 10 of elbow flexion/extension while maintaining the test end position for all the other joints. For tensioning, four series of 10 movements at a rhythm of approximately 6 s per cycle and 1-min rest between series will be performed. After each cycle of 10 repetitions, the position will be held for 10 seconds.

Primary Outcome Measures

Name	Time	Method
Change in dermatomal somatosensory evoked potentials	baseline (pre-treatment) , 2 weeks ,through study completion, an average of 1 week	In all dermatomes, 2 complete recording runs will be undertaken during each session with averages of 250 to 1200 cortical responses from scalp surface recording electrodes (C3'-C4' in a 10-20 electrode configuration) of the contralateral scalp to the stimulated dermatomes being stimulated. The impedance of ground and scalp electrodes will be maintained at \< 5 k Cutaneous areas of L3,L4,L5, S1 sensory roots will be stimulated in lower limb with the electrical impulses of 0.2 ms duration, frequency of 3.3 Hz and intensity 3 times higher than the sensory threshold will be determined individually for each subject.

Secondary Outcome Measures

Name	Time	Method
Change in Skin Sympathetic response	baseline (pre-treatment) , 2 weeks ,through study completion, an average of 1 week	For measurement of the Skin Sympathetic response, electromyography equipment will be used. The skin temperature will be maintained at 32° )by making the stability of room temperature around 26° C, asking subjects to stay in the room for 20 minutes with that temperature before the examination and prevent local warm-up for extremities) . Active surface electrodes will be attached on the palmar side, and the references will be placed on the dorsum of the hand. The stimulus will be given at the wrist contralateral to the recording side. The latency and peak to peak amplitude will be determined. Sympathetic skin response will be considered absent if there is no response after ten stimuli.
Change in Pressure pain threshold	baseline (pre-treatment) , 2 weeks of treatment and at 1 week following the end of treatment	An algometer will be used to measure Pressure pain threshold at both the thenar eminence and the proximal third of the right ventral forearm. . Before measurements on these points will be taken, Pressure pain threshold measurement will be demonstrated in the opposite upper limb to familiarize the patient with the procedure. Participants will be instructed to say "stop" when the sensation changed from pressure to pain. The Pressure pain threshold will be measured with the patient's hand and forearm in supination and supported on a table. Three measurements will be taken at each point. The mean value was used for between groups comparisons. A 30-second resting period will be allowed between each measurement. The pressure will be applied at a rate of 3 N/s up to a maximum of 60 N, which was not exceeded because of the risk of tissue damage.

Trial Locations

Locations (2)

Ibrahim Moustafa; 🇦🇪 Sharjah, United Arab Emirate, United Arab Emirates

University of Sharjah; 🇦🇪 Sharjah, United Arab Emirates