The Effect of Different Russian Current Parameters on MVIC Contraction of the Quadriceps Muscle Among University of Sharjah Students.

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.

Recruitment Status

UNKNOWN

Clinical Phase

NA

Total Enrollment

100 participants

Study Classification

INTERVENTIONAL

Study Start Date

2022-05-08

Study Completion Date

2023-04-30

Brief Summary

Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.

The study aims to investigate the effect of different Russian current parameters on maximum voluntary isometric contraction of the quadriceps muscle among University of Sharjah students.

Related Clinical Trials

Explore similar clinical trials based on study characteristics and research focus.

Contralateral Effects of Russian Current on Adolescent Athlete

NCT04913350

Treatment Side Effects

COMPLETED NA

Mode Specific Effects of Isokinetic Training of Hamstring on Hamstring to Quadriceps Ratio

NCT05229367

Muscle Strength

COMPLETED NA

Effect of Preoperative Abdominal Exercises and Russian Current on Muscle Strength Post Ventral Hernioplasty

NCT04239417

Muscle Strength

COMPLETED NA

Resistance Training and Blood Flow Restriction

NCT04938947

Blood Flow Restriction and Low-Intensity Resistance Training

COMPLETED NA

Effect of Abdominal Exercises and Russian Stimulation on The Abdominal Muscles Strength After Abdominoplasty

NCT04712331

Abdominoplasty

UNKNOWN NA

Detailed Description

Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.

Muscular strength and endurance are two important compatible parts of the body; for normal people to move, lift things and do day-to-day activities or athletic performance. Large number of studies have been carried out to elaborate the different factor that help in improving the muscular strength as well as the endurance combined with rehabilitation programs in order to promote muscle function and prevent the injury(Akinoglu \& Kocahan, 2020; Chou \& Binder-Macleod, 2007; Evetovich et al., 2001; Selkowitz, 1985; Snyder-Mackler et al., 1994; Ward et al., 2006). Strengthening and endurance training have been used frequently in varied rehabilitation protocols in order to improve the overall musculoskeletal performance.(Earl \& Hoch, 2011; Gondin et al., 2011). Meanwhile, Isokinetic training and Neuromuscular electrical stimulation are frequently utilized in physical therapy.(Brown \& Whitehurst, 2003; Chou \& Binder-Macleod, 2007; Evetovich et al., 2001; Stone, 1997).

Russian current is one of the popular preferred Neuromuscular electrical stimulation as it has been advocated to increase muscle strength due to its high tolerance as well as minimum pain level provocation (Akinoglu \& Kocahan, 2020; Gondin et al., 2011). Russian currents are alternating currents at a frequency of 2.5 kHz that are burst modulated at a frequency of 50 Hz with a 50% duty cycle. The widely and most popular training protocol used with Russian current is (10/50/10) in which the stimulus is applied for a 10-second "on" period followed by a 50-second "off" or rest period, with a recommended treatment time of 10 minutes per stimulation session. Russian currents are used mainly to generate a motor response, but it also has been investigated as an electro-analgesia type intervention. This training protocol is used mainly to generate a motor response, but it also has been investigated as an electro-analgesia type intervention.

Despite a lot of previous research regarding the Russian current; no studies are available in which suggest the most efficient carrier frequency for Russian current to strengthening the muscles and increase muscle with isokinetic training in the short term and the effect of different RC on the EIT by the quadriceps muscle. The aim of this study is directed toward investigation of those different Russian current carrier frequencies' effects on the quadriceps muscle isokinetic strength and endurance in addition to investigate the effect of different mode of RC on the EIT by the quadriceps femoris muscle. This study will include measurement for the knee torque and quadriceps muscle strength using Biodex system 3 that will be generated by different carrier frequency in addition to different RC mode, and investigate the relationship between those variables.

Conditions

See the medical conditions and disease areas that this research is targeting or investigating.

Quality of Life

Study Design

Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.

Allocation Method

RANDOMIZED

Intervention Model

FACTORIAL

Primary Study Purpose

SUPPORTIVE_CARE

Blinding Strategy

DOUBLE

Participants Caregivers

Study Groups

Review each arm or cohort in the study, along with the interventions and objectives associated with them.

Group1

training used Russian Current carrier frequency at 2500-Hz alternating current.

Group Type EXPERIMENTAL

Russian Current

Intervention Type DEVICE

The patient will be placed in sitting position, hip at 90-degree flexion, knee at 60°, the upper body supported by the backrest, cross belt support the trunk and cross belt support the pelvis. The dynamometer rotating axis will be aligned with knee joint axis and the resistance lever arm will place in the distal leg above the malleolus. The angle of the joints adjustment considering the joint's range of motion and the device's user's manual, any movement other than the range of motion determined by the mechanical limit will be not allowed

All electrical induced contraction will last 4 second each, with characteristics of 75 bursts; 4 second time on, 400 μs pulse width and 10 second time off. The greatest electrically induced torque by the quadriceps muscle at the maximum current output from the stimulator will be recorded for each subject to be used in data analysis. The same procedure will be done on the 3rd week and after 6th week.

Group2

training used Russian Current carrier frequency at 3750-Hz alternating current.

Group Type EXPERIMENTAL

Russian Current

Intervention Type DEVICE

The patient will be placed in sitting position, hip at 90-degree flexion, knee at 60°, the upper body supported by the backrest, cross belt support the trunk and cross belt support the pelvis. The dynamometer rotating axis will be aligned with knee joint axis and the resistance lever arm will place in the distal leg above the malleolus. The angle of the joints adjustment considering the joint's range of motion and the device's user's manual, any movement other than the range of motion determined by the mechanical limit will be not allowed

All electrical induced contraction will last 4 second each, with characteristics of 75 bursts; 4 second time on, 400 μs pulse width and 10 second time off. The greatest electrically induced torque by the quadriceps muscle at the maximum current output from the stimulator will be recorded for each subject to be used in data analysis. The same procedure will be done on the 3rd week and after 6th week.

Group3

training used Russian Current carrier frequency at 5000-Hz alternating current.

Group Type EXPERIMENTAL

Russian Current

Intervention Type DEVICE

The patient will be placed in sitting position, hip at 90-degree flexion, knee at 60°, the upper body supported by the backrest, cross belt support the trunk and cross belt support the pelvis. The dynamometer rotating axis will be aligned with knee joint axis and the resistance lever arm will place in the distal leg above the malleolus. The angle of the joints adjustment considering the joint's range of motion and the device's user's manual, any movement other than the range of motion determined by the mechanical limit will be not allowed

All electrical induced contraction will last 4 second each, with characteristics of 75 bursts; 4 second time on, 400 μs pulse width and 10 second time off. The greatest electrically induced torque by the quadriceps muscle at the maximum current output from the stimulator will be recorded for each subject to be used in data analysis. The same procedure will be done on the 3rd week and after 6th week.

Group4

training used Russian Current at different mode.

Group Type EXPERIMENTAL

Russian Current

Intervention Type DEVICE

The patient will be placed in sitting position, hip at 90-degree flexion, knee at 60°, the upper body supported by the backrest, cross belt support the trunk and cross belt support the pelvis. The dynamometer rotating axis will be aligned with knee joint axis and the resistance lever arm will place in the distal leg above the malleolus. The angle of the joints adjustment considering the joint's range of motion and the device's user's manual, any movement other than the range of motion determined by the mechanical limit will be not allowed

All electrical induced contraction will last 4 second each, with characteristics of 75 bursts; 4 second time on, 400 μs pulse width and 10 second time off. The greatest electrically induced torque by the quadriceps muscle at the maximum current output from the stimulator will be recorded for each subject to be used in data analysis. The same procedure will be done on the 3rd week and after 6th week.

Interventions

Learn about the drugs, procedures, or behavioral strategies being tested and how they are applied within this trial.

Russian Current

The patient will be placed in sitting position, hip at 90-degree flexion, knee at 60°, the upper body supported by the backrest, cross belt support the trunk and cross belt support the pelvis. The dynamometer rotating axis will be aligned with knee joint axis and the resistance lever arm will place in the distal leg above the malleolus. The angle of the joints adjustment considering the joint's range of motion and the device's user's manual, any movement other than the range of motion determined by the mechanical limit will be not allowed

All electrical induced contraction will last 4 second each, with characteristics of 75 bursts; 4 second time on, 400 μs pulse width and 10 second time off. The greatest electrically induced torque by the quadriceps muscle at the maximum current output from the stimulator will be recorded for each subject to be used in data analysis. The same procedure will be done on the 3rd week and after 6th week.

Intervention Type DEVICE

Other Intervention Names

Discover alternative or legacy names that may be used to describe the listed interventions across different sources.

The Biodex isokinetic dynamometer

Eligibility Criteria

Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.

Inclusion Criteria

1. Their age ranged from 18 to 25 years.
2. Their Body Mass Index (BMI) within normal range (18.5-25).
3. Don't have any health related condition that required medical attention in the past two years.
4. All participant at same physical fitness level.

Exclusion Criteria

* The subjects will be excluded from this study if they have any of the following criteria:

1. Quadriceps muscle injury.
2. Spinal or lower limb fractures.
3. Lower limb deformities.
4. Associated cognition abnormalities which may to affect muscle and limb function
5. Tumors or radicular symptoms
6. Recent muscular lesion, knee injury, sensory changes and neuromuscular disease
7. Previous surgery that may affect the lower limb muscle performance.
8. Any contraindication for Russian current application

Minimum Eligible Age

18 Years

Maximum Eligible Age

25 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes