NCT06036953

Brief Summary

In recent years, electrical muscle stimulation (EMS) devices have been developed as a complementary training technique that is novel, attractive, and time-saving for physical fitness and rehabilitation. While it is known that EMS training can improve muscle mass and strength, most studies have focused on the elderly or specific patient populations. The aim of this study was to investigate the effects of frequency-specific EMS combined with resistance exercise training for 8 weeks on muscle mass, strength, power, body composition, and parameters related to exercise fatigue. Additionally, we aimed to evaluate the feasibility and safety of EMS as an exercise aid to improve body composition. We recruited 14 male and 14 female subjects who were randomly assigned to two groups with gender parity (7 male and 7 female/group): (1) no EMS group and (2) daily EMS group. Blood biochemical routine analysis was performed every 4 weeks from pre-intervention to post-intervention, and body composition, muscle strength, and explosive power were evaluated 8 weeks before and after the intervention. We also performed an exercise challenge analysis of fatigue biochemical indicators after 8 weeks of intervention.

Trial Health

87
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
28

participants targeted

Target at below P25 for not_applicable

Timeline
Completed

Started Nov 2021

Geographic Reach
1 country

1 active site

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

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Study Timeline

Key milestones and dates

Study Start

First participant enrolled

November 15, 2021

Completed
2 months until next milestone

Primary Completion

Last participant's last visit for primary outcome

January 14, 2022

Completed
10 months until next milestone

Study Completion

Last participant's last visit for all outcomes

November 23, 2022

Completed
10 months until next milestone

First Submitted

Initial submission to the registry

September 7, 2023

Completed
7 days until next milestone

First Posted

Study publicly available on registry

September 14, 2023

Completed
Last Updated

September 14, 2023

Status Verified

September 1, 2023

Enrollment Period

2 months

First QC Date

September 7, 2023

Last Update Submit

September 7, 2023

Conditions

Electrical Muscle StimulationExerciseResistance Training

Outcome Measures

Primary Outcomes (8)

  • VO2max

    To evaluate the maximum oxygen consumption and exercise performance, we used a treadmill (Pulsar, h/p/cosmos, Nussdorf-Traunstein, Germany) and an automatic breathing analyzer (Vmax 29c, Sensor Medics, Yorba Linda, CA, USA). In addition, a polar heart rate device was used to monitor the heart rate (HR). The speed range of the treadmill was set to 7.2 km/h and increased by 1.8 km/h every 2 min until fatigue, according to Bruce's protocol. When the breathing exchange rate (the volume ratio of carbon dioxide produced to oxygen consumed, VCO2/VO2) was higher than 1.10 and reached the maximum heart rate (maximum heart rate = 220 - age), oxygen consumption was considered to be maximum. The three highest VO2max peak were averaged to obtain the VO2max values of the individual volunteers.

    After 8 weeks of EMS

  • Body composition_body fat

    The multi-frequency principle was applied to measure body composition by using a bioelectrical impedance analyzer (BIA) on an InBody 570 device (In-body, Seoul, South Korea). To perform the measurements, after the subjects' palms and soles were removed from the sensors, the subjects stood on the footing electrodes and held the sensing handles with two hands. During the measurements, the subjects kept their arms open and left their bodies at an angle of 30° without speaking or moving. The subjects also fasted for at least 8 h before the test. The body fat were meansure

    up to 8 weeks

  • Body composition_muscle mass

    The multi-frequency principle was applied to measure body composition by using a bioelectrical impedance analyzer (BIA) on an InBody 570 device (In-body, Seoul, South Korea). To perform the measurements, after the subjects' palms and soles were removed from the sensors, the subjects stood on the footing electrodes and held the sensing handles with two hands. During the measurements, the subjects kept their arms open and left their bodies at an angle of 30° without speaking or moving. The subjects also fasted for at least 8 h before the test. The muscle mass were meansure

    up to 8 weeks

  • Grip strength

    Use the armed grip machine (T.K.K.5401, Takei Scientific Instruments Co.,Ltd, Niigata, Japan) to measure, hold each of the left and right hands three times until they are weak, and record the maximum value

    up to 8 weeks

  • The Countermovement Jump (CMJ) Test

    The CMJ test is a practical, effective, reliable, and simple method of measuring lower limb strength, which is related to the maximum speed, strength and explosive force of the lower limbs. For this test, participants stood on the Kistler force measurement platform (9260AA, Kistler Co., Ltd., Switzerland) on both feet and performed to inspection. During the test, they were asked to put their hands on their hips and remain on the platform. After that, they were asked to squat down until the knees bent 90 degrees and then to immediately jump as high as possible. The average power (MF), were recorded during the jump. Each participant repeated the test 3 times, and CMJ data were obtained at the designated points. The instrument was calibrated for each individual's weight.

    up to 8 weeks

  • Clinical Biochemistry of lactate level

    For assessment of fatigue-related indices, volunteers fasted for at least 8 h before the 60% VO2max fixed intensity exercise challenge. Blood samples were collected with an arm venous catheter at indicated time points during exercise and recovery periods, including baseline (0), 30 (E30) min during the exercise phase, and 60 (R60) min in the recovery phase. Serum lactate (mmol/L), were assessed for monitoring physiological adaptation. All biochemical indices were assessed using an autoanalyzer (Hitachi 7060, Tokyo, Japan).

    After 8 weeks of EMS

  • Clinical Biochemistry of ammonia level

    For assessment of fatigue-related indices, volunteers fasted for at least 8 h before the 60% VO2max fixed intensity exercise challenge. Blood samples were collected with an arm venous catheter at indicated time points during exercise and recovery periods, including baseline (0), 30 (E30) min during the exercise phase, and 60 (R60) min in the recovery phase. Serum ammonia (umol/L), were assessed for monitoring physiological adaptation. All biochemical indices were assessed using an autoanalyzer (Hitachi 7060, Tokyo, Japan).

    After 8 weeks of EMS

  • Clinical Biochemistry of glucose level

    For assessment of fatigue-related indices, volunteers fasted for at least 8 h before the 60% VO2max fixed intensity exercise challenge. Blood samples were collected with an arm venous catheter at indicated time points during exercise and recovery periods, including baseline (0), 30 (E30) min during the exercise phase, and 60 (R60) min in the recovery phase. Serum glucose (mg/dL), were assessed for monitoring physiological adaptation. All biochemical indices were assessed using an autoanalyzer (Hitachi 7060, Tokyo, Japan).

    After 8 weeks of EMS

Secondary Outcomes (7)

  • Safety assessment - AST

    baseline, 4 week and 8 week

  • Safety assessment - ALT

    baseline, 4 week and 8 week

  • Safety assessment - BUN

    baseline, 4 week and 8 week

  • Safety assessment - Creatinine

    baseline, 4 week and 8 week

  • Safety assessment - Uric Acid

    baseline, 4 week and 8 week

  • +2 more secondary outcomes

Study Arms (2)

No EMS

NO INTERVENTION

EMS

EXPERIMENTAL
Device: electrical muscle stimulation

Interventions

electrical muscle stimulationDEVICE

The electric muscle stimulator (EMS) used in this study was from Funcare (Funcare Co., Ltd, Taichung, Taiwan). EMS electrodes were attached to the biceps of both hands, the abdomen, and the quadriceps of both legs sequentially. Each part was stimulated once a day for 30 minutes.

EMS

Eligibility Criteria

Age20 Years - 40 Years
Sexall
Healthy VolunteersYes
Age GroupsAdult (18-64)

You may qualify if:

  • healthy

You may not qualify if:

  • smoking or drinking habits
  • cardiovascular disease
  • neuromuscular disease
  • metabolic disease
  • asthma
  • pregnancy
  • body mass index (BMI) over 27

Contact the study team to confirm eligibility.

Sponsors & Collaborators

Study Sites (1)

Graduate Institute of Sports Science, National Taiwan Sport University

Taoyuan District, 33301, Taiwan

Location

MeSH Terms

Conditions

Motor Activity

Condition Hierarchy (Ancestors)

Behavior

Study Design

Study Type
interventional
Phase
not applicable
Allocation
RANDOMIZED
Masking
NONE
Purpose
BASIC SCIENCE
Intervention Model
PARALLEL
Sponsor Type
OTHER
Responsible Party
PRINCIPAL INVESTIGATOR
PI Title
Distinguished Professor

Study Record Dates

First Submitted

September 7, 2023

First Posted

September 14, 2023

Study Start

November 15, 2021

Primary Completion

January 14, 2022

Study Completion

November 23, 2022

Last Updated

September 14, 2023

Record last verified: 2023-09

Locations

TW(1)