The Effects of Strength and Balance Training on Physical Function in Overweight Children

NCT05665621 | Unknown

• 1 other identifier: StMarysUC7
• Study Type: interventional
• Target: 30
• Locations: 1 country
• Sites: 3

Brief Summary

This intervention study aims to examine the efficacy of a school-based exercise programme to improve strength and balance in overweight and obese 7-11-year-olds in the United Kingdom. The main question\[s\] it aims to answer are:

• Is the school-based exercise programme effective in improving lower limb muscular strength and balance control?
• How do increases in strength and balance skills impact physical function, the risk to musculoskeletal health, and physical activity? Participants will attend baseline, post-intervention, and follow-up testing that includes assessment of strength, balance, 3D gait, plantar pressure, physical function and physical activity. The intervention group will take part in physical activity sessions in their school for 1 hour twice a week for a total of 8 weeks. Researchers will compare the intervention group to a control group that will take part in no-activity sessions and carry out their normal school and seasonal activities.

Conditions

Obesity, Childhood

Outcome Measures

Primary Outcomes (20)

• Change in Body Mass Index Z-Score

  Body mass index will be calculated as body mass (kg) / height (m)2. Body mass will be measured using weighing scales and height by stadiometer whilst participants are barefooted with simple clothing (shorts and t-shirt). Z-scores denote the standard deviations that BMI for gender and height are from the mean of United Kingdom child reference curves. A higher z-score means greater BMI than the mean for child gender and height.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in body fat percentage

  Bioelectrical impedance will be used to determine whole-body impedance. Population-specific equations will be applied to estimate body fat (kg). The percentage of body fat will be calculated as (Fat Mass (kg)/Body Mass(kg))\*100.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in fat free mass (kg)

  Bioelectrical impedance will be used to determine whole-body impedance. Population-specific equations will be applied to estimate body fat (kg). Fat-free mass will be calculated as Body Mass (kg) - fat mass (kg).

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in lower limb 3D gait.

  Joint angles, moments, and power waveforms of hip, knee and ankle in three dimensions during the stance phase of self-paced walking. Change in lower limb 3D gait will be determined via a previously validated marker set for obese children, time normalised to 100% of stance phase, and moment and power will be dimensionless normalised to body mass and leg length.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in 3D foot in gait.

  The angle of the forefoot, midfoot, rearfoot and shank in three dimensions during the stance phase of self-paced walking. Change in foot 3D gait will be determined via a previously validated marker set for obese children, and time normalised to 100% of the stance phase.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in lower limb muscular strength relative to body mass.

  Isokinetic dynamometry will be used to determine the maximal strength of hip extension, hip flexion, hip adduction, hip abduction, knee extension, knee flexion, ankle plantarflexion, and ankle dorsiflexion. Maximal moments will be allometrically scaled to body mass.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in lower limb muscular strength relative to fat free mass.

  Isokinetic dynamometry will be used to determine the maximal strength of hip extension, hip flexion, hip adduction, hip abduction, knee extension, knee flexion, ankle plantarflexion, and ankle dorsiflexion. Maximal moments will be allometrically scaled to fat-free mass.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in six minute walk distance.

  The maximal distance walked in six minutes will be recorded in meters.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in sit to stand repetitions

  The maximal number of times participants are able to stand up and sit down in one minute. The stool used will be adjusted so the participant's knee is at 90 degrees when seated, and arms will be placed across the chest.

  Baseline to end of 8-week intervention and to end of 8-week follow up period.

• Change in timed up and go time

  The time (seconds) it takes participants to stand from seated (knees 90 degrees), arms across chest, walk 3m turn and go back to seating.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in single leg stance time

  The maximum amount of time participants are able to maintain stance on their dominant limb with the non-dominant limb flexed 90 degrees and hands held on the waist. The test is stopped when the non-dominant limb touches the ground, participants move their hands or dominant limb to maintain balance.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in single leg stance time with eye closed

  The maximum amount of time participants are able to maintain stance on their dominant limb with the non-dominant limb flexed 90 degrees and hands held on the waist and with their eyes closed. The test is stopped when the non-dominant limb touches the ground, participants move their hands or dominant limb to maintain balance.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in percentage of time spent in sedentary activity.

  Tri-axial accelerometry will be used to determine physical activity over three days (including one weekend day). Child-specific cutoff equations will be used to determine times of sedentary behaviour. Total time in mins will be divided by total wear time to get percentage of time in sedentary activity.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in percentage of time spent in moderate to vigorous activity.

  Tri-axial accelerometry will be used to determine physical activity over three days (including one weekend day). Child-specific cutoff equations will be used to determine times spent in moderate to vigorous physical activity. Total time in mins will be divided by total wear time to get the percentage of time in moderate to vigorous activity.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in total vector magnitude counts

  Tri-axial accelerometry will be used to determine physical activity over three days (including one weekend day). Vector magnitude counts are a total raw measure of movement.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in quality of life score.

  Previously validated Paediatric Quality of Life (PedsQL; physical function section only) will be completed on a 5-point Likert scale and scored. Items are reversed, scored and linearly transformed to a 0-100 scale as follows: 0=100, 1=75, 2=50, 3=25, 4=0. If more than 50% of the items in the scale are missing, the scale scores should not be computed; mean score = Sum of the items over the number of items answered. A higher score denotes a better quality of life whilst a lower score suggests a poorer quality of life.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in pain reported now

  Previously validated paediatric pain questionnaire visual analogue scale for present pain. 10cm (100mm) visual analogue scales from 0 (Not hurting / No discomfort / No pain) to 10 (100) (Hurting a whole lot / Very uncomfortable / Severe pain). The value will be presented as mm from 0. A higher value means greater pain is present.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in worst pain

  Previously validated paediatric pain questionnaire visual analogue scale for worst pain in last seven days.10cm (100mm) visual analogue scales from 0 (Not hurting / No discomfort / No pain) to 10 (100) (Hurting a whole lot / Very uncomfortable / Severe pain). The value will be presented as mm from 0. A higher value means greater pain is present.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in physical activity enjoyment scale

  Previously validated 16-item 5-point Likert scale from 1 (I disagree a lot) to 5 (I agree a lot). Negatively worded sites are reverse scored, and the overall enjoyment for physical activity score is determined by summing all items. A higher score means greater enjoyment of physical activity.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

• Change in basic psychological needs in exercise scale score

  Previously validated 18-item 5-point Likert scale from 1 (I disagree a lot) to 5 (I agree a lot). An average score for each subdivision of autonomy, competence, relatedness and teacher relatedness is calculated. A higher score means positive support felt for each subdivision.

  Baseline to end of the 8-week intervention and to end of 8-week follow-up period.

Study Arms (2)

Training group

EXPERIMENTAL

Eight-week in-school strength and balance training program

Other: Eight-week in-school strength and balance training program

Control

NO INTERVENTION

No intervention, normal activities.

Interventions

Eight-week in-school strength and balance training program OTHER

Training program consisting of two 1-hour strength and balance training sessions per week.

Training group

Eligibility Criteria

• Age: 7 Years - 11 Years
• Sex: all
• Healthy Volunteers: Yes
• Age Groups: Child (0-17)

You may qualify if:

• Overweight or obese

Sponsors & Collaborators

• St. Mary's University, Twickenham: lead

Study Sites (3)

Orchard Primary school

Hounslow, Greater London, TW4 5JW, United Kingdom

RECRUITING

Isleworth Town Primary School

Isleworth, Greater London, TW7 6AB, United Kingdom

RECRUITING

Beavers Primary School

Hounslow, London, TW4 6HR, United Kingdom

RECRUITING

MeSH Terms

Conditions

Pediatric Obesity

Condition Hierarchy (Ancestors)

Obesity; Overweight; Overnutrition; Nutrition Disorders; Nutritional and Metabolic Diseases; Body Weight; Signs and Symptoms; Pathological Conditions, Signs and Symptoms

Study Officials

• Ryan Mahaffey, PhD

  St. Mary's University, Twickenham

  PRINCIPAL INVESTIGATOR

Central Study Contacts

Megan Le Warne, MRes

CONTACT

020 8240 4034; megan.lewarne@stmarys.ac.uk

Study Design

• Study Type: interventional
• Phase: not applicable
• Allocation: NON RANDOMIZED
• Masking: NONE
• Purpose: BASIC SCIENCE
• Intervention Model: PARALLEL
• Sponsor Type: OTHER
• Responsible Party: SPONSOR

Study Record Dates

• First Submitted: December 16, 2022
• First Posted: December 27, 2022
• Study Start: March 13, 2023
• Primary Completion: August 13, 2023
• Study Completion: August 13, 2023
• Last Updated: February 28, 2023

Record last verified: 2023-02

Data Sharing

• IPD Sharing: Will not share

Locations

GB (3)