What Is This Study About? To find out whether carrying heavy shopping bags twice a week can help adults not currently meeting physical activity strength guidelines improve muscle mass, strength, power, and endurance. What Can Be learnt? * Can carrying shopping bags help improve muscle mass, strength, power, and endurance? * Should carrying shopping bags be included within physical activity recommendations? Two groups will be compared: * One group will carry shopping bags twice a week within a controlled lab environment * The other group won't change anything in their routine. What Will Participants Do? * Self-select a weight for shopping bags that is heavy but can be carried for 15 minutes to use for all sessions * Walk with shopping bags for 15 minutes at a normal walking speed for carrying shopping home from the supermarket. * After each minute, the time stops and participants place bags on the floor. The time restarts for the next minute when the participant chooses to pick up the bags again.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
45
Four-week shopping bag carry intervention (15 mins, 2x per week). Performed under supervision in laboratory.
university of glasgow, James Black Building Lab
Glasgow, Glasgow City, United Kingdom
Back strength
Takei Back Strength Dynamometer (T.K.K. 5002 BACK-A Type-3) used to measure back strength to the nearest 1 kg. Measurements taken with the legs, back and arms straight and the torso flexed to 30 degrees at the hip with the handle held in a natural grip. Participants instructed to gradually pull as hard as they could on the handle in order to raise the upper part of their body without bending their knees. Three trials performed with the maximum value used in the analysis.
Time frame: Baseline and one week after the intervention ended
Jump Height
Assessed using a countermovement jump with hands on hips. Participants instructed to crouch into a squat position and then jump as high as possible with legs fully extended and landing on the same spot with knees extended and feet together. After a familiarisation attempt, participants to perform three countermovement jumps and the maximum peak power used in the analysis. Jump height and flight time calculated using Microgate Optojump Next software version 1.10.5.0 connected to photoelectric bars RX10 and TX10 (Microgate Optojump Next, Bolzano, Italy) placed parallel to each other. Jump height derived from the equation: H = g×t2/8 (H = the jump height (m), t = jump flight time (seconds) and g = acceleration due to gravity (9.81 m/s-2))
Time frame: Baseline and one week after the intervention ended
Peak Power
Assessed using a countermovement jump with hands on hips. Participants instructed to crouch into a squat position and then jump as high as possible with legs fully extended and landing on the same spot with knees extended and feet together. After a familiarisation attempt, participants to perform three countermovement jumps and the maximum peak power used in the analysis. Jump height and flight time calculated using Microgate Optojump Next software version 1.10.5.0 connected to photoelectric bars RX10 and TX10 (Microgate Optojump Next, Bolzano, Italy) placed parallel to each other. Peak Power calculated using the Sayers equation: Peak Power (Watts) = 60.7 × jump height (cm) + 45.3 × body mass (kg) - 2055
Time frame: Baseline and one week after the intervention ended
Muscle Endurance
Endurance assessed by a 60 second sit to stand test using a 46.5cm high, straight-backed chair with a hard seat and no arm rests. From a seated position with hands on shoulders and arms crossed across the chest, participants instructed to stand up from the chair until their legs were completely straight, then sit back down again (one complete sit to stand) as many times as possible in 60 seconds. The number of complete sit to stands used in the analysis.
Time frame: Baseline and one week after the intervention ended
Grip strength
Jamar hydraulic hand dynamometer in handle position II used to measure grip strength to the nearest 1 kg. Measurements taken with the participant seated with feet flat on the floor, elbow flexed 90 degrees by their side and with the wrist just over the end of the arm of the chair in a neutral position (thumbs-up position). Participants instructed to squeeze as hard as possible until the needle stopped rising with the verbal encouragement of "squeeze, squeeze, squeeze and relax". Three trials performed on each side, alternately, with the maximum value used in the analysis in accordance with the Southampton protocol
Time frame: Baseline and one week after the intervention ended
Body composition
Assessed using a Body Composition Analyzer Type BC-418 MA (Tanita Corporation, Tokyo, Japan) to determine whole body bioimpedance between the hands and feet by applying a constant current of 90 microamps at 50kHz through the body. Measurements taken in the standing position with bare feet placed on the footplate electrodes and the hand grip electrodes held by the side of the body. Whole body impedance used to derive skeletal muscle mass.
Time frame: Baseline and one week after the intervention ended
Distance shopping carried
The number of complete corridor lengths walked with the shopping bags in 15 minutes was recorded for those in the intervention group.
Time frame: 2 x per week at every visit throughout the 4 week intervention
Perceived exertion
Perceived exertion was measured using the Borg Rating of Perceived Exertion scale (RPE) \[44\] from 6-20, with 20 meaning the harderst exertion and 6 the least exertion at the end of each 15-minute carry for those in the intervention group.
Time frame: 2 x per week at every visit throughout the 4 week intervention
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