Inflammation Clinical Trial
Official title:
A Multidisciplinary Evaluation on the Effects of an Exercise Intervention on Markers of Health, Wellbeing and Performance in Law Enforcement Workers
This study aims to assess current health and fitness of law enforcement workers in various
roles, and to evaluate the impact of an exercise intervention on markers on physical and
mental wellbeing in this population.
The intervention will consist of an exercise programme specifically targeted at improving,
physical fitness and reducing musculoskeletal pain. Participants will be randomised to three
groups: a face to face intervention group, an online intervention group an a control group.
Self-reported physical health, musculoskeletal complaints, quality of sleep and occupational
stress will be measured via questionnaires. Pre and post measures of fitness will be measured
via functional strength testing and a cardiopulmonary exercise test. Pre and post cognitive
function will be measured via computer-based cognitive tests and brain functional
near-infrared spectroscopy (fNIRS). Systemic inflammation will be measured via hsCRP. Risk of
typeII diabetes will be measured via HbA1c. Daily physical activity and quality of sleep will
be measured via accelerometry and heart rate telemetry.
It is hypothesised that, upon completion of the programme, there will be an improvement in
cardiovascular fitness and physical strength, reduced musculoskeletal pain, improved
cognitive readiness and improved overall mental health and wellbeing.
Status | Recruiting |
Enrollment | 90 |
Est. completion date | June 30, 2023 |
Est. primary completion date | May 30, 2020 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 18 Years and older |
Eligibility |
Inclusion Criteria: - Healthy - Working in law enforcement Exclusion Criteria: - Participants with any form of physical injury, neuromuscular, respiratory or cardiovascular condition |
Country | Name | City | State |
---|---|---|---|
United Kingdom | The ISEH | London |
Lead Sponsor | Collaborator |
---|---|
University College, London |
United Kingdom,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Changes in musculoskeletal pain: measured via the Nordic Scale | Complaints of musculoskeletal pain, collected via a Nordic Scale. The scale runs from 0-10, where 0 is no pain at all and 10 is worst imaginable pain. | Change from baseline after 8 weeks | |
Primary | Change in upper body strength endurance (push) | Numbers of pushups performed in one minute with good form (eg. not dipping the hips and using full range of motion) | Change from baseline after 8 weeks | |
Primary | Change in upper body strength endurance (pull) | Numbers of inverted rows performed in one minute with good form (eg. not dipping the hips and using full range of motion) | Change from baseline after 8 weeks | |
Primary | Change in leg strength, measured via the Triple Hop test | Participants perform three hops on one leg. The total distance (cm) of the three hops is recorded. The test is repeated for both legs. | Change from baseline after 8 weeks | |
Primary | Change in lower limb power | Participants perform a counter-movement jump on a jump mat (Chronojump). Power (Watts) is recorded. | Change from baseline after 8 weeks | |
Primary | Change in hand grip strength | Hand grip strength (Newtons) is measured with a hand-held dynamometer. | Change from baseline after 8 weeks | |
Primary | Change in Cardiovascular fitness | measured via CPET test | Change from baseline after 8 weeks | |
Secondary | Change in simple reaction time after maximal exercise | Measured via cognitive tests on a computer screen using the ePrime software, which require the participant to press a key on the key board after seeing a specific image. Reaction time (milliseconds) and number of errors are recorded. | Change from baseline after a single bout of maximal exercise (CPET) | |
Secondary | Change in simple reaction time after an exercise intervention | Measured via cognitive tests on a computer screen using the ePrime software, which require the participant to press a key on the key board after seeing a specific image. Reaction time (milliseconds) and number of errors are recorded. | Change from baseline after 8 weeks | |
Secondary | Change in Motor Inhibition after maximal exercise | Measured via cognitive tests on a computer screen using the ePrime software, which require participants to press a key on the keyboard every time a new image appears on the screen, except when a specific picture appears (specified in the instructions), in which case they must refrain from pressing the key. Reaction time (milliseconds) and number of errors are recorded. | Change from baseline after a single bout of maximal exercise (CPET) | |
Secondary | Change in Motor Inhibition after an exercise intervention | Measured via cognitive tests on a computer screen using the ePrime software, which require participants to press a key on the keyboard every time a new image appears on the screen, except when a specific picture appears (specified in the instructions), in which case they must refrain from pressing the key. Reaction time (milliseconds) and number of errors are recorded. | Change from baseline after 8 weeks | |
Secondary | Change in source memory after maximal exercise | Measured via cognitive tests on a computer screen using the ePrime software, which require participants to recall specific details from an image shown previously. Reaction time (milliseconds) and number of errors are recorded. | Change from baseline after a single bout of maximal exercise (CPET) | |
Secondary | Change in source memory after an exercise intervention | Measured via cognitive tests on a computer screen using the ePrime software, which require participants to recall specific details from an image shown previously. Reaction time (milliseconds) and number of errors are recorded. | Change from baseline after 8 weeks | |
Secondary | Changes in blood flow in the prefrontal cortex after maximal exercise | Changes in saturation of oxy- and de-oxygenated blood in the prefrontal cortex of the brain as measured by near infrared spectroscopy (fNIRS). These two signals are then combined into one measure by using the correlation-based signal improvement (CBSI) procedure. | Change from baseline after a single bout of maximal exercise (CPET) | |
Secondary | Changes in blood flow in the prefrontal cortex after an exercise intervention | Changes in saturation of oxy- and de-oxygenated blood in the prefrontal cortex of the brain as measured by near infrared spectroscopy (fNIRS). These two signals are then combined into one measure by using the correlation-based signal improvement (CBSI) procedure. | Change from baseline after 8 weeks | |
Secondary | Cognitive failures | Measures via cognitive failures questionnaire. The questionnaire gives a score from 0-100, where a high number shows poor cognitive function. | Change from baseline after 8 weeks | |
Secondary | Gum inflammation (oral health) | visual assessment of inflammation of the gum edge and measurement of the depth of the gum pocket (mm) following gentle probing with a calibrated blunt probe | Baseline | |
Secondary | Change in levels of Occupational Stress | measured via Operational Police Stress Questionnaire (PSQ-Op),participants score 20 questions on a scale of 1-7, where 1 is no stress t alland 7 is very high stress. | Change from baseline after 8 weeks | |
Secondary | Change in levels of Trauma | measured via Impact of Events Scale (IES-R) questionnaires. Scores range from 0 - 88, where 0 is no trauma and 88 is severe trauma. A score of 24 or more signifies that PTSD is a clinical concern. 33 and above represents the best cutoff for a probable diagnosis of PTSD. | Change from baseline after 8 weeks | |
Secondary | Change in Lifestyle - Physical activity levels | Levels of physical activity measured via accelerometers and heart rate monitors using actigraphy, processed through the Actilife software. The software uses the two wearable devices to calculate proportions of the day spent in sedentary, light, moderate and vigorous activity. These measures are combined to show percentage of the day spent in each activity level. | Change from baseline after 8 weeks | |
Secondary | Changes in Quality of Sleep (objective) | Measured via accelerometers and heart rate monitors through Actilife software, which combined the heart rate and movement data from the wearable devices, providing a Sleep Efficiency score, reported as a percentage. A high percentage denotes good quality of sleep. | Change from baseline after 8 weeks | |
Secondary | Changes in Quality of Sleep (subjective) | Measured via and Pittsburg Sleep Quality Index (PSQI). The scale includes 7 items, each item is weighted on a 0-3 interval scale. The global PSQI score is then calculated by totaling the seven component scores, providing an overall score ranging from 0 to 21, where lower scores denote a healthier sleep quality. | Change from baseline after 8 weeks | |
Secondary | Changes in Systemic inflammation | hsCRP via Eurolyser | Change from baseline after 8 weeks | |
Secondary | Changes in Risk of type II diabetes | HBa1c via Eurolyser | Change from baseline after 8 weeks | |
Secondary | Nutrition | Eating habits assessed vi a Food Frequency Questionnaire, administered via an interview | Change from baseline after 8 weeks |
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