Background: Studies have shown the negative impact of physical inactivity, sedentary and unhealthy eating behavior on worker health and productivity. Sedentary workers are at greater risk of developing chronic diseases due to these behavioral risk factors. The literature moderately supports mHealth interventions for promoting physical activity and healthy diets. However, there is a dearth of research on mHealth interventions targeting the clustering of physical activity, sedentary and dietary behavior among sedentary workers in the occupational setting. Furthermore, there is a lack of evidence on its long-term sustainability and cost-effectiveness on health behaviors as well as health-related and work- related outcomes. Purpose: To evaluate a 12-week theory-driven, tailored mHealth intervention for improving diet, physical activity and sedentary behavior among sedentary workers. Three specific aims are to: (1) determine intervention participants' perceptions of and engagement with the mHealth program components to understand intervention effects by surveys and focus groups; (2) determine the effectiveness of the mHealth intervention compared to usual care; and (3) determine the cost-effectiveness of the mHealth intervention compared to usual care, using incremental cost-effectiveness ratios (ICERs). Methods: This is a three-year research project. Year 1 is mHealth intervention delivery and evaluation using a quasi-experimental design. Concepts of social cognitive theory of self-regulation and self-efficacy and an ecological model provide the theoretical foundation for the intervention. Year 2 will be primarily to evaluate the intervention. Year 3 will be primarily an international comparison of cost-effectiveness of mHealth interventions to improve diet, physical activity and sedentary behavior for employees. A total of 100 sedentary workers (50 per condition) will be recruited from two workplaces. The intervention group will have access to the Internet for using a newly developed Simple health web app and receive an activity tracker. A sample of 100 is required to detect differences in primary outcomes: cardiometabolic risk biomarkers, productivity loss, body composition, physical activity, sedentary behavior, and dietary behavior; and secondary outcomes: self-report self-efficacy and self-regulation, at baseline, 3-, 12-, and 24-month follow up. Generalized estimating equations (GEE) will be used to examine intervention effects over time.
The Simple health web app will consist of six major components: (1) daily healthy eating goals and records; (2) daily physical activity goals and records; (3) daily stand-up goals and records; (4) advice and reminder; (5) educational and motivational tools; and (6) personal and team health ranking.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
PREVENTION
Masking
SINGLE
Enrollment
101
The mHealth Intervention will provide sedentary workers with evidence-based information on diet, physical activity and sedentary behavior, and tailored feedback on their responses to daily records. Key features of this intervention will include individualized feedback and multimedia presentation in the form of web app. The intervention group will also receive a reliable device for wireless physical activity tracking for monitoring step counts. The web app will consist of seven major components: (1) daily healthy eating goals and records; (2) daily physical activity goals and records; (3) daily stand-up goals and records; (4) advice and reminder; (5) educational and motivational tools; (6) personal and team health ranking; and (7) online social network. In addition, the intervention will be enhanced with follow-up booster coaching calls bi-monthly at 2, 4, 6, 8 months after the 12-week intervention.
The control intervention group will receive educational tools, which will provide knowledge on benefits of physical activity and healthy eating, health risks of sitting and unhealthy diets, and recommendations on physical activity and a balanced healthy diet for good health.
China Medical University
Taichung, N/A = Not Applicable, Taiwan
Objectively measured physical activity
Physical activity will be objectively measured by the wrist-worn Fitbit Charge 3 (3-axis accelerometer)
Time frame: Changes from baseline objectively measured physical activity at 3-, 12-, and 24-month
Self-report physical activity
Physical activity will be assessed by International Physical Activity Questionnaire (IPAQ)-Taiwan short form
Time frame: Changes from baseline self-report physical activity at 3-, 12-, and 24-month
Objectively measured dietary behavior
Dietary behavior will be objectively measured with 3-day food photography
Time frame: Changes from baseline objectively measured dietary behavior at 3-, 12-, and 24-month
Self-report dietary behavior
Dietary behavior will be assessed by the Healthy Eating Behavior Inventory (HEBI)
Time frame: Changes from baseline self-report dietary behavior at 3-, 12-, and 24-month
Occupational sitting and physical activity
Occupational sitting and physical activity will be assessed by the Occupational Sitting and Physical Activity Questionnaire (OSPAQ)
Time frame: Changes from baseline occupational sitting and physical activity at 3-, 12-, and 24-month
Work productivity
Work productivity will be measured by Work Limitation Questionnaire (Taiwan) short-form (WLQ-SF)
Time frame: Changes from baseline work productivity at 3-, 12-, and 24-month
Fasting blood glucose
Fasting blood glucose will be measured by collecting fasting blood samples in the morning
Time frame: Changes from baseline fasting blood glucose at 3-, 12-, and 24-month
Fasting insulin
Fasting insulin will be measured by collecting fasting blood samples in the morning
Time frame: Changes from baseline fasting insulin at 3-, 12-, and 24-month
Total cholesterol
Total cholesterol will be measured by collecting fasting blood sample in the morning
Time frame: Changes from baseline total cholesterol at 3-, 12-, and 24-month
Low-density lipoprotein (LDL) cholesterol
LDL cholesterol will be measured by collecting fasting blood sample in the morning
Time frame: Changes from baseline LDL cholesterol at 3-, 12-, and 24-month
High-density lipoprotein (HDL) cholesterol
HDL cholesterol will be measured by collecting fasting blood sample in the morning
Time frame: Changes from baseline HDL cholesterol at 3-, 12-, and 24-month
Triglycerides
Triglycerides will be measured by collecting fasting blood samples in the morning
Time frame: Changes from baseline triglycerides at 3-, 12-, and 24-month
Blood pressure
Blood pressure will be measured twice per person via an automated sphygmomanometer using the right arm and an appropriately sized cuff. A third measurement will be taken if the systolic BP differs by \>10 mmHg or the diastolic BP by \>6 mmHg.
Time frame: Changes from baseline blood pressure at 3-, 12-, and 24-month
Weight
Weight will be measured by ioi 353 body composition analyzer (JAWON MEDICAL)
Time frame: Changes from baseline weight at 3-, 12-, and 24-month
Abdominal circumference
Abdominal circumference will be measured by ioi 353 body composition analyzer (JAWON MEDICAL)
Time frame: Changes from baseline abdominal circumference at 3-, 12-, and 24-month
Percent body fat
Percent body fat will be measured by ioi 353 body composition analyzer (JAWON MEDICAL)
Time frame: Changes from baseline percent body fat at 3-, 12-, and 24-month
Soft lean mass
Soft lean mass will be measured by ioi 353 body composition analyzer (JAWON MEDICAL)
Time frame: Changes from baseline soft lean mass at 3-, 12-, and 24-month
Visceral fat area
Visceral fat area will be measured by ioi 353 body composition analyzer (JAWON MEDICAL)
Time frame: Changes from baseline visceral fat area at 3-, 12-, and 24-month
Self-efficacy for reducing sitting
Self-efficacy for reducing sitting will be assessed by the self-efficacy for reducing sitting scale
Time frame: Changes from baseline self-efficacy for reducing sitting at 3-, 12-, and 24-month
Self-efficacy for physical activity
Self-efficacy for physical activity will be assessed by the self-efficacy for physical activity scale
Time frame: Changes from baseline self-efficacy for physical activity at 3-, 12-, and 24-month
Self-efficacy for healthy eating
Self-efficacy for healthy eating will be assessed by the self-efficacy for healthy eating scale
Time frame: Changes from baseline self-efficacy for healthy eating at 3-, 12-, and 24-month
Self-regulation of sitting less and moving more
Self-regulation of sitting less and moving more will be assessed by the self-regulation for sitting less and moving more scale
Time frame: Changes from baseline self-regulation of sitting less and moving more at 3-, 12-, and 24-month
Self-regulation of eating behaviour
Self-regulation of eating behaviour will be assessed by the Self-Regulation of Eating Behaviour Questionnaire
Time frame: Changes from baseline self-regulation of eating behaviour at 3-, 12-, and 24-month
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.