Effects of a Web-Based Personalized Intervention on Physical Activity in European Adults: A Randomized Controlled Trial

C.F.M. Marsaux; C. Celis-Morales; R. Fallaize; A.L. Macready; S. Kolossa; C. Woolhead; C.B. O'Donovan; H. Forster; S. Navas-Carretero; R. San-Cristobal; C.P. Lambrinou; G. Moschonis; A. Surwillo; M. Godlewska; A. Goris; J. Hoonhout; C.A. Drevon; Y. Manios; I. Traczyk; M.C. Walsh; E.R. Gibney; L. Brennan; J.A. Martinez; J.A. Lovegrove; M.J. Gibney; H. Daniel; J.C. Mathers; W.H. Saris

doi:10.2196/jmir.4660

Effects of a Web-Based Personalized Intervention on Physical Activity in European Adults: A Randomized Controlled Trial

C.F.M. Marsaux^*, C. Celis-Morales, R. Fallaize, A.L. Macready, S. Kolossa, C. Woolhead, C.B. O'Donovan, H. Forster, S. Navas-Carretero, R. San-Cristobal, C.P. Lambrinou, G. Moschonis, A. Surwillo, M. Godlewska, A. Goris, J. Hoonhout, C.A. Drevon, Y. Manios, I. Traczyk, M.C. WalshE.R. Gibney, L. Brennan, J.A. Martinez, J.A. Lovegrove, M.J. Gibney, H. Daniel, J.C. Mathers, W.H. Saris

^*Corresponding author for this work

Humane Biologie

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

BACKGROUND: The high prevalence of physical inactivity worldwide calls for innovative and more effective ways to promote physical activity (PA). There are limited objective data on the effectiveness of Web-based personalized feedback on increasing PA in adults. OBJECTIVE: It is hypothesized that providing personalized advice based on PA measured objectively alongside diet, phenotype, or genotype information would lead to larger and more sustained changes in PA, compared with nonpersonalized advice. METHODS: A total of 1607 adults in seven European countries were randomized to either a control group (nonpersonalized advice, Level 0, L0) or to one of three personalized groups receiving personalized advice via the Internet based on current PA plus diet (Level 1, L1), PA plus diet and phenotype (Level 2, L2), or PA plus diet, phenotype, and genotype (Level 3, L3). PA was measured for 6 months using triaxial accelerometers, and self-reported using the Baecke questionnaire. Outcomes were objective and self-reported PA after 3 and 6 months. RESULTS: While 1270 participants (85.81% of 1480 actual starters) completed the 6-month trial, 1233 (83.31%) self-reported PA at both baseline and month 6, but only 730 (49.32%) had sufficient objective PA data at both time points. For the total cohort after 6 months, a greater improvement in self-reported total PA (P=.02) and PA during leisure (nonsport) (P=.03) was observed in personalized groups compared with the control group. For individuals advised to increase PA, we also observed greater improvements in those two self-reported indices (P=.006 and P=.008, respectively) with increased personalization of the advice (L2 and L3 vs L1). However, there were no significant differences in accelerometer results between personalized and control groups, and no significant effect of adding phenotypic or genotypic information to the tailored feedback at month 3 or 6. After 6 months, there were small but significant improvements in the objectively measured physical activity level (P<.05), moderate PA (P<.01), and sedentary time (P<.001) for individuals advised to increase PA, but these changes were similar across all groups. CONCLUSIONS: Different levels of personalization produced similar small changes in objective PA. We found no evidence that personalized advice is more effective than conventional "one size fits all" guidelines to promote changes in PA in our Web-based intervention when PA was measured objectively. Based on self-reports, PA increased to a greater extent with more personalized advice. Thus, it is crucial to measure PA objectively in any PA intervention study. TRIAL REGISTRATION: ClinicalTrials.gov NCT01530139; http://clinicaltrials.gov/show/NCT01530139 (Archived by WebCite at: http://www.webcitation.org/6XII1QwHz).

Original language	English
Article number	e231
Number of pages	17
Journal	Journal of Medical Internet Research
Volume	17
Issue number	10
DOIs	https://doi.org/10.2196/jmir.4660
Publication status	Published - Oct 2015

Keywords

physical activity
eHealth
randomized controlled trial
personalized nutrition
genotype
phenotype
Internet
ENERGY-EXPENDITURE
ACTIVITY QUESTIONNAIRES
HEALTH INTERVENTIONS
BEHAVIOR-CHANGE
OBESE SUBJECTS
ACCELEROMETER
VALIDATION
NUTRITION
INTERNET
DESIGN

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Cite this

Marsaux, C. F. M., Celis-Morales, C., Fallaize, R., Macready, A. L., Kolossa, S., Woolhead, C., O'Donovan, C. B., Forster, H., Navas-Carretero, S., San-Cristobal, R., Lambrinou, C. P., Moschonis, G., Surwillo, A., Godlewska, M., Goris, A., Hoonhout, J., Drevon, C. A., Manios, Y., Traczyk, I., ... Saris, W. H. (2015). Effects of a Web-Based Personalized Intervention on Physical Activity in European Adults: A Randomized Controlled Trial. Journal of Medical Internet Research, 17(10), Article e231. https://doi.org/10.2196/jmir.4660

@article{14545076b307427690a8887f149137d8,

title = "Effects of a Web-Based Personalized Intervention on Physical Activity in European Adults: A Randomized Controlled Trial",

abstract = "BACKGROUND: The high prevalence of physical inactivity worldwide calls for innovative and more effective ways to promote physical activity (PA). There are limited objective data on the effectiveness of Web-based personalized feedback on increasing PA in adults. OBJECTIVE: It is hypothesized that providing personalized advice based on PA measured objectively alongside diet, phenotype, or genotype information would lead to larger and more sustained changes in PA, compared with nonpersonalized advice. METHODS: A total of 1607 adults in seven European countries were randomized to either a control group (nonpersonalized advice, Level 0, L0) or to one of three personalized groups receiving personalized advice via the Internet based on current PA plus diet (Level 1, L1), PA plus diet and phenotype (Level 2, L2), or PA plus diet, phenotype, and genotype (Level 3, L3). PA was measured for 6 months using triaxial accelerometers, and self-reported using the Baecke questionnaire. Outcomes were objective and self-reported PA after 3 and 6 months. RESULTS: While 1270 participants (85.81% of 1480 actual starters) completed the 6-month trial, 1233 (83.31%) self-reported PA at both baseline and month 6, but only 730 (49.32%) had sufficient objective PA data at both time points. For the total cohort after 6 months, a greater improvement in self-reported total PA (P=.02) and PA during leisure (nonsport) (P=.03) was observed in personalized groups compared with the control group. For individuals advised to increase PA, we also observed greater improvements in those two self-reported indices (P=.006 and P=.008, respectively) with increased personalization of the advice (L2 and L3 vs L1). However, there were no significant differences in accelerometer results between personalized and control groups, and no significant effect of adding phenotypic or genotypic information to the tailored feedback at month 3 or 6. After 6 months, there were small but significant improvements in the objectively measured physical activity level (P<.05), moderate PA (P<.01), and sedentary time (P<.001) for individuals advised to increase PA, but these changes were similar across all groups. CONCLUSIONS: Different levels of personalization produced similar small changes in objective PA. We found no evidence that personalized advice is more effective than conventional {"}one size fits all{"} guidelines to promote changes in PA in our Web-based intervention when PA was measured objectively. Based on self-reports, PA increased to a greater extent with more personalized advice. Thus, it is crucial to measure PA objectively in any PA intervention study. TRIAL REGISTRATION: ClinicalTrials.gov NCT01530139; http://clinicaltrials.gov/show/NCT01530139 (Archived by WebCite at: http://www.webcitation.org/6XII1QwHz).",

keywords = "physical activity, eHealth, randomized controlled trial, personalized nutrition, genotype, phenotype, Internet, ENERGY-EXPENDITURE, ACTIVITY QUESTIONNAIRES, HEALTH INTERVENTIONS, BEHAVIOR-CHANGE, OBESE SUBJECTS, ACCELEROMETER, VALIDATION, NUTRITION, INTERNET, DESIGN",

author = "C.F.M. Marsaux and C. Celis-Morales and R. Fallaize and A.L. Macready and S. Kolossa and C. Woolhead and C.B. O'Donovan and H. Forster and S. Navas-Carretero and R. San-Cristobal and C.P. Lambrinou and G. Moschonis and A. Surwillo and M. Godlewska and A. Goris and J. Hoonhout and C.A. Drevon and Y. Manios and I. Traczyk and M.C. Walsh and E.R. Gibney and L. Brennan and J.A. Martinez and J.A. Lovegrove and M.J. Gibney and H. Daniel and J.C. Mathers and W.H. Saris",

year = "2015",

month = oct,

doi = "10.2196/jmir.4660",

language = "English",

volume = "17",

journal = "Journal of Medical Internet Research",

issn = "1439-4456",

publisher = "JMIR Publications Inc.",

number = "10",

}

Marsaux, CFM, Celis-Morales, C, Fallaize, R, Macready, AL, Kolossa, S, Woolhead, C, O'Donovan, CB, Forster, H, Navas-Carretero, S, San-Cristobal, R, Lambrinou, CP, Moschonis, G, Surwillo, A, Godlewska, M, Goris, A, Hoonhout, J, Drevon, CA, Manios, Y, Traczyk, I, Walsh, MC, Gibney, ER, Brennan, L, Martinez, JA, Lovegrove, JA, Gibney, MJ, Daniel, H, Mathers, JC & Saris, WH 2015, 'Effects of a Web-Based Personalized Intervention on Physical Activity in European Adults: A Randomized Controlled Trial', Journal of Medical Internet Research, vol. 17, no. 10, e231. https://doi.org/10.2196/jmir.4660

TY - JOUR

T1 - Effects of a Web-Based Personalized Intervention on Physical Activity in European Adults: A Randomized Controlled Trial

AU - Marsaux, C.F.M.

AU - Celis-Morales, C.

AU - Fallaize, R.

AU - Macready, A.L.

AU - Kolossa, S.

AU - Woolhead, C.

AU - O'Donovan, C.B.

AU - Forster, H.

AU - Navas-Carretero, S.

AU - San-Cristobal, R.

AU - Lambrinou, C.P.

AU - Moschonis, G.

AU - Surwillo, A.

AU - Godlewska, M.

AU - Goris, A.

AU - Hoonhout, J.

AU - Drevon, C.A.

AU - Manios, Y.

AU - Traczyk, I.

AU - Walsh, M.C.

AU - Gibney, E.R.

AU - Brennan, L.

AU - Martinez, J.A.

AU - Lovegrove, J.A.

AU - Gibney, M.J.

AU - Daniel, H.

AU - Mathers, J.C.

AU - Saris, W.H.

PY - 2015/10

Y1 - 2015/10

N2 - BACKGROUND: The high prevalence of physical inactivity worldwide calls for innovative and more effective ways to promote physical activity (PA). There are limited objective data on the effectiveness of Web-based personalized feedback on increasing PA in adults. OBJECTIVE: It is hypothesized that providing personalized advice based on PA measured objectively alongside diet, phenotype, or genotype information would lead to larger and more sustained changes in PA, compared with nonpersonalized advice. METHODS: A total of 1607 adults in seven European countries were randomized to either a control group (nonpersonalized advice, Level 0, L0) or to one of three personalized groups receiving personalized advice via the Internet based on current PA plus diet (Level 1, L1), PA plus diet and phenotype (Level 2, L2), or PA plus diet, phenotype, and genotype (Level 3, L3). PA was measured for 6 months using triaxial accelerometers, and self-reported using the Baecke questionnaire. Outcomes were objective and self-reported PA after 3 and 6 months. RESULTS: While 1270 participants (85.81% of 1480 actual starters) completed the 6-month trial, 1233 (83.31%) self-reported PA at both baseline and month 6, but only 730 (49.32%) had sufficient objective PA data at both time points. For the total cohort after 6 months, a greater improvement in self-reported total PA (P=.02) and PA during leisure (nonsport) (P=.03) was observed in personalized groups compared with the control group. For individuals advised to increase PA, we also observed greater improvements in those two self-reported indices (P=.006 and P=.008, respectively) with increased personalization of the advice (L2 and L3 vs L1). However, there were no significant differences in accelerometer results between personalized and control groups, and no significant effect of adding phenotypic or genotypic information to the tailored feedback at month 3 or 6. After 6 months, there were small but significant improvements in the objectively measured physical activity level (P<.05), moderate PA (P<.01), and sedentary time (P<.001) for individuals advised to increase PA, but these changes were similar across all groups. CONCLUSIONS: Different levels of personalization produced similar small changes in objective PA. We found no evidence that personalized advice is more effective than conventional "one size fits all" guidelines to promote changes in PA in our Web-based intervention when PA was measured objectively. Based on self-reports, PA increased to a greater extent with more personalized advice. Thus, it is crucial to measure PA objectively in any PA intervention study. TRIAL REGISTRATION: ClinicalTrials.gov NCT01530139; http://clinicaltrials.gov/show/NCT01530139 (Archived by WebCite at: http://www.webcitation.org/6XII1QwHz).

AB - BACKGROUND: The high prevalence of physical inactivity worldwide calls for innovative and more effective ways to promote physical activity (PA). There are limited objective data on the effectiveness of Web-based personalized feedback on increasing PA in adults. OBJECTIVE: It is hypothesized that providing personalized advice based on PA measured objectively alongside diet, phenotype, or genotype information would lead to larger and more sustained changes in PA, compared with nonpersonalized advice. METHODS: A total of 1607 adults in seven European countries were randomized to either a control group (nonpersonalized advice, Level 0, L0) or to one of three personalized groups receiving personalized advice via the Internet based on current PA plus diet (Level 1, L1), PA plus diet and phenotype (Level 2, L2), or PA plus diet, phenotype, and genotype (Level 3, L3). PA was measured for 6 months using triaxial accelerometers, and self-reported using the Baecke questionnaire. Outcomes were objective and self-reported PA after 3 and 6 months. RESULTS: While 1270 participants (85.81% of 1480 actual starters) completed the 6-month trial, 1233 (83.31%) self-reported PA at both baseline and month 6, but only 730 (49.32%) had sufficient objective PA data at both time points. For the total cohort after 6 months, a greater improvement in self-reported total PA (P=.02) and PA during leisure (nonsport) (P=.03) was observed in personalized groups compared with the control group. For individuals advised to increase PA, we also observed greater improvements in those two self-reported indices (P=.006 and P=.008, respectively) with increased personalization of the advice (L2 and L3 vs L1). However, there were no significant differences in accelerometer results between personalized and control groups, and no significant effect of adding phenotypic or genotypic information to the tailored feedback at month 3 or 6. After 6 months, there were small but significant improvements in the objectively measured physical activity level (P<.05), moderate PA (P<.01), and sedentary time (P<.001) for individuals advised to increase PA, but these changes were similar across all groups. CONCLUSIONS: Different levels of personalization produced similar small changes in objective PA. We found no evidence that personalized advice is more effective than conventional "one size fits all" guidelines to promote changes in PA in our Web-based intervention when PA was measured objectively. Based on self-reports, PA increased to a greater extent with more personalized advice. Thus, it is crucial to measure PA objectively in any PA intervention study. TRIAL REGISTRATION: ClinicalTrials.gov NCT01530139; http://clinicaltrials.gov/show/NCT01530139 (Archived by WebCite at: http://www.webcitation.org/6XII1QwHz).

KW - physical activity

KW - eHealth

KW - randomized controlled trial

KW - personalized nutrition

KW - genotype

KW - phenotype

KW - Internet

KW - ENERGY-EXPENDITURE

KW - ACTIVITY QUESTIONNAIRES

KW - HEALTH INTERVENTIONS

KW - BEHAVIOR-CHANGE

KW - OBESE SUBJECTS

KW - ACCELEROMETER

KW - VALIDATION

KW - NUTRITION

KW - INTERNET

KW - DESIGN

U2 - 10.2196/jmir.4660

DO - 10.2196/jmir.4660

M3 - Article

SN - 1439-4456

VL - 17

JO - Journal of Medical Internet Research

JF - Journal of Medical Internet Research

IS - 10

M1 - e231

ER -