Reliability and Validity of Self-reported Muscle-strengthening Exercise in the Cancer Prevention Study-3.
Adult
Aged
Confidence Intervals
Diaries as Topic
Female
Health Surveys
/ statistics & numerical data
Humans
Leisure Activities
Male
Middle Aged
Muscle Strength
Neoplasms
Prospective Studies
Psychometrics
Reproducibility of Results
Resistance Training
/ methods
Self Report
/ standards
Socioeconomic Factors
Statistics, Nonparametric
Time Factors
Journal
Medicine and science in sports and exercise
ISSN: 1530-0315
Titre abrégé: Med Sci Sports Exerc
Pays: United States
ID NLM: 8005433
Informations de publication
Date de publication:
01 05 2021
01 05 2021
Historique:
pubmed:
27
10
2020
medline:
3
7
2021
entrez:
26
10
2020
Statut:
ppublish
Résumé
This study examined the 1-yr reliability and construct validity of survey items relating to time spent on muscle-strengthening exercise (MSE) in a subset of a large prospective cohort. Participants (n = 293 men, 433 women; age, 32-73 yr) were selected from the Cancer Prevention Study-3. Information was collected using a 1-yr presurvey and postsurvey and four 7-d diaries throughout the year. The presurvey and postsurveys collected time spent on MSE in two ways: one question captured MSE activities performed during a typical 24-h period (24-h survey), and another question captured leisure-time physical activities performed in hours per week and months per year (LTPA survey). Time spent on MSE using the LTPA survey was calculated for individual MSE items and summed for total MSE time. One-year reliability was assessed by comparing the responses between the presurvey and postsurvey using Spearman's correlation coefficients. Construct validity was assessed by computing Spearman's correlation coefficients between responses from the postsurvey items and the diary. Additional analyses were conducted to examine whether reliability or validity varied by sociodemographic factors. Reliability estimates for all MSE items were moderate (≥0.40) or strong (≥0.60) overall and across demographic strata. Reliability estimates were strongest for total MSE on the LTPA survey (Spearman ρ = 0.75; 95% confidence interval (CI), 0.71-0.78) compared with the 24-h survey (0.59; 95% CI, 0.54-0.64). In contrast, the validity estimates were similarly strong for the total MSE on the LTPA survey (Spearman ρ = 0.71; 95% CI, 0.67-0.75) and the 24-h survey (Spearman ρ = 0.68; 95% CI, 0.64-0.72). The CPS-3 surveys have acceptable 1-yr reliability and validity for self-reported time spent on MSE. Reliability and validity estimates are acceptable across all sociodemographic subgroups.
Identifiants
pubmed: 33105384
pii: 00005768-202105000-00002
doi: 10.1249/MSS.0000000000002547
doi:
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Validation Study
Langues
eng
Sous-ensembles de citation
IM
Pagination
888-893Informations de copyright
Copyright © 2020 by the American College of Sports Medicine.
Références
Grøntved A, Pan A, Mekary RA, et al. Muscle-strengthening and conditioning activities and risk of type 2 diabetes: a prospective study in two cohorts of us women. PLoS Med . 2014;11(1):e1001587.
Grøntved A, Rimm EB, Willett WC, Andersen LB, Hu FB. A prospective study of weight training and risk of type 2 diabetes mellitus in men. Arch Intern Med . 2012;172(17):1306–12.
Mekary RA, Grøntved A, Despres JP, et al. Weight training, aerobic physical activities, and long-term waist circumference change in men. Obesity . 2015;23(2):461–7.
Braith RW, Stewart KJ. Resistance exercise training: its role in the prevention of cardiovascular disease. Circulation . 2006;113(22):2642–50.
Nelson ME, Fiatarone MA, Morganti CM, Trice I, Greenberg RA, Evans WJ. Effects of high-intensity strength training on multiple risk factors for osteoporotic fractures: a randomized controlled trial. JAMA . 1994;272(24):1909–14.
Seguin R, Nelson ME. The benefits of strength training for older adults. Am J Prev Med . 2003;25(3 Suppl 2):141–9.
Saeidifard F, Medina-Inojosa JR, West CP, et al. The association of resistance training with mortality: a systematic review and meta-analysis. Eur J Prev Cardiol . 2019;26(15):1647–65.
Stamatakis E, Lee IM, Bennie J, et al. Does strength-promoting exercise confer unique health benefits? A pooled analysis of data on 11 population cohorts with all-cause, cancer, and cardiovascular mortality endpoints. Am J Epidemiol . 2018;187(5):1102–12.
2018 Physical Activity Guidelines Advisory Committee. 2018 Physical Activity Guidelines Advisory Committee Scientific Report . Washington (DC): US Department of Health and Human Services; 2018.
Adams SA, Matthews CE, Ebbeling CB, et al. The effect of social desirability and social approval on self-reports of physical activity. Am J Epidemiol . 2005;161(4):389–98.
Brenner PS, DeLamater J. Lies, damned lies, and survey self-reports? Identity as a cause of measurement Bias. Soc Psychol Q . 2016;79(4):333–54.
Celis-Morales CA, Perez-Bravo F, Ibañez L, Salas C, Bailey ME, Gill JM. Objective vs. self-reported physical activity and sedentary time: effects of measurement method on relationships with risk biomarkers. PLoS One . 2012;7(5):e36345.
Lim S, Wyker B, Bartley K, Eisenhower D. Measurement error of self-reported physical activity levels in New York City: assessment and correction. Am J Epidemiol . 2015;181(9):648–55.
Mâsse LC, de Niet JE. Sources of validity evidence needed with self-report measures of physical activity. J Phys Act Health . 2012;9(1 Suppl):S44–55.
Prince SA, Adamo KB, Hamel ME, Hardt J, Connor Gorber S, Tremblay M. A comparison of direct versus self-report measures for assessing physical activity in adults: a systematic review. Int J Behav Nutr Phys Act . 2008;5:56.
Chasan-Taber S, Rimm EB, Stampfer MJ, et al. Reproducibility and validity of a self-administered physical activity questionnaire for male health professionals. Epidemiology . 1996;7(1):81–6.
Wolf AM, Hunter DJ, Colditz GA, et al. Reproducibility and validity of a self-administered physical activity questionnaire. Int J Epidemiol . 1994;23(5):991–9.
Yore MM, Ham SA, Ainsworth BE, et al. Reliability and validity of the instrument used in BRFSS to assess physical activity. Med Sci Sports Exerc . 2007;39(8):1267–74.
Pols MA, Peeters PH, Ocké MC, Slimani N, Bueno-de-Mesquita HB, Collette HJ. Estimation of reproducibility and relative validity of the questions included in the epic physical activity questionnaire. Int J Epidemiol . 1997;26(1 Suppl):S181–9.
Rees-Punia E, Matthews CE, Evans EM, et al. Demographic-specific validity of the Cancer Prevention Study-3 sedentary time survey. Med Sci Sports Exerc . 2019;51(1):41–8.
Rees-Punia E, Matthews CE, Evans EM, et al. Reliability and validity of the Cancer Prevention Study-3 physical activity survey items. J Meas Phys Behav . 2019;2(3):157.
Lindström PJ, Suni JH, Nygård CH. Associations of leisure-time physical activity with balance and lower extremity strength: a validation of the neuromuscular part of the physical activity pie. J Phys Act Health . 2009;6(4):493–502.
Patel AV, Jacobs EJ, Dudas DM, et al. The American Cancer Society’s Cancer Prevention Study 3 (CPS-3): recruitment, study design, and baseline characteristics. Cancer . 2017;123(11):2014–24.
Gravetter FJ, Wallnau LB. Statistics for the Behavioral Sciences . Belmont (CA): Wadsworth/Thomson; 2009. pp. 520–60.
Harris CD, Watson KB, Carson SA, Fulton J, Dorn J. Adult participation in aerobic and muscle-strengthening physical activities—United States, 2011. MMWR . 2013;62(17):326–30.
Bennie JA, Lee DC, Khan A, et al. Muscle-strengthening exercise among 397,423 U.S. adults: prevalence, correlates, and associations with health conditions. Am J Prev Med . 2018;55(6):864–74.
Arikawa AY, O’Dougherty M, Schmitz KH. Adherence to a strength training intervention in adult women. J Phys Act Health . 2011;8(1):111–8.
Manini TM, Druger M, Ploutz-Snyder L. Misconceptions about strength exercise among older adults. J Aging Phys Act . 2005;13(4):422–33.
Jakicic JM, Gallagher KI. Exercise considerations for the sedentary, overweight adult. Exerc Sport Sci Rev . 2003;31(2):91–5.
Kruger J, Ham SA, Kohl HW 3rd. Characteristics of a “weekend warrior”: results from two national surveys. Med Sci Sports Exerc . 2007;39(5):796–800.
O’Donovan G, Lee IM, Hamer M, Stamatakis E. Association of “weekend warrior” and other leisure time physical activity patterns with risks for all-cause, cardiovascular disease, and cancer mortality. JAMA Intern Med . 2017;177(3):335–42.
Shiroma EJ, Lee IM, Schepps MA, Kamada M, Harris TB. Physical activity patterns and mortality: the weekend warrior and activity bouts. Med Sci Sports Exerc . 2019;51(1):35–40.