Citation: | XIAO Yingcheng, CHEN Hao, ZHENG Pinpin, JIA Yingnan. Research progress on the association between daily step count and cardiovascular disease and its main metabolic risk factors[J]. CHINESE JOURNAL OF DISEASE CONTROL & PREVENTION, 2024, 28(5): 586-590. doi: 10.16462/j.cnki.zhjbkz.2024.05.015 |
[1] |
《中国心血管健康与疾病报告》编写组. 《中国心血管健康与疾病报告2021》概述[J]. 中国心血管病研究, 2022, 20(7): 577-596. DOI:
Key points of Report on Cardiovascular Health and Diseases in China 2021[J]. Chin J Cardiovasc Res, 2022, 20(7): 577-596. DOI:
|
[2] |
Roth GA, Mensah GA, Johnson CO, et al. Global burden of cardiovascular diseases and risk factors, 1990-2019: update from the GBD 2019 study[J]. J Am Coll Cardiol, 2020, 76(25): 2982-3021. DOI: 10.1016/j.jacc.2020.11.010.
|
[3] |
Adhikary D, Barman S, Ranjan R, et al. A systematic review of major cardiovascular risk factors: a growing global health concern[J]. Cureus, 2022, 14(10): e30119. DOI: 10.7759/cureus.30119.
|
[4] |
Paluch AE, Bajpai S, Bassett DR, et al. Daily steps and all-cause mortality: a meta-analysis of 15 international cohorts[J]. Lancet Public Health, 2022, 7(3): e219-e228. DOI: 10.1016/S2468-2667(21)00302-9.
|
[5] |
中国营养学会. 中国居民膳食指南(2022)[M]. 北京: 人民卫生出版社, 2022: 9.
Chinese Nutrition Society. Dietary guidelines for Chinese residents (2022)[M]. Beijing: People's Medical Publishing House, 2022: 9.
|
[6] |
Chomistek AK, Yuan CZ, Matthews CE, et al. Physical activity assessment with the ActiGraph GT3X and doubly labeled water[J]. Med Sci Sports Exerc, 2017, 49(9): 1935-1944. DOI: 10.1249/MSS.0000000000001299.
|
[7] |
Yamamoto N, Miyazaki H, Shimada M, et al. Daily step count and all-cause mortality in a sample of Japanese elderly people: a cohort study[J]. BMC Public Health, 2018, 18(1): 540. DOI: 10.1186/s12889-018-5434-5.
|
[8] |
Bort-Roig J, Gilson ND, Puig-Ribera A, et al. Measuring and influencing physical activity with smartphone technology: a systematic review[J]. Sports Med, 2014, 44(5): 671-686. DOI: 10.1007/s40279-014-0142-5.
|
[9] |
Hamaya R, Fukuda H, Takebayashi M, et al. Effects of an mHealth app (kencom) with integrated functions for healthy lifestyles on physical activity levels and cardiovascular risk biomarkers: observational study of 12, 602 users[J]. J Med Internet Res, 2021, 23(4): e21622. DOI: 10.2196/21622.
|
[10] |
Korinek EV, Phatak SS, Martin CA, et al. Adaptive step goals and rewards: a longitudinal growth model of daily steps for a smartphone-based walking intervention[J]. J Behav Med, 2018, 41(1): 74-86. DOI: 10.1007/s10865-017-9878-3.
|
[11] |
崔晴梅, 李建新, 曹杰, 等. 中国不同风险人群心血管疾病的膳食和体力活动状况[J]. 中华疾病控制杂志, 2022, 26(3): 251-256, 279. DOI: 10.16462/j.cnki.zhjbkz.2022.03.002.
Cui QM, Li JX, Cao J, et al. Diet and physical activity in Chinese people with different risks of cardiovascular disease[J]. Chin J Dis Control Prev, 2022, 26(3): 251-256, 279. DOI: 10.16462/j.cnki.zhjbkz.2022.03.002.
|
[12] |
Ramakrishnan R, Doherty A, Smith-Byrne K, et al. Correction: Accelerometer measured physical activity and the incidence of cardiovascular disease: evidence from the UK Biobank cohort study[J]. PLoS Med, 2021, 18(9): e1003809. DOI: 10.1371/journal.pmed.1003809.
|
[13] |
Del Pozo Cruz B, Ahmadi MN, Lee IM, et al. Prospective associations of daily step counts and intensity with cancer and cardiovascular disease incidence and mortality and all-cause mortality[J]. JAMA Intern Med, 2022, 182(11): 1139-1148. DOI: 10.1001/jamainternmed.2022.4000.
|
[14] |
Paluch AE, Bajpai S, Ballin M, et al. Prospective association of daily steps with cardiovascular disease: a harmonized meta-analysis[J]. Circulation, 2023, 147(2): 122-131. DOI: 10.1161/CIRCULATIONAHA.122.061288.
|
[15] |
Moore CC, Evenson KR, Shiroma EJ, et al. Associations of daily step volume and stepping intensity with cardiovascular disease: the women's health study[J]. Med Sci Phys Exerc, 2021, 53(8S): 189. DOI: 10.1249/01.mss.0000761256.70884.64.
|
[16] |
Yates T, Haffner SM, Schulte PJ, et al. Association between change in daily ambulatory activity and cardiovascular events in people with impaired glucose tolerance (NAVIGATOR trial): a cohort analysis[J]. Lancet, 2014, 383(9922): 1059-1066. DOI: 10.1016/S0140-6736(13)62061-9.
|
[17] |
Ishikawa-Takata K, Tanaka H, Nanbu K, et al. Beneficial effect of physical activity on blood pressure and blood glucose among Japanese male workers[J]. Diabetes Res Clin Pract, 2010, 87(3): 394-400. DOI: 10.1016/j.diabres.2009.06.030.
|
[18] |
Crowley P, Gupta N, Vuillerme N, et al. Number of steps and systolic blood pressure: do work and leisure matter?[J]. Scand J Med Sci Sports, 2021, 31(10): 1962-1970. DOI: 10.1111/sms.14010.
|
[19] |
任甜梦, 任杰, 鹿子龙, 等. 短期健走干预对血压偏高职业人群身体健康指标的影响[J]. 中国慢性病预防与控制, 2023, 31(4): 256-261. DOI: 10.16386/j.cjpccd.issn.1004-6194.2023.04.004.
Ren TM, Ren J, Lu ZL, et al. Effects of short-term walking intervention on physical health indicators in occupational population with higher blood pressure[J]. Chin J Prev Contr Chron Dis, 2023, 31(4): 256-261. DOI: 10.16386/j.cjpccd.issn.1004-6194.2023.04.004.
|
[20] |
Yuenyongchaiwat K, Pipatsitipong D, Sangprasert P. Increasing walking steps daily can reduce blood pressure and diabetes in overweight participants[J]. Diabetol Int, 2017, 9(1): 75-79. DOI: 10.1007/s13340-017-0333-z.
|
[21] |
Sabri M, Gheissari A, Mansourian M, et al. Essential hypertension in children, a growing worldwide problem[J]. J Res Med Sci, 2019, 24: 109. DOI: 10.4103/jrms.JRMS_641_19.
|
[22] |
Weres A, Baran J, Czenczek-Lewandowska E, et al. The association between steps per day and blood pressure in children[J]. Sci Rep, 2022, 12: 1422. DOI: 10.1038/s41598-022-05497-0.
|
[23] |
Garduno AC, LaCroix AZ, LaMonte MJ, et al. Associations of daily steps and step intensity with incident diabetes in a prospective cohort study of older women: the OPACH study[J]. Diabetes Care, 2022, 45(2): 339-347. DOI: 10.2337/dc21-1202.
|
[24] |
Cuthbertson CC, Moore CC, Sotres-Alvarez D, et al. Associations of steps per day and step intensity with the risk of diabetes: the Hispanic Community Health Study/Study of Latinos (HCHS/SOL)[J]. Int J Behav Nutr Phys Act, 2022, 19(1): 46. DOI: 10.1186/s12966-022-01284-2.
|
[25] |
Mørkrid K, Jenum AK, Berntsen S, et al. Objectively recorded physical activity and the association with gestational diabetes[J]. Scand J Med Sci Sports, 2014, 24(5): e389-e397. DOI: 10.1111/sms.12183.
|
[26] |
Siddiqui MA, Bhana S, Daya R. The relationship between objectively measured physical activity and parameters of disease control in an African population of type 2 diabetes mellitus[J]. J Endocrinol Metab Diabetes S Afr, 2018, 23(3): 80-85. DOI: 10.1080/16089677.2018.1515144.
|
[27] |
de Oliveira RAR, Dos Santos Amorim PR, Mota Júnior RJ, et al. Association between the number of daily steps and the cardiovascular risk factors in basic education teachers[J]. J Sports Med Phys Fitness, 2018, 58(5): 714-720. DOI: 10.23736/S0022-4707.17.07330-3.
|
[28] |
Hamaya R, Mori M, Miyake K, et al. Association of smartphone-recorded steps over years and change in cardiovascular risk factors among working-age adults[J]. J Am Heart Assoc, 2022, 11(14): e025689. DOI: 10.1161/JAHA.121.025689.
|
[29] |
Hamer M, Blodgett JM, Stamatakis E. Dose-response association between step count and cardiovascular disease risk markers in middle-aged adults[J]. Scand J Med Sci Sports, 2022, 32(7): 1161-1165. DOI: 10.1111/sms.14173.
|
[30] |
Sumner J, Uijtdewilligen L, Yee ACH, et al. Volume and intensity of stepping activity and cardiometabolic risk factors in a multi-ethnic Asian population[J]. Int J Environ Res Public Health, 2020, 17(3): 863. DOI: 10.3390/ijerph17030863.
|