Effects of frequency, intensity, duration and volume of walking interventions on CVD risk factors: a systematic review and meta-regression analysis of randomised controlled trials among inactive healthy adults

Objective Walking interventions in healthy populations show clinically relevant improvements for many cardiovascular disease (CVD) risk factors. We aimed to assess the changes in CVD risk factors and the dose–response relationship between frequency, intensity, duration and volume of walking and cardiovascular risk factors based on randomised controlled trials (RCTs). Design A systematic review with meta-analysis and meta-regression. Data sources Four electronic databases searched from January 1971 to April 2017. Eligibility criteria Walking RCTs reporting one or more CVD risk factor outcomes; trials including at least one group with walking intervention and a no-walking control group; duration ≥8 weeks; participants ≥18 years old, inactive but healthy; risk factors assessed preintervention and postintervention; English-language articles in peer-reviewed journals. Results Thirty-seven RCTs, involving 2001 participants (81% women) and assessing 13 CVD risk factors, were identified. Pooled meta-analysis showed favourable effects (P≤0.05) of walking intervention for seven CVD risk factors (body mass, body mass index, body fat, systolic and diastolic blood pressure, fasting glucose and VO2max). There were no significant effects (P>0.05) for waist circumference, waist-to-hip ratio and four blood lipid variables. Despite testing 91 possible dose–response relationships, linear meta-regression analysis adjusted for age indicated just 7 (or 7.7%) statistically significant findings. Summary/conclusion Walking interventions benefit a number of CVD risk factors. Despite multiple studies and tested metrics, only a few dose–response relationships were identified and the possibility of chance findings cannot be ruled out. There is insufficient evidence to quantify the frequency, length, bout duration, intensity and volume of the walking required to improve CVD risk factors. PROSPERO registration number CRD42016039409.

[1]  L. Hedges,et al.  Introduction to Meta‐Analysis , 2009, International Coaching Psychology Review.

[2]  Charlie Foster,et al.  10 minutes brisk walking each day in mid-life for health benefits and towards achieving physical activity recommendations , 2018 .

[3]  Andy P. Field,et al.  Discovering Statistics Using Ibm Spss Statistics , 2017 .

[4]  J. Lewandowski,et al.  Influence of 12-week Nordic Walking training on biomarkers of endothelial function in healthy postmenopausal women. , 2017, The Journal of sports medicine and physical fitness.

[5]  S. Goenka,et al.  Scaling up physical activity interventions worldwide: stepping up to larger and smarter approaches to get people moving , 2016, The Lancet.

[6]  Lars Bo Andersen,et al.  Update on the global pandemic of physical inactivity , 2016, The Lancet.

[7]  Z. Svoboda,et al.  The effect of brisk walking on postural stability, bone mineral density, body weight and composition in women over 50 years with a sedentary occupation: a randomized controlled trial , 2016, BMC Women's Health.

[8]  Roger Holder,et al.  The effect of walking on risk factors for cardiovascular disease: an updated systematic review and meta-analysis of randomised control trials. , 2015, Preventive medicine.

[9]  Ryszard Jasiński,et al.  Effect of Nordic Walking and Water Aerobics Training on Body Composition and the Blood Flow in Lower Extremities in Elderly Women , 2015, Journal of human kinetics.

[10]  Andy P. Jones,et al.  Is there evidence that walking groups have health benefits? A systematic review and meta-analysis , 2015, British Journal of Sports Medicine.

[11]  Sai-nan Zhu,et al.  Effects of physical exercise on health-related quality of life and blood lipids in perimenopausal women: a randomized placebo-controlled trial , 2014, Menopause.

[12]  Nicola Orsini,et al.  Systematic review and meta-analysis of reduction in all-cause mortality from walking and cycling and shape of dose response relationship , 2014, International Journal of Behavioral Nutrition and Physical Activity.

[13]  Changduk Ha,et al.  Effect of walking exercise on abdominal fat, insulin resistance and serum cytokines in obese women , 2014, Journal of exercise nutrition & biochemistry.

[14]  Suh-Jung Kang Trekking exercise promotes cardiovascular health and fitness benefits in older obese women , 2014, Journal of Exercise Rehabilitation.

[15]  D. Warburton,et al.  Exercise volume and intensity: a dose–response relationship with health benefits , 2014, European Journal of Applied Physiology.

[16]  M. Murphy,et al.  Accumulated brisk walking reduces arterial stiffness in overweight adults: evidence from a randomized control trial. , 2014, Journal of the American Society of Hypertension : JASH.

[17]  S. Keinänen-Kiukaanniemi,et al.  Light physical activity determined by a motion sensor decreases insulin resistance, improves lipid homeostasis and reduces visceral fat in high-risk subjects: PreDiabEx study RCT , 2013, International Journal of Obesity.

[18]  Suh-Jung Kang Trekking exercise promotes cardiovascular health and fitness benefits in older obese women. , 2014, Journal of exercise rehabilitation.

[19]  Ulrik Wisløff,et al.  Aerobic Capacity Reference Data in 3816 Healthy Men and Women 20–90 Years , 2013, PloS one.

[20]  S. Männistö,et al.  A diet following Finnish nutrition recommendations does not contribute to the current epidemic of obesity , 2012, Public Health Nutrition.

[21]  S. Blair,et al.  Effect of physical inactivity on major non-communicable diseases worldwide: an analysis of burden of disease and life expectancy , 2012, BDJ.

[22]  S. Aldred,et al.  A moderate intensity exercise program did not increase the oxidative stress in older adults. , 2011, Archives of gerontology and geriatrics.

[23]  L. Kravitz,et al.  The effect of 24 weeks of moderate intensity walking upon metabolic syndrome risk factors in previously sedentary/low active men , 2011 .

[24]  A. Swartz,et al.  Effectiveness of long and short bout walking on increasing physical activity in women. , 2011, Journal of women's health.

[25]  J. Higgins Cochrane handbook for systematic reviews of interventions. Version 5.1.0 [updated March 2011]. The Cochrane Collaboration , 2011 .

[26]  Michele Tarsilla Cochrane Handbook for Systematic Reviews of Interventions , 2010, Journal of MultiDisciplinary Evaluation.

[27]  N. Mutrie,et al.  The effect of a pedometer-based community walking intervention "Walking for Wellbeing in the West" on physical activity levels and health outcomes: a 12-week randomized controlled trial , 2010, The international journal of behavioral nutrition and physical activity.

[28]  Lauren Snyder,et al.  Walking toward a new me: the impact of prescribed walking 10,000 steps/day on physical and psychological well-being. , 2010, Journal of physical activity & health.

[29]  K. Courneya,et al.  A comparison of fitness training to a pedometer-based walking program matched for total energy cost. , 2010, Journal of physical activity & health.

[30]  K. Backx,et al.  Low-intensity exercise exerts beneficial effects on plasma lipids via PPARgamma. , 2008, Medicine and science in sports and exercise.

[31]  M. Hamer,et al.  Walking and primary prevention: a meta-analysis of prospective cohort studies , 2007, British Journal of Sports Medicine.

[32]  W. Chan,et al.  Randomised controlled trial of home-based walking programmes at and below current recommended levels of exercise in sedentary adults , 2007, Journal of Epidemiology and Community Health.

[33]  M. Murphy,et al.  An 8-week randomized controlled trial on the effects of brisk walking, and brisk walking with abdominal electrical muscle stimulation on anthropometric, body composition, and self-perception measures in sedentary adult women , 2006 .

[34]  M. Murphy,et al.  The effect of a worksite based walking programme on cardiovascular risk in previously sedentary civil servants [NCT00284479] , 2006, BMC public health.

[35]  R. Andel,et al.  The Effects of Resistance Training and Walking on Functional Fitness in Advanced Old Age , 2006, Journal of aging and health.

[36]  L. Brandon,et al.  Walking, body composition, and blood pressure dose-response in African American and white women. , 2006, Ethnicity & disease.

[37]  W. Chan,et al.  Brisk walking, fitness, and cardiovascular risk: a randomized controlled trial in primary care. , 2005, Preventive medicine.

[38]  Alan Nevill,et al.  The effects of 60 minutes of brisk walking per week, accumulated in two different patterns, on cardiovascular risk. , 2005, Preventive medicine.

[39]  P. Campagna,et al.  The effects of short- vs. long-bout exercise on mood, VO2max, and percent body fat. , 2005, Preventive medicine.

[40]  A. Hardman,et al.  The influence of a 1-year programme of brisk walking on endurance fitness and body composition in previously sedentary men aged 42–59 years , 2004, European Journal of Applied Physiology and Occupational Physiology.

[41]  I. Vuori,et al.  Walking trials in postmenopausal women: effect of low doses of exercise and exercise fractionization on coronary risk factors , 2003, Scandinavian journal of medicine & science in sports.

[42]  W. Kannel,et al.  Age-specific relevance of usual blood pressure to vascular mortality , 2003, The Lancet.

[43]  R. Collins,et al.  Age-specific relevance of usual blood pressure to vascular mortality: a meta-analysis of individual data for one million adults in 61 prospective studies , 2002, The Lancet.

[44]  I. Vuori,et al.  Randomised, controlled walking trials in postmenopausal women: the minimum dose to improve aerobic fitness? , 2002, British journal of sports medicine.

[45]  I. Vuori,et al.  Walking trials in postmenopausal women: effect of one vs two daily bouts on aerobic fitness , 2002, Scandinavian journal of medicine & science in sports.

[46]  J. McCusker,et al.  Randomized controlled trial in primary care , 2002 .

[47]  Jason G. Langley,et al.  Increasing daily walking lowers blood pressure in postmenopausal women. , 2001, Medicine and science in sports and exercise.

[48]  B E Ainsworth,et al.  Compendium of physical activities: an update of activity codes and MET intensities. , 2000, Medicine and science in sports and exercise.

[49]  R. Davison,et al.  The efficacy of accumulated short bouts versus single daily bouts of brisk walking in improving aerobic fitness and blood lipid profiles. , 1999, Health education research.

[50]  R. Penhall,et al.  Walking with its training effects on the fitness and activity patterns of 79-91 year old females. , 1999, Australian and New Zealand journal of medicine.

[51]  M. Deaves Walking to health. , 2015, Harvard men's health watch.

[52]  K. Khan,et al.  Subcutaneous rupture of the Achilles tendon. , 1998, British journal of sports medicine.

[53]  M. Murphy,et al.  Training effects of short and long bouts of brisk walking in sedentary women. , 1998, Medicine and science in sports and exercise.

[54]  Jeremy N. Morris,et al.  Walking to Health , 1997, Sports medicine.

[55]  D. Drinkwater,et al.  Influence of walking volume on health benefits in women post-menopause. , 1996, Medicine and science in sports and exercise.

[56]  A. Leon,et al.  Failure of 40 weeks of brisk walking to alter blood lipids in normolipemic women. , 1995, Canadian journal of applied physiology = Revue canadienne de physiologie appliquee.

[57]  D. Drinkwater,et al.  Walking program reduces elevated cholesterol in women postmenopause. , 1995, The Canadian journal of cardiology.

[58]  R S Paffenbarger,et al.  Changes in physical fitness and all-cause mortality. A prospective study of healthy and unhealthy men. , 1995, JAMA.

[59]  A. Hardman,et al.  Influence of 12 weeks of training by brisk walking on postprandial lipemia and insulinemia in sedentary middle-aged women. , 1995, Metabolism: clinical and experimental.

[60]  P. Thompson,et al.  ACSM's Guidelines for Exercise Testing and Prescription , 1995 .

[61]  V. Barriales Alvarez,et al.  [Coronary risk factors]. , 1995, Medicina clinica.

[62]  M. Pollock,et al.  Moderate- and high-intensity exercise lowers blood pressure in normotensive subjects 60 to 79 years of age. , 1994, The American journal of cardiology.

[63]  A. Hardman,et al.  Brisk walking and serum lipoprotein variables in formerly sedentary men aged 42-59 years. , 1993, Clinical science.

[64]  D. Nieman,et al.  The effects of a walking program on body composition and serum lipids and lipoproteins in overweight women. , 1993, The Journal of sports medicine and physical fitness.

[65]  R. Withers,et al.  Physical training effects on the fitness and habitual activity patterns of elderly women. , 1992, Archives of physical medicine and rehabilitation.

[66]  N. Gordon,et al.  Women walking for health and fitness. How much is enough? , 1991, JAMA.

[67]  C. Probart,et al.  The effect of moderate aerobic exercise on physical fitness among women 70 years and older. , 1991, Maturitas.

[68]  M. Jetté,et al.  Effects of a twelve-week walking programme on maximal and submaximal work output indices in sedentary middle-aged men and women. , 1988, The Journal of sports medicine and physical fitness.