Site icon GymLion

How Much Exercise Do You Need?

Silhouette of woman jogging at sunrise or sunset

It’s hard to know how much exercise you need given all the conflicting information. Some say that walking a mile or two a day is plenty while others believe you need to be doing marathons and triathlons. Fortunately, there are many studies showing the health benefits gained from exercise and the volume, duration and intensity need to realize these benefits. The trouble is exercise can be quite expensive, with gym memberships often being criminally high in price. Fortunately, if you visit http://givememora.com/top-tips-spending-less-exercise-regime/ you may benefit from the tips recommended. Don’t forget though that there is a limit to how much you can do as a person, you don’t want to injure yourself by pushing yourself too hard. However, if you do injure yourself then you should check out something like physiotherapy in Ealing, where they can help you if you do hurt yourself. So, how much exercise do you need and how much is too much?

The Benefits of Exercise:

Physical activity has been shown to have a number of physiological and psychological benefits. Some benefits of physical activity include:

Volume:

Volume is the total amount of physical activity accumulated over a period of time, usually a week. Research has shown that volume is more important for health benefits than exercise duration or intensity (U.S. Dep. 2008).

Duration:

Duration is the length of continuous time an individual spends exercising during an average session. Duration has little effect on the health benefits of exercise.

Intensity:

The intensity of an activity is measured by its Metabolic Equivalent (MET). The MET of an activity is measured by the rate of energy expended during that activity relative to the rate of energy expended while at rest. Low intensity activities (standing, walking slowly, and doing most household chores) have an MET between 1.1 and 2.9. Moderate intensity activities (walking fast, doubles tennis, and biking slowly) have an MET between 3.0 and 5.9. Vigorous activities (jogging, swimming, singles tennis and biking fast) have an MET of 6.0 or higher. As a rule of thumb, people engaged in moderately intense physical activities can talk, but not sing. People engaged in vigorous physical activities cannot say more than a few words without taking a breath (U.S. Dep. 2008).

Additional Points:

Citations:

Dunn, Andrea L.; Trivedi, Madhukar H.; O’Neal, Heather A. Physical activity dose–response effects on outcomes of depression and anxiety. Medicine & Science in Sports & Exercise, Vol 33(6, Suppl), Jun 2001, S587-S597.

Donnelly, JE; Blair, SN; Jakicic, JM; Manore, MM; Rankin, JW; Smith, BK. American College of Sports Medicine Position Stand. Appropriate Activity Intervention Strategies for Weight Loss and Prevention of Weight Regain for Adults. Medicine and Science in Sports and Exercise. Vol 41(2), 2009, 459-471.

Ellemberg, Dave; St-Louis-Deschenes, Mathilde. The Effect of Acute Physical Exercise on Cognitive Function During Development. Psychology of Sport and Exercise. Vol 11(2), Mar 2010, 122-126.

Friedenreich, CM; Neilson, HK; Lynch, BM. State of the Epidemiological Evidence on Physical Activity and Cancer Prevention. European Journal of Cancer. Vol 46(14), Sept 2010, 2593-2604.

Gleeson, Michael. Immune Function in Sport and Exercise. Journal of Applied Physiology. Vol 103(2), Aug 2007, 693-699.

Gregg, Edward W.; Gerzoff, Robert B.; Caspersen, Carl J.; Williamson, David F.; Narayan, K. M. Venkat. Relationship of Walking to Mortality Among US Adults with Diabetes. Archives of Internal Medicine. Vol 163(12), Jun 2003, 1440-1447.

Haskell, William L.; Lee, I-Min; Pate, Russell R.; Powell, Kenneth H.; Blair, Steven N.; Franklin, Barry A.; Macera, Caroline A.; Heath, Gregory W.; Thompson, Paul D.; Bauman, Adrian. Physical Activity and Public Health: Updated Recommendation for Adults from the American College of Sports Medicine and the American Heart Association. Circulation. Vol 116, 1081-1093.

Healy, Genevieve N.; Dunstan, David W.; Salmon, Jo; Cerin, Ester; Shaw, Jonathan E.; Zimmet, Paul Z.; Owen, Neville. Breaks in Sedentary Time: Beneficial Associations with Metabolic Risk. Diabetes Care. Vol 21(4), Feb 2008, 661-666.

Hu, Gang; Tuomilelto, Jaakko; Silventonen, Karri; Barengo, Noel; Jousilahti, Pekka. Joint Effects of Physical Activity, Body Mass Index, Waist Circumference and Waist-to-Hip Ratio with the Risk of Cardiovascular Disease Among Middle-Aged Finnish Men and Women. European Heart Journal. Vol 25(24), 2004, 2212-2219.

Jefferis, Barbara J.; Whincup, Peter H.; Lennon, Lucy; Wannamethee, S. Goya. Longitudinal Associations Between Changes in Physical Activity and Onset of Type 2 Diabetes in Older British Men: The Influence of Adiposity. Diabetes Care. Vol 35(9) Sept 2012, 1876-1883.

Kramer, Arthur F.; Erickson, Kirk I. Capitalizing on Cortical Plasticity: Influence of Physical Activity on Cognition and Brain Function. Trends in Cognitive Sciences. Vol 11(8), Aug 2007, 342-348.

Lee, Chong D.; Folson, Aaron R.; Blair, Steven N. Physical Activity and Stroke Risk: A Meta-Analysis. Stroke. Vol 34, Sept 2003, 2475-2481.

Lee, I-Min; Paffenbarger, Ralph S. Associations of Light, Moderate, and Vigorous Intensity Physical Activity with Longevity: The Harvard Alumni Health Study. American Journal of Epidemiology. Vol 151(3), Feb 2000, 293-299.

Lee, I-Min; Sesso, Howard D.; Oguma, Yuko; Paffenbarger, Ralph S. The “Weekend Warrior” and Risk of Mortality. American Journal of Epidemiology. Vol 160(7), 2004, 636-641.

Lee, I-Min. Physical Activity and Cancer Prevention-Data from Epidemiologic Studies. Medicine and Science in Sports and Exercise. Vol 35, 2003, 1823-1827.

Macera, Caroline A.; Hootman, Jennifer M.; Sniezek, Joseph E. Major Public Health Benefits of Physical Activity. Arthritis Care & Research. Vol 49(1) Feb 2003, 122-128.

Morris, JN; Glasg, MA; Heady, JA; Raffle, PAB; Roberts, CG; Parks, JW. Coronary Heart-Disease and Physical Activity of Work. The Lancet. Vol 2(6795), Nov 1953, 1053-1057.

Murphy, Marie H.; Blair, Steven N.; Murtagh, Elaine M. Accumulated versus Continuous Exercise for Health Benefit: A Review of Empirical Studies. Sports Medicine. Vol 39(1), 2009, 29-43.

Nguyen, TV; Center, JR; Eisman, JA. Osteoporosis in Elderly Men and Women: Effects of Dietary Calcium, Pysical Activity and Body Mass Index. Journal of Bone and Mineral Research. Vol 15(2), Feb 2000, 322-331.

O’Donovan, Gary; Blazevich, Anthony J.; Boreham, Colin; Cooper, Ashley R.; Crank, Helen; Ekelund, Ulf; Fox, Kenneth R.; Gately, Paul; Giles-Corti, Billie; Fill, Jason M. R.; Hamer, Mark; McDermott, Ian; Murphy, Marie; Mutrie, Nanette; Reilly, John J.; Saxton, John M. Stamatakis, Emmanuel. The ABC of Physical Activity for Health: A Consensus Statement from the British Association of Sport and Exercise Sciences. Journal of Sports Sciences. Vol 28(6), Apr 2010, 573-591.

Pollock, Michael L.; Franklin, Barry A.; Balady, Gary J.; Chaitman, Bernard L.; Fleg, Jerome L.; Fletcher, Barbara; Limacher, Marian; Pina, Ileana L; Stein, Richard A.; Williams, Mark; Bazzarre, Terry. Resistance Exercise in Individuals With and Without Cardiovascular Disease: Benefits, Rationale, Safety and Prescription. Circulation. Vol 101, 2000, 828-833

Raglin, JS; Wilson, M. State anxiety following 20 minutes of bicycle ergometer exercise at selected intensities. International Journal of Sports Medicine. Vol 17(6), 1997, 467-471.

Reed, Justy; Buck, Sarah. The Effect of Regular Aerobic Exercise on Positive-Activated Affect: A Meta-Analysis. Psychology of Sport and Exercise. Vol 10(6), Nov 2009, 581-594.

Smits, Sasper A.J.; Tart, Candyce D.; Rosenfield, David; Zvolensky, Michael J. The Interplay Between Physical Activity and Anxiety Sensitivity in Fearful Responding to Carbon Dioxide Challenge. Psychosomatic Medicine. Vol 73(6), Jul 2011, 498-503.

Strath, Scott J.; Holleman, Robert G.; Richardson, Caroline R.; Ronis, David L.; Swartz, Ann M. Objective Physical Activity Accumulation in Bouts and Non bouts and Relation to Markers of Obesity in US Adults. Preventing Chronic Disease. Vol 5(4), Oct 2008, 1-11.

Swain, David P. Moderate of Vigorous Intensity Exercise: Which is Better for Improving Aerobic Fitness? Preventative Cardiology. Vol 8(1), 2005, 55-58.

Teychenne, Megan; Ball, Kylie; Salmon, Jo. Physical Activity and Likelihood of Depression in Adults: A Review. Preventative Medicine. Vol 46(5) May 2008, 397-411.

Tremblay, A.; Despres, J.P.; Leblanc, C.; Craig, C.L.; Ferris, B.; Stephens, T.; Bouchard, C. Effect of Intensity of Physical Activity on Body Fatness and Fat Distribution. American Journal of Clinical Nutrition. Vol 51(2), Feb 1990, 152-157.

U.S. Dep. Health Hum. Serv. 2008. Physical Activity Guidelines for Americans. U.S. Department of Health and Human Services, 2008. ODPHP Publ. No. U0036. http://www.health.gov/paguidelines/pdf/paguide.pdf

Veerman, Lennert J.; Healy, Genevieve N.; Cobiac, Linda J.; Vos, Theo; Winkler, Elisabeth; Owen, Neville; Dunstan, David W. Television Viewing Time and Reduced Life Expectancy: A Life Table Analysis. British Journal of Sports Medicine. Vol 46, 2012, 927-930.

Wen, Chi P.; Wai, Jackson P.M.; Tsai, Min K.; Yang, Yi C.; Cheng, Ting, Y.D.; Lee, Meng-Chih; Chan, Hui T.; Tsao, Chwen K.; Tsai, Shan P.; Wu, Xifeng. Minimum Amount of Physical Activity for Reduced Mortality and Extended Life Expectancy: A Prospective Cohort Study. The Lancet. Vol 378(9798), Oct 2011, 1244-1253.

Williams, Paul T. Physical Fitness and Activity as Separate Heart Disease Risk Factors: A Meta-Analysis. Medicine and Science in Sports and Exercise. Vol 33(5), May 2001, 754-761.
[/emaillocker]

Exit mobile version