FitBits
Exercise ETC's Monthly Research Review
August 15, 2007
Compiled by Chris Marino, MS, CSCS
Director of Education, Exercise ETC
September Webinar Schedule ... Click Here.
ACSM Updates Physical Activity Recommendations
It’s been more than a decade since the initial guidelines for physical activity were jointly published by the American College of Sports (ACSM) and the Centers for Disease Control (CDC). Unfortunately, Americans have continued to become less active over that duration since slightly less than half of the population currently meets the minimum recommendations for daily/weekly physical activity. This month ACSM and the American Heart Association (AHA) published updated physical activity recommendations for both American Adults and Older Adults. Although the essential recommendations are relatively unchanged, the update more clearly defines exercise duration and intensity to avoid misinterpretation by the general public.
According to the new guidelines, American adults aged 18-65 years should continue to accumulate at least 30 minutes of moderate-intensity aerobic activity 5 days per week (instead of "most days of the week") OR engage in 20-minutes of vigorous activity 3 days per week. Specific examples based on Metabolic Equivalents (METs) are provided. The update clarifies that activity must be at least 10 minutes in duration to count towards daily goals and that a combination of vigorous and moderate-intensity physical activity is acceptable. Once again, strength training at least twice weekly is recommended. Programs should consist of 8-10 exercises for at least 1 set of 8-12 repetitions each.
The update concludes that the guidelines presented are "minimum" requirements for preventing disease and strongly encourages American adults to strive for greater amounts of physical activity to gain advanced protection against "inactivity-related chronic disease."
The guidelines presented for older adults are nearly identical. ACSM/AHA define the older adult as men and women over the age of 65 and includes those adults over age 50 with clinically significant chronic conditions and/or functional limitations.
The older adult’s recommendations for aerobic exercise define moderate and vigorous activity based on perceived exertion in addition to METs. Older adults are also encouraged to strength train a minimum of twice weekly. The older adult’s strength program should include 8-10 exercises using 10-15 repetitions per exercise. Although there is no specific recommendation for American Adults with respect to flexibility, the older adult is encouraged to maintain flexibility by stretching or other activity at least 10 minutes twice weekly. The update includes a brief recommendation to include balance training, especially for those at risk for falls.
Haskell, W.L. et al. (2007) Physical Activity and Public Health: Updated Recommendation for Adults from the American College of Sports Medicine and the American Heart Association. Medicine and Science in Sports and Exercise. 39(8): 1423-1434.
Nelson, M.E. et al (2007) Physical Activity and Public Health in Older Adults: Recommendation from the American College of Sports Medicine and the American Heart Association. Medicine and Science in Sports and Exercise. 39(8): 1435-1445.
Weight
Loss During Pregnancy
May Be Safe for Obese Women
Historically, obstetricians have been cautious when advising pregnant women on exercise and weight loss. The consensus is that physical activities performed prior to pregnancy are safely continued during pregnancy, and that moderate weight gain ensures healthy birth weight and fewer risks for complications. Currently, "normal weight" women are encouraged to gain between 25 and 35 pounds during pregnancy, while obese women should gain ~13 pounds. A recent study suggests that obese women may not need to gain any weight and that weight loss may actually enhance the health of the newborn.
Researchers studied 96 obese pregnant women with gestational diabetes mellitus. The women were divided into two groups: diet only and diet plus exercise. Both programs were designed to produce moderate calorie restriction with the goal of minimizing weight gain. The exercise group was given a recommendation for activity at 60% Vo2 Max or the equivalent of a brisk walk.
In the end the women who either lost or maintained baseline bodyweight were less likely to have a macrosomic newborn (overweight baby). Also, there were no additional pregnancy complications, and fetal growth was not impaired in the weight loss groups.
Reuters Health interviewed the authors of the study who suggest that preventing weight gain during pregnancy in obese women could provide greater long-term health benefits. They suggest that pregnancy may be an opportune time to make lifestyle changes but women are advised to consult their physician and a nutritionist before attempting to implement such a program.
Artal, R. et al. (2007) A Lifestyle Intervention of Weight-Gain Restriction: Diet and Exercise in Obese Women with Gestational Diabetes Mellitus. Journal of Applied Physiology, Nutrition and Metabolism. 32(3): 596–601
Explosive
Training Increases
Energy Expenditure
Most strength professionals advocate slow, controlled concentric contractions during resistance training to best stimulate both muscularity and calorie expenditure. The philosophy has been that slow contractions create greater lactate accumulation and thus greater muscle fatigue providing a better stimulus for hypertrophy and calorie expenditure. New evidence suggests that explosive contractions may best promote energy use both during and after resistance training. In addition, an explosive contraction has greater potential for stimulating type 2B fibers, which have a greater affinity for hypertrophy.
Researchers studied 9 college-age men who each performed three different exercise protocols using a plate-loaded squat machine. Squats were completed either using a slow cadence (2 seconds) or explosively (<1 second) both with a weight equal to 60%1RM for 4 sets of 8 repetitions. The third protocol consisted of 6 sets of 4 repetitions with a heavier resistance (80% 1RM). The eccentric component was controlled at 2 seconds, range of motion was consistent, and rest intervals were maintained at 90 seconds between sets. Researchers collected expired air at 20 min before, during, and 1 hour post-exercise. Four blood samples were collected at 15-minute intervals beginning 15 minutes post-exercise.
Although blood lactate was greater after slow contractions, as expected, the explosive group actually burned more calories both during and after exercise. The results for the heavy explosive group were similar to the slow contraction group.
Given the results of this study, experienced exercisers may benefit from incorporating more explosive contractions during resistance exercise. Beginners should strive to improve exercise technique and form through slow, controlled movements before attempting explosive contractions.
Mazzetti, Scott et al. (2007) Effect of Explosive versus Slow Contractions and Exercise Intensity on Energy Expenditure. Medicine and Science in Sports and Exercise. 39(8): 1291-1301.
The
Latest Scoop on the Hottest Tool in Fitness: Vibration Exercise
In two separate studies, both published this past May, exercising while standing on a vibrating platform has been shown to positively affect metabolism.
In the first study, researchers set out to determine how strength training on a vibration plate would affect glycemic control in type 2 diabetics. Forty adult type 2 diabetics participated. Researchers assessed fasting glucose and hemoglobin at baseline and after 12 weeks of training. Although fasting glucose was unchanged following training in both groups, both maximal glucose concentration and hemoglobin decreased significantly in the vibration exercise group. Hemoglobin actually increased in both the strength training only and control group. Vibration exercise has previously been shown to increase strength with less volume and at lower relative intensities of exercise. The authors suggest that the low-time commitment may encourage type 2 diabetics to incorporate exercise into their disease management program.
The second study, published in the Journal of Strength and Conditioning Research reported greater energy expenditure and perceived exertion without subsequent increases in heart rate for Vibration Exercise compared to controls: in this case, lower actual effort increased results.
Seventeen college-aged men physical activity participated in 2 exercise protocols; one consisting of a half squat and a second consisting of a half squat with vibration. Researchers measured energy expenditure, respiratory exchange ratio, perceived exertion, and heart rate at baseline, during exercise, and short-recovery conditions.
These findings suggest that individuals seeking weight loss via body fat reduction, along with muscle hypertrophy, would benefit from training on a vibration platform.
Baum, K. et al (2007) Efficiency of Vibration Exercise for Glycemic Control in Type 2 Diabetes Physical activity tients. International Journal of Medicine and Science. 31(4): 159-163.
Da Silva, M.E. et al (2007) Influence of Vibration Training on Energy Expenditure in Active Men. Journal of Strength and Conditioning Research. 21(2):470-475.
Dr
Tom Seabourne Joins
Exercise ETC Faculty
Tom Seabourne, PhD, CSCS has joined Exercise ETC's faculty. Dr Seabourne is a well-known author, national CE presenter educator and athlete. Dr Seabourne will bring his unique mix of real life experience and superior education to our webinar series of CE programs starting in September. To read Tom's complete bio, please visit: www.exerciseetc.com/faculty.html
Exercise ETC is pleased to be able to offer the latest in on-line education. Now, via our brand new "Webinars," you are able to attend on-line education programs from the privacy of your home or office. If you have a computer with a wired, high-speed Internet connection you have all the equipment you need to join our webinar!
What's a "Webinar?"
A webinar is a continuing education course that is conducted via our "Virtual Classroom" series. It is conducted in real time and is fully interactive, allowing you to communicate directly with your presenter... instantly! And at only $19.99 per session you won’t find a more cost effective CE program. If you have a computer with a high-speed connection, you have all the equipment you need to join the session! Each on-line program is approved for 0.2 CECs through ACE, CSCS, NSCA and NASM and/or 2.0 CEUs through AFAA, BOC, ISSA, WITS, NCSF and most other certifications. Please note that class sizes are limited, so register early!
For specific information on CE awards, please click on: www.exerciseetc.com/cec.html
September Webinar Schedule
Each module is approved for 0.2 CECs through ACE, CSCS, NASM & NSCA or 2.0 CEUs through AEA, AFAA, ISSA, NATA, NSCF, WITS and many more!
Each 2-hour module is only $19.99
High Intensity Interval Training
Wednesday September 5
7 – 9 pm EST (4 –6 pm PST)
Tom Seabourne, Ph D, CSCS
Strength
Training for Women
Tuesday, September 11
7 – 9 pm EST (4 –6 pm PST)
Tom Seabourne, Ph D, CSCS
Nutrient
Timing for Optimal Performance
Wednesday, September 12
7 – 9 pm EST (4 –6 pm PST)
Staci Hendrickson, MS, RD, CSCS
Exercise
After Hip or Knee Replacement
Tuesday, September 18
7 – 9 pm EST (4 –6 pm PST)
Irv Rubenstein, PhD, CSCS
Understanding
the Mind-Body Connection
Wednesday, September 19
7 – 9 pm EST (4 –6 pm PST)
Tom Seabourne, Ph D, CSCS
Power,
Plyometrics and Performance
Tuesday, September 25
7 – 9 pm EST (4 –6 pm PST)
Tom Seabourne, Ph D, CSCS
Community
Based Marketing Strategies
Wednesday, September 26
7 – 9 pm EST (4 –6 pm PST)
Guy Andrews, MA, CSCS, PES
For
complete details including course descriptions, instructor credentials,
CE awards or to
register for a program, visit:
www.exerciseetc.com/virtual.html#special
or call 1-800-244-1344
To
unsubscribe or change your options,
scroll to the bottom of this newsletter
and click on the link.
©
2010 Exercise ETC Inc.
1881 NE 26 Street # 202
Ft. Lauderdale, FL 33305
(p) 800-244-1344
(f) 954-566-3937
info@exerciseetc.com