WHAT IS IT AND HOW DO YOU ASSESS IT? KNOWING HOW TO MEASURE AND MONITOR YOUR BODY COMPOSITION IS ONE OF THE FIRST STEPS YOU CAN TAKE IN ACHIEVING (AND TRACKING) HEALTH AND PERFORMANCE PROGRESS.
Assessing body composition is not about getting ripped, let’s get this clear. Your body composition is important for both health and performance reasons. From a health perspective, poor body composition can be associated with a myriad of diseases including diabetes, heart disease, cancer, osteoporosis, sarcopenia, and metabolic syndrome. From a pure performance perspective, improving body composition can be an effective way to improve your power to weight ratios that can help bring about improvements in cycling and running, but it’s also equally important to understand that there can be diminishing returns here, too—that is, get too lean and you could start to lose power and run the risk of injury.
When first assessing body composition, it is good to establish a baseline measurement and then, from there, objectively assess the effectiveness of a nutritional and/or exercise intervention. By monitoring change over time you can adjust and assess what you need. There are multiple ways in which to assess body composition. These range from girth measurements, bioelectrical impedance, skinfolds, DEXA, and underwater weighing. These varied methods have both pros and cons associated with them that we’ll explore below. The method you choose may be dictated by your budget and also your commitment to assessment—some are more involved than others.
Body Composition: Methods of Assessment
A Piece of String
Perhaps the most simple place to start is a girth measurement. Take a piece of string and measure your height. Next, take that same piece of string and fold it in half. Place it around the narrowest part of your waist and the two ends should touch or overlap. Essentially, the narrowest part of your waist should be half your height (waist to height ratio =/< 0.5). You can calculate your actual ratio by simply using this formula: Waist to height ratio = waist divided by your height.
Ideally, you want to see a range of around 0.45-0.55. If it is under 0.45 you may be underweight; if it is over 0.55 you may be overweight. Both carry potential risks: being underweight could leave you open to osteopenia, osteoporosis, or Relative Energy Deficit Syndrome (REDs) while being overweight could leave you at risk of metabolic syndrome, Type II diabetes, heart disease, and stroke. Of course, other factors do contribute to the relative risk of these diseases too.
Conclusion: This is a simple, quick, and effective way to measure body composition. It may be the starting point for investigating further.
If you are going to get a skinfold measurement done, seek out a practitioner who has completed their International Society for the Advancement of Kinanthropometry (ISAK 1). This will ensure that the assessment is thorough, consistent, and reliable. The assessment will likely be done over seven places on your body and should take 15-30 minutes to complete. The practitioner will mark your body and perform the measurements twice to ensure accuracy and minimize measurement error. If there is an error then a third should be taken. Skinfolds do not relate to hormones and any practitioner who explains your skinfolds are related to cortisol, oestrogen, or your thyroid should make you very wary of them.
Conclusion: Choose an ISAK practitioner to ensure accuracy of measurements.
Bioelectrical Impedance Analysis (BIA)
These are machines that you stand on, sometimes with a pair of handles to grab, while a current passes through your body to estimate your fat free mass (FFM) and fat mass (FM). The principle is that lean muscle consists of water and electrolytes and acts as a good conductor while fat mass does not and is a poor conductor. Be aware that there are a lot of confounding factors related to BIA including hydration status, nutrition status, menstrual cycle, and the electrodes themselves. Bioelectrical impedance analyzers use equations to describe statistical associations based on a specific population, and as such the equations are only useful if you closely match the specific population in body size and shape. Significant improvements have been made with these machines lately and some do now use multiple frequencies and bioelectrical impedance spectroscopy (BIS) to assess total body water (TBW), even breaking this into extracellular and intracellular water. Despite these improvements, the real use of BIA is for describing the average body composition for groups of individuals rather than individual changes due to the often large measurement error.
Conclusion: FFM is often underestimated in normal-weight individuals while overestimated in obese individuals, especially when compared to DEXA measurements (see below).
Dual Energy X-Ray Absorptiometry (DEXA)
This method assesses body fat (visceral and subcutaneous), muscle, and total body bone mineral (TBBM) density. It is considered the gold standard for bone mineral density measurements, so if you are a female endurance athlete this is certainly worth considering for your body composition assessment. In my opinion, if you are a female endurance athlete with a waist to height ratio </=0.5 and you have also had some irregular eating episodes that have resulted in underfueling your training and performance then a DEXA scan is key. When it comes to body composition measurements it is not 100% accurate as it does assume a constant hydration status which could result in an error of 1-2% in body fat and lean tissue measurements.
Conclusion: DEXA is quick to use, safe, and as reliable as you can get. Ensure you are hydrated before each use and aim to standardize the time of day. Women should aim to get tested at the same time in their cycles, preferably during phase one or two.
Body Composition Takeaways
No single method is the gold standard in body composition assessment and all have their advantages and disadvantages depending on cost, practicality, and measurement error. Whichever you choose to use, consider attempting to standardize the method as best as possible and stay with that choice for consistency purposes.
One other important consideration is that if your goal is improving body composition for performance purposes, be aware that maintaining a low percentage of body fat over a long period of time is not only difficult, it can also result in an increased risk of upper respiratory chest infections and other musculoskeletal injuries.
Working alongside a professional practitioner to periodize your plan in order to hit targets when required would be sound advice to follow to ensure you are as healthy as you can be all year round. In short, peak for performance—not to get ripped.
Acute Ashwagandha supplementation improves cognitive function. Xing et al, 2020. Proceedings of the Seventeenth International Society of Sports Nutrition (ISSN) Conference and Expo
Why is this important?
Nootropics and adaptogens are all the rage at the moment. An adaptogen is a natural substance considered to help the body adapt to stress whilst a Nootropic is a substance used to enhance memory or other cognitive functions. Think “Smart drug” from the film “Limitless” with Bradly Cooper. Ashwagandha is one such herb known as the “King of Ayurvedic” that ticks both these boxes. Personally, I have found a lot of benefit from supplementing with Ashwagandha KSM-66. The benefits have been a reduction in perceived stress and an improved ability to focus. This is purely anecdotal and hence why this study was of interest.
Research has indicated that chronic supplementation with Ashwagandha (Withania somnifera root extract) has resulted in reduced feelings of stress & anxiety, improved mood and attenuated cognitive function although a lot more research is required before definitive conclusions can be made (1-4). This is because a lot of the studies to date have poor methodology, mixed subject groups and varied supplementation routines. It appears a dosage of 300-500mg of root extract taken for 2-6 months has a beneficial impact on users. For now, the research is promising and the space should be watched closely.
The source of Ashwagandha (NooGandha®, Specnova Inc., FL) is not one that has a lot of information on it, so I am unsure of the quality (% withanolides, % Withaferin A). The form I am familiar with is KSM-66 and it is the most researched form of Withania root extract, with the majority of studies using that form. Saying that the study was a double-blind, placebo-controlled, crossover study so the results should carry some weight. Participants completed a battery of cognitive function tests then consumed 400mg of Ashwagandha (NooGandha®, Specnova Inc., FL) or a placebo and repeated the tests every hour up to 6hrs post-consumption. They had a 7 day washout period then reversed the treatment.
Can a protocol of fish oil be effective in reducing markers of inflammation and oxidative stress in athletes?
EFFECT OF 8-WEEK N-3 FATTY-ACID SUPPLEMENTATION ON OXIDATIVE STRESS AND INFLAMMATION IN MIDDLE- AND LONG-DISTANCE RUNNING ATHLETES: A PILOT STUDY
Why is this important?
Strenuous exercise causes oxidative stress and inflammation in the body. This is a normal response and required in order to create an adaptation to the applied demand. When the inflammatory response gets out of control and a lack of recovery occurs then the athlete could be at risk of illness and/or injury as a result of muscle damage. Finding the balance is key to an effective training program. Research focusing on anti-oxidants and in particular high dose anti-oxidants (6-8g/day vitamin C & E) to reduce this effect has been found to be effective in the short term yet blunting skeletal muscle adaptation (1) in the long term (28 days) and being seen as deleterious to performance This study (2) explored a high dose (~4g/day) supplementation program of Omega-3 (EPA: DHA) oils for 8 weeks to 17-30-year-old middle and long-distance runners who were training at least 5 hours per day every day compared to a sedentary group (less than 1hr training twice per week). The investigators were interested to see if there was a difference between exercising individuals and sedentary ones with an identical supplementation program.
Previous research has investigated omega 3 supplementations to assist with reducing inflammation and oxidative stress in athletes. Jouris et al, 2011 (3) investigated the effect of 7 days of 3g/day of omega 3 on delayed onset muscle soreness (DOMS) after eccentric exercise and found ti to be effective in reducing perceived soreness in the participants. Omega 3 supplementation has been found to be effective in chronic inflammatory diseases such as bowel disease and rheumatoid arthritis yet the data on athletes is equivocal with varying results across varying studies. Omega 3’s have the ability to act as anti-oxidants and anti-inflammatory mediators via inhibition of pathways associated with inflammation as well as their direct action on macrophages and neutrophils.
This study was very interesting as it investigated a group that is very much in line with or actually performs more training than the athletes that we work with. They measured a multitude of markers including testosterone/cortisol, oxidative damage (TNF-alpha, urine 8-OHdG, MDA, PCc), anti-oxidant ability (GPx, CAT), muscle damage (creatinine, CPK, LDH, IGF-1) and lipids (TAGs, Total cholesterol and HDL). The actual supplementation was 4 capsules contained 600mg DHA and EPA with a total of 950mg of omega 3 fatty acids. So the actual dosage of EPA: DHA was 2.4g/day and not 4g/day of those specific fatty acids. This is actually less than what we typically recommend on a daily basis at Tinlane. What we do not know is whether or not this supplementation protocol had any effect on adaptation to training as measured. It is important to note that diet was not controlled in this study although the baseline PUFA 6:PUFA 3 ratio intake was assessed at baseline to assess the groups habitual intake, The authors did not comment on the ratio’s the groups - so it is unclear of there was a difference at baseline.