Body composition

This article is about fat, bone, water and muscle content of the human body. For the body's chemical composition, see Composition of the human body. For the general composition of all organisms, see Biological organisation.

In physical fitness, body composition is used to describe the percentages of fat, bone, water and muscle in human bodies. [1]Because muscular tissue takes up less space in our body than fat tissue, our body composition, as well as our weight, determines leanness. Two people of same sex and body weight may look completely different from each other because they have a different body composition.[2]

Body from body density

The most accurate estimation of body composition is derived from body density by means of the equation of fractional densities which states that the overall density of a mixture containing more than one substance (each with a different density) can be calculated if the proportion and density of each component substance is known. For determination of body composition the body is often assumed to be composed of 4 basic substances ("four compartment model") with the general form of the equation as follows:

    1/Db = w/Dw + f/Df + p/Dp + m/Dm   [3]

Where: Db = overall body density, w = proportion of water, f = proportion of fat, p = proportion of protein, m = proportion of mineral, Dw = density of water, Df = density of fat, Dp = density of protein, Dm = density of mineral

In a research laboratory setting the overall density of the body (Db) is calculated from its mass and volume (Db = mass/volume). The mass of the body is found by simply weighing a person on a scale. The volume of the body is most easily and accurately determined by completely immersing a person in water and calculating the volume of water from the weight of water that is displaced (via "underwater weighing"). The proportions of water, protein and mineral in the body are found by various chemical and radiometric tests.[4] The densities of water, fat, protein and mineral are either measured or estimated. The equation is then rearranged to solve for the proportion of fat (f) from the other quantities.

A reasonably accurate estimation of body fat can be obtained by means of a "two compartment model" of the human body which is based upon two simplifying assumptions: 1. Human fat has a density of 0.9 grams/ml, and 2. The lean (non-fat) components of the human body have an overall density of 1.1 grams/ml.

The two compartment model allows for an estimation of the proportions of fat and lean components of the body to be made from the overall body density. And, as explained above, the overall body density (Db) is easily calculated from body mass and body volume. Rearranging the equation of fractional densities to solve for the proportion of fat (f) will yield the following equation:

    f = 495/Db - 450  [5]

The density of human fat is remarkably constant across all sub-groups studied but variations have been reported in the density of the fat free mass (i.e. lean or non-fat components). To address these differences unique equations for the two compartment model have been proposed for specific populations [6]

Body composition from DEXA

Body composition measurement with dual energy X-ray absorptiometry (DEXA) is used increasingly for a variety of clinical and research applications. A DEXA scan requires medical supervision by a radiologist and some consider it to be the new "Gold Standard" in body composition testing. Total body scans using DEXA give accurate and precise measurements of body composition, including bone mineral content (BMC), bone mineral density (BMD), lean tissue mass, fat tissue mass, and fractional contribution of fat.[7]

The estimation of body fatness from body density (by means of underwater weighing) was accepted as the "gold standard" for many decades. Some researchers now claim that whole body scanning techniques (e.g. "DEXA") are the new "gold standard". But these claims are somewhat dubious since the scanning algorithms are validated against body composition assessments based on fractional density from underwater weighing.

DEXA measurements are highly reproducible if the same type of machine is used (citation needed), making them excellent for monitoring pharmaceutical therapy, nutritional or exercise intervention, sports training and or other body composition altering programs. They are also fast, simple, non-invasive, and expose the subject to a level of x-rays less than that of a cross-country flight. DEXA exams provide both total body and up to 14 regional (trunk, individual arms & legs, android, gynoid, etc.) results. However, the role of DEXA in clinical evaluations and research studies has been questioned by Wang et al.[8] who stated that "the errors of the DXA [DEXA] method are still of concern if it were to be used as the criterion."

Body composition from air displacement plethysmography

Body composition measurement with Whole-Body Air Displacement Plethysmography (ADP) technology

Another technique for measuring body composition has been developed for measuring body volume using a different method than underwater weighing. The technique uses air, as opposed to water and is known as Whole-Body Air Displacement Plethysmography (ADP). Subjects enter a sealed chamber that measures their body volume through the displacement of air in the chamber. Body volume is combined with body weight (mass) in order to determine body density. The technique then estimates the percentage of body fat and lean body mass (LBM) through empirically derived equations similar to those used with underwater weighing (for the density of fat and fat free mass).

Body composition from conductivity

Another method is bioelectrical impedance analysis (BIA), which uses the resistance of electrical flow through the body to estimate body fat. Unfortunately, BIA is highly sensitive to hydration status and water intake. Drinking water dilutes the electrolytes in the body making it less conductive as does increasing body fat.

Body composition from skin folds

Body Composition can also be measured using the skin fold test, this is done using a tool called a caliper. You can do this in nine steps,

  1. Take measurements on the right side of the body.
  2. Mark client up.
  3. Pinch skin (KM) above mark
  4. Pull fat away from muscles
  5. Place caliper halfway between top and bottom of mark
  6. Allow caliper to settle (1–2 seconds)
  7. Take reading — repeat 15 seconds
  8. Add up total (4) — average
  9. Calculate body fat %

A common skin fold method is by using gun style calipers to measure the thickness of subcutaneous fat in multiple places on the body. This includes the abdominal area, the subscapular region, arms, buttocks and thighs. These measurements are then used to estimate total body fat with a margin of error of approximately four percentage k1 points (clarification of the meaning of "k1 points" needed here)...

Body composition from total body imaging

Body Composition is also estimated using cross-sectional imaging methods like magnetic resonance imaging (MRI) and computed tomography (CT). Since MRI and CT give precise body images, many pharmaceutical companies are very interested in these procedure to estimate body composition measures before and after drug therapy especially in drugs that might change body composition. (references needed!)

Body composition from ultrasound

Ultrasound has also been used to measure subcutaneous fat thickness, and by using multiple points an estimation of body composition can be made. Ultrasound has the advantage of being able to also directly measure muscle thickness and quantify intramuscular fat (documentation needed here).

Body composition from circumferences and other measurements

Assessment of somatic (skeletal) protein is typically determined by simple measurements and calculations including mid arm circumference (MAC), mid arm muscle circumference (MAMC), and creatinine height ratio (CHI). Creatinine height ratio is calculated as 24-hour urine creatinine multiplied by 100 over the expected 24-hour urine creatinine for height. This calculation results in a percentage which can indicate protein depletion. (citation needed)

Types of exercises for body composition

The exercises needed to maintain optimal body composition differ from man to woman to child, but the ideal types of fitness remain the same.[9]

The primary exercises needed to improve body composition involve fat burning and cardiovascular exercises.[10] Specific exercises includes jump rope skipping for losing excess fat, swimming for leaner muscles and weight lifting for bodybuilding.[11]

See also

References

  1. "composition of the body – FREE composition of the body information | Encyclopedia.com: Find composition of the body research". www.encyclopedia.com. Retrieved 2016-01-10.
  2. "Body Composition Tests". www.heart.org. Retrieved 2015-11-25.
  3. Siri William E (1956). "The gross composition of the body". Advances in Biological and Medical Physics 4: 262.
  4. Siri William E (1956). "The gross composition of the body". Advances in Biological and Medical Physics 4: 239–278.
  5. Siri William E (1956). "Body composition from fluid spaces and density: analysis of methods". Donner laboratory of biophysics and medical physics. UCRL 3349: 14.
  6. Wagner DR, Heyward VH (2000). "Measures of body composition in blacks and whites: a comparative review". J Clin Nutr 71 (6): 1392–1402.
  7. Kiebzak GM, Leamy LJ, Pierson LM, Nord RH, Zhang ZY (2000). "Measurement precision of body composition variables using the lunar DPX-L densitometer". J Clin Densitom 3 (1): 35–41. doi:10.1385/jcd:3:1:035. PMID 10745300.
  8. Wang ZM, Deurenberg P, Guo SS, Pietrobelli A, Wang J, Pierson RN Jr, Heymsfield SB (1998). "Six-compartment body composition model: inter-method comparisons of total body fat measurement". Int J Obes Relat Metab Disord 22: 329–337.
  9. "Normal ranges of body weight and body fat". human-kinetics. Retrieved 2015-11-25.
  10. "Examples of Body Composition Exercises". Healthy Living - azcentral.com. Retrieved 2015-11-25.
  11. "Body Composition Exercises". Buzzle. Retrieved 2015-11-25.
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