Archive for Body Fat Percentage
Body Composition Scale – Measurement Techniques Part 4 (Anthropometric Methods)
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There exist various anthropometric methods for estimating body fat. The term anthropometric refers to measurements made of various parameters of the human body, such as circumferences of various body parts or thicknesses of skinfolds. An excellent explanation of these methods is available in a PDF from the Academy For Educational Development.
Anthropometric Body Composition Methods Basis
Most of these methods are based on a statistical model. Some measurements are selected, and are applied to a population sample. For each individual in the sample, the method’s measurements are recorded, and that individual’s body density is also recorded, being determined by, for instance, under-water weighing, in combination with a multi-compartment body density model. From this data, a formula relating the body measurements to density is developed.
Anthropometric Body Composition Scales Measure Body Density Not Fat Percentage
Because most anthropomorphic formulas such as the Durnin-Womersley skinfold method, the Jackson-Pollock skinfold method, and the US Navy circumference method, actually estimate body density, not body fat percentage, the body fat percentage is obtained by applying a second formula, such as the Siri or Brozek described in the above section on density. Consequently, the body fat percentage calculated from skin folds or other anthropometric methods carries the cumulative error from the application of two separate statistical models.
These methods are therefore inferior to a direct measurement of body density and the application of just one formula to estimate body fat percentage. One way to regard these methods is that they trade accuracy for convenience, since it is much more convenient to take a few body measurements than to submerge individuals in water tanks.
Sampling Issues Affect Accuracy of Anthropometric Body Fat Percentage Measurements
The chief problem with all statistically derived formulas is that in order to be widely applicable, they must be based on a broad sample of individuals. Yet, that breadth makes them inherently inaccurate. The ideal statistical estimation method for an individual is based on a sample of similar individuals.
For instance, a skinfold based body density formula developed from a sample of male collegiate rowers is likely to be much more accurate for estimating the body density of a male collegiate rower than a method developed using a sample of the general population, because the sample is narrowed down by age, sex, physical fitness level, type of sport, and lifestyle factors. On the other hand, such a formula is unsuitable for general use.
Body Composition Scale – Measurement Techniques Part 3 (Bioelectrical Impedance Analysis)
This is the third article in our series on body composition scales and measurement techniques. In Part 1 we introduced the concept of body composition measurement and early methods of estimating body fat percentages relative to total body weight. In part 2 we explored pre DXA average body density measurement. In this article, we will explore bioelectrical impedance analysis, commonly referred to as BIA.
Bioelectrical impedance scales for body composition analysis
The Bioelectrical impedance analysis (BIA) method is a more affordable but less accurate way to estimate body fat percentage. The general principle behind BIA: two conductors are attached to a person’s body and a small electrical current is sent through the body. The resistance between the conductors will provide a measure of body fat, since the resistance to electricity varies between adipose, muscular and skeletal tissue.
Fat-free mass (muscles) is a good conductor as it contains a large amount of water (approximately 73%) and electrolytes, while fat is anhydrous and a poor conductor of electrical current. Factors that affect the accuracy and precision of this method include instrumentation, subject factors, technician skill, and the prediction equation formulated to estimate the Fat Free Mass.
Criticiams Of Bio-electrical Impedance Analysis Body Composition Scale Measurement Methodology
Criticism of this methodology is based on where the conductors are placed on the body; typically they are placed on the feet, with the current sent up one leg, across the abdomen and down the other leg. As technician error is minor, factors such as eating, drinking and exercising must be controlled since hydration level is an important source of error in determining the flow of the electrical current to estimate body fat.
As men and women store fat differently around the abdomen and thigh region, the results can be less accurate as a measure of total body fat percentage.
Variables Affecting Accuracy of BIA Body Composition Scale Readings
Another variable that can affect the amount of body fat this test measures is the amount of liquid an individual has consumed before the test. As electricity travels more easily through water, a person who has consumed a large amount of water before the test will measure as a lower body fat percentage. Less water will increase the percentage of body fat.
Also reducing the reliability of this method is the variation between models of the BIA devices: for instance when comparing outputs from a Tanita scale to an Omron Body Logic handheld device the Tanita scale overestimated the percentage body fat in college-aged men by 40% and in college aged women by 55%.
Availability of BIA Body Composition Measuring Devices
Bioelectrical impedance analysis is available in a laboratory, or for home use in the form of body fat scales and hand held body fat analyzers.
Body Composition Scale – Measurement Techniques Part 2
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This is the second part of our series on body composition measurement techniques. As you may recall from the previous article, a person’s exact body fat percentage generally cannot be determined, but there are several techniques which can be used to estimate it accurately. In Part 1 of this series, we explored near-infrared interactance and dual energy X-ray absorptiometry. In this article, we will explore additional body composition scale and measurement techniques.
Body Composition Scales – Expansions
There are several more complicated procedures that more accurately determine body fat percentage. Some, referred to as multicompartment models, can include DXA measurement of bone, plus independent measures of body water (using the dilution principle with isotopically labeled water) and body volume (either by water displacement or air plethysmography). Various other components may be independently measured, such as total body potassium.
In-vivo neutron activation can quantify all the elements of the body and use mathematical relations among the measured elements in the different components of the body (fat, water, protein, etc.) to develop simultaneous equations to estimate total body composition, including body fat.
Pre DXA Body average density measurement
Prior to the adoption of DXA, the most accurate method of estimating body fat percentage was to measure that person’s average density (total mass divided by total volume) and apply a formula to convert that to body fat percentage.
Since fat tissue has a lower density than muscles and bones, it is possible to estimate the fat content.
This estimate is distorted by the fact that muscles and bones have different densities: for a person with a more-than-average amount of bone mass, the estimate will be too low. However, this method gives highly reproducible results for individual persons (± 1%), unlike the methods discussed below, which can have an uncertainty up to ±10%. The body fat percentage is commonly calculated from one of two formulas:
- Brozek formula: BF = (4.57/ρ − 4.142) × 100
- Siri formula is: BF = (4.95/ρ − 4.50) × 100
Body Composition Scale – Measurement Technicques
Posted by: | CommentsBody Composition Scale – Measurement Techniques
A person’s exact body fat percentage generally cannot be determined, but there are several techniques which can be used to estimate it accurately:
Near-Infrared Interactance Body Fat Measurement
A beam of infra-red light is transmitted into the biceps. The light is reflected from the underlying muscle and absorbed by the fat. The method is safe, noninvasive, rapid and easy to use.
Measuring Body Fat Using Dual energy X-ray absorptiometry
Dual energy X-ray absorptiometry, or DXA (formerly DEXA), is a newer method for estimating body fat percentage, and is commonly cited as the current gold standard for body composition testing.
Two different types of X-ray scans the body, one that detects all tissues and another that doesn’t detect fat. A computer can subtract the second picture from the first one, giving only fat detection. The mass of this can be estimated by the grade of exposure.
Body Composition Scales – Expansions
There are several more complicated procedures that more accurately determine body fat percentage. Some, referred to as multicompartment models, can include DXA measurement of bone, plus independent measures of body water (using the dilution principle with isotopically labeled water) and body volume (either by water displacement or air plethysmography). Various other components may be independently measured, such as total body potassium.
In-vivo neutron activation can quantify all the elements of the body and use mathematical relations among the measured elements in the different components of the body (fat, water, protein, etc.) to develop simultaneous equations to estimate total body composition, including body fat.
Body Composition Scale – Recommendations Regarding Body Fat Percentages
Posted by: | CommentsBody Composition Scale – Recommendations Regarding Body Fat Percentages
Some body fat percentage levels are more culturally valued than others, and some are related to better health or improved athletic performance.
Actual levels of body fat are dependent on gender and age.
Different authorities have developed different recommendations for ideal body fat percentages, such as these from the The American Council on Exercise:
Body Composition Scale
Essential Body Composition Scale Body Fat Percentages
Note that the essential fat values in the chart shown are lower than the recommended minimum body fat percentage levels.
A small amount of storage fat is required to be available as fuel for the body in time of need.
Ideal Body Fat Composition Still Unclear As Relating To Best Overall Health
It is unclear whether falling in a particular category of these body fat percentages is better for one’s health than any other, but there seem to be enhancements in athletic performance as one nears the ideal body fat percentage range for one’s particular sport.
Body Composition and Body Fat Levels Vary By Gender and Other Factors
The leanest athletes typically compete at levels of about 5–8% for men or 10–15% for women.
Bodybuilders will often compete at ranges even lower than these levels.
Certified personal trainers will suggest to male bodybuilders that they should aim for a body fat percentage between 2–4% by contest time.
How To Reach Optimal Body Fat Levels and Body Composition
Getting to this level usually requires a carefully planned and implemented exercise program, specific and carefully monitored variations in fluid consumption, energy intake and macronutrient ratios, sodium and potassium, and sometimes also use of ointments and alcohol.
