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HOW IS IT
MEASURED Step Off of
the Bathroom Scale….Forever! Over the
years a number of methods have been developed to measure body composition. Until
the BOD POD, all of these methods had drawbacks, being inaccurate, messy,
difficult, require extensive training, or invasive.
In measuring body composition, it's not only important what the result is, but
also how you arrived at it. For example, let's say you're a woman with a
skinfold or bioelectric impedance body fat measurement of 22%. At first glance
it seems that you fall into a healthy body fat range. The problem is, since the
error factor for both of these methods is up to +/-8%, this number could mean
your actual body fat could be as low as 14% (risky - low body fat) or as high as
30% (borderline excess fat). Inaccurate information like this is no better than
no information at all, and can be downright dangerous if being used to determine
an appropriate diet and/or training program. This is why it's so important to
receive an accurate body composition assessment. It's the only way to get the
proper information necessary for making sensible decisions regarding nutrition
and fitness programs.
COMPARISON OF THE VARIOUS METHODS for ASSESSING BODY COMPOSITION
BOD POD
Based on the same whole-body measurement principal as hydrostatic weighing, but
using patented air displacement technology instead of water. The subject sits
comfortably inside the BOD POD while computerized pressure sensors determine the
amount of air displaced by the person's body. Testing is highly accurate, safe,
and quick, with a complete analysis in about 5 minutes.
Advantages:
-
Uses the
most advanced technology available today.
-
Based on
proven accurate whole body measurement principle.
-
Fast test
time (about 5 minutes).
-
Easy and
suitable for all types of populations including the obese, disabled, elderly,
and children.
-
Provides
excellent repeatability and tracking.
-
Non-invasive.
-
Almost no
equipment maintenance.
-
Error rate
is less than 2%
Disadvantages: None
Hydrostatic Weighing ("Dunk Tank") - Based on the whole-body principle of
Archimedes, which states that the volume of an object is equal to the object's
loss of weight in water, with a correction for the density of the water. In this
procedure the subject is required to sit strapped in a chair that is submerged
into a water tank and weighed. While submerged, the subject must expel all the
air from their lungs and hold their breath for 10-15 seconds until the scale can
be read. This process is repeated up to 10 times to ensure accuracy.
Advantages:
-
Has long
been considered the "gold standard" of body composition measurement.
-
Known to
be very accurate when compliance issues can be followed properly.
-
Error rate
is less than 2% under proper conditions.
Disadvantages:
-
Testing is
lengthy (up to 1 hour), arduous, and very difficult to perform correctly.
-
Technician
must be highly skilled in order to obtain accurate results.
-
Some
populations are impossible to test, including the extremely obese, disabled,
elderly, and those with an aversion to water.
-
Maintenance issues are high. Water temperature needs to remain constant and the
tank should be drained after each measurement (dirty water can skew results).
Dual
Energy X-Ray Absorptiometry (DEXA) - In this procedure the subject lies on a
table and the body is slowly scanned. Computer software then reconstructs an
image of the underlying tissue to determine total fat and lean mass.
Advantages:
Disadvantages:
-
Uses x-ray
technology, which is invasive.
-
Equipment
is very expensive - from $60,000 to $100,000, and almost exclusive to medical
facilities.
-
Limited
Use X-Ray Technician license required for the operator.
-
Different
DEXA equipment can produce different results.
-
Testing
can take up to 20 minutes.
-
Not
accurate in testing the extremely obese.
Skinfold Calipers - Measures subcutaneous fat at several sites on the body
by pinching the skin with calipers.
Advantages:
Disadvantages:
-
Not as
accurate as most other methods, since only subcutaneous fat is being measured.
The assumption is that subcutaneous fat is proportional to a person's total body
fat, but this proportion actually varies quite a bit based upon gender, age, and
ethnicity.
-
Reliability is highly dependent upon the type of calipers used, the skill level
of the technician, and the skinfold equation used (there are hundreds of them).
-
Not a
valid method for measuring the extremely obese.
-
Testing
can take a long time, as many sites need to be pinched repeatedly to achieve the
most accurate result.
-
Error
factor of up to +/-8%.
Bioelectric Impedance Analysis - This method is based on the concept that
the lean tissue of the body is more conductive than fat tissue due to its higher
water content. Testing involves the placement of electrodes on the skin while a
low dose electrical current is passed through the body. The resistance to this
current is determined and converted to percent body fat.
Advantages:
Disadvantages:
-
Not as
accurate as the BOD POD, hydrostatic weighing, or DEXA.
-
Results
are greatly affected by the type of instrumentation used, hydration level, food
intake, and skin temperature.
-
Can't be
used by those with medical implants such as pacemakers and defibrillators.
-
Error
factor of up to +/-8%.
Near
Infrared Light Device (Futrex) - This method is based on the principle that
all organic materials (e.g. fat or protein) absorb light in unique portions of
the spectrum. Optical measurements at two wavelengths are taken along with
physical characteristics of the client
Additional pages:
Frequently Asked Questions
How Is It Measured?
What Does It Mean?
What Is Body Composition?
Why is Body Composition Important?
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