Body water: Difference between revisions
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A siggy!!! |
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A significant fraction of the [[human]] body is [[water]]. This '''body water''' is distributed in different compartments in the body. Lean muscle tissue contains about 75% water. Blood contains 83% water, body fat contains 25% water and bone has 22% water. |
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In diseased states where body water is affected, the compartment or compartments that have changed can give clues to the nature of the problem. |
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Body water is regulated by [[hormone]]s, including [[anti-diuretic hormone]] (ADH), [[aldosterone]] and [[atrial natriuretic peptide]]. |
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There are many methods that can be used to determine body water. One way to get a simple estimate is by calculation. |
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==Calculation of body water== |
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In individuals of normal weight, water is abundant in most parts of the body, except in [[adipose tissue]] ([[fat]]). These calculations are for adults of average build, and are inappropriate for [[obesity|obese]] or overly muscular people. These proportions are very simplified and use round numbers for quick calculation. Written By:Tyler Bower |
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In men about 72% of the body mass is water. This value is about 68% in women due to a higher proportion of body fat. This is the ''total body water''. |
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Body water is broken down into three ''fluid compartments:'' [[Intracellular fluid]] (2/3 of Body Water), [[Blood plasma|Plasma]] (1/15 of Body Water), and [[Intercellular fluid]] (4/15 of Body Water). |
Body water is broken down into three ''fluid compartments:'' [[Intracellular fluid]] (2/3 of Body Water), [[Blood plasma|Plasma]] (1/15 of Body Water), and [[Intercellular fluid]] (4/15 of Body Water). |
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measurement of [[deuterium]] abundance in breath samples from individuals. A known dose of deuterated water ([[Heavy water]], D2O) is ingested and allowed to equilibrate within the body water. The FA-MS instrument then measures the deuterium-to-hydrogen (D:H) ratio in the exhaled breath water vapour. The total body water is then accurately measured from the increase in breath deuterium content in relation to the volume of D2O ingested. |
measurement of [[deuterium]] abundance in breath samples from individuals. A known dose of deuterated water ([[Heavy water]], D2O) is ingested and allowed to equilibrate within the body water. The FA-MS instrument then measures the deuterium-to-hydrogen (D:H) ratio in the exhaled breath water vapour. The total body water is then accurately measured from the increase in breath deuterium content in relation to the volume of D2O ingested. |
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Another method of determining total body water percentage (TBW%) is via Bioelectrical Impedance Analysis (BIA). In the traditional BIA method, a person lies on a cot and spot electrodes are placed on the hands and bare feet. Electrolyte gel is applied first, and then a current of 50 kHz is introduced. BIA has emerged as a promising technique because of its simplicity, low cost, high reproducibility and |
Another method of determining total body water percentage (TBW%) is via Bioelectrical Impedance Analysis (BIA). In the traditional BIA method, a person lies on a cot and spot electrodes are placed on the hands and bare feet. Electrolyte gel is applied first, and then a current of 50 kHz is introduced. BIA has emerged as a promising technique because of its simplicity, low cost, high reproducibility and noninvasiveeesssssss. BIA prediction equations can be either generalized or population-specific, allowing this method to be potentially very accurate. Selecting the appropriate equation is important to determining the quality of the results. |
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what did the pickle say to the carrot? Roar! haha |
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For clinical purposes, scientists are developing a multi-frequency BIA method that may further improve the method's ability to predict a person's hydration level. New segmental BIA equipment that uses more electrodes may lead to more precise measurements of specific parts of the body. |
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[http://www.tanita.co.uk/index.cfm Tanita] has developed a simplified version of BIA that uses leg-to-leg bioimpedance analysis. In this system, two footpad electrodes (pressure contact) are incorporated into the platform of a precision electronic scale. A person's measurements are taken while in a standing position with the electrodes in contact with bare feet. Total body water is calculated from the measured impedance data feedback. [http://www.new-fitness.com/body_fat_measuring.html New-Fitness] |
[http://www.tanita.co.uk/index.cfm Tanita] has developed a simplified version of BIA that uses leg-to-leg bioimpedance analysis. In this system, two footpad electrodes (pressure contact) are incorporated into the platform of a precision electronic scale. A person's measurements are taken while in a standing position with the electrodes in contact with bare feet. Total body water is calculated from the measured impedance data feedback. [http://www.new-fitness.com/body_fat_measuring.html New-Fitness] |
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Revision as of 01:12, 11 January 2007
A siggy!!!
Body water is broken down into three fluid compartments: Intracellular fluid (2/3 of Body Water), Plasma (1/15 of Body Water), and Intercellular fluid (4/15 of Body Water).
Water exists in other places, (such as in the eye) but this can be ignored as being of insignificant quantity in quick calculation.
Measurement of body water
Total body water can be determined using Flowing afterglow mass spectrometry FA-MS measurement of deuterium abundance in breath samples from individuals. A known dose of deuterated water (Heavy water, D2O) is ingested and allowed to equilibrate within the body water. The FA-MS instrument then measures the deuterium-to-hydrogen (D:H) ratio in the exhaled breath water vapour. The total body water is then accurately measured from the increase in breath deuterium content in relation to the volume of D2O ingested.
Another method of determining total body water percentage (TBW%) is via Bioelectrical Impedance Analysis (BIA). In the traditional BIA method, a person lies on a cot and spot electrodes are placed on the hands and bare feet. Electrolyte gel is applied first, and then a current of 50 kHz is introduced. BIA has emerged as a promising technique because of its simplicity, low cost, high reproducibility and noninvasiveeesssssss. BIA prediction equations can be either generalized or population-specific, allowing this method to be potentially very accurate. Selecting the appropriate equation is important to determining the quality of the results.
what did the pickle say to the carrot? Roar! haha
Tanita has developed a simplified version of BIA that uses leg-to-leg bioimpedance analysis. In this system, two footpad electrodes (pressure contact) are incorporated into the platform of a precision electronic scale. A person's measurements are taken while in a standing position with the electrodes in contact with bare feet. Total body water is calculated from the measured impedance data feedback. New-Fitness