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Body composition

December 15, 2023

This article is about fat, bone, water and muscle molecules 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 refers to quantifying the different components (or "compartments") of a human body.[1] The selection of compartments varies by model but may include fat, bone, water, and muscle.[2] Two people of the same gender, height, and body weight may have completely different body types as a consequence of having different body compositions. This may be explained by a person having low or high body fat, dense muscles, or big bones.[3]

Compartment models edit

Body composition models typically use between 2 and 6 compartments to describe the body. Common models include:[1]

  • 2 compartment: Fat mass (FM) and fat-free mass (FFM)
  • 3 compartment: Fat mass (FM), water, and fat-free dry mass
  • 4 compartment: Fat mass (FM), water, protein, and mineral
  • 5 compartment: Fat mass (FM), water, protein, bone mineral content, and non-osseous mineral content
  • 6 compartment: Fat mass (FM), water, protein, bone mineral content, non-osseous mineral content, and glycogen

As a rule, the compartments must sum to the body weight. The proportion of each compartment as a percent is often reported, found by dividing the compartment weight by the body weight. Individual compartments may be estimated based on population averages or measured directly or indirectly. Many measurement methods exist with varying levels of accuracy. Typically, the higher compartment models are more accurate, as they require more data and thus account for more variation across individuals. The four compartment model is considered the reference model for assessment of body composition as it is robust to most variation and each of its components can be measured directly.[1]

Measurement methods edit

A wide variety of body composition measurement methods exist. The gold standard measurement technique for the 4-compartment model consists of a weight measurement, body density measurement using hydrostatic weighing or air displacement plethysmography, total body water calculation using isotope dilution analysis, and mineral content measurement by dual-energy X-ray absorptiometry (DEXA).[1] However, it is also common to use a DEXA scan alone and refer to this as the "gold standard".[4] These claims are somewhat dubious since measurements methods vary significantly from study to study. In practice, the measurement methods used will be a tradeoff between cost, availability, and accuracy.

DEXA edit

Main article: Dual energy X-ray absorptiometry

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. 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.[5]

DEXA measurements are highly reproducible if the same type of machine is used,[6] making them excellent for monitoring pharmaceutical therapy, nutritional or exercise intervention, sports training, and 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.[7] who stated that "the errors of the DXA [DEXA] method are still of concern if it were to be used as the criterion."

Hydrostatic weighing edit

Main article: Hydrostatic weighing

Hydrostatic weighing, also referred to as underwater weighing, hydrostatic body composition analysis and hydrodensitometry, is a technique for measuring the density of a living person's body. It is a direct application of Archimedes' principle, that an object displaces its own volume of water.

Air displacement plethysmography edit

 
Body composition measurement with air displacement plethysmography or whole-body air displacement plethysmography (ADP) technology
Main article: Air displacement plethysmography

Air displacement plethysmography is an alternative to underwater weighing for measuring body volume. The technique uses air as opposed to water and is known as air displacement plethysmography (ADP). Subjects enter a sealed chamber that measures their body volume through the displacement of air in the chamber. Next, body volume is combined with body weight (mass) 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).

Isotope dilution analysis edit

Total body water may be effectively measured using isotope dilution analysis of deuterium oxide.[8]

Total body potassium edit

Potassium 40 is a naturally occurring radioactive isotope found in intracellular water, but is not present in stored triglycerides (fat). Whole body counting can measure the amount of potassium 40 (40K) in the body, a quantity called total body potassium (TBK). This can be used to estimate fat-free mass directly. It has mostly been replaced by newer, more accurate techniques such as DEXA.[9]

Bioelectrical impedance analysis edit

Main article: Bioelectrical impedance analysis

Another method to estimate body water is bioelectrical impedance analysis (BIA), which uses the resistance of electrical flow through the body. 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. By controlling hydration status or performing multiple impedance measurements, it is possible to estimate body fat and other variables.

InBody developed the world's first 8-point tactile electrode system in 1996, a direct segmental analysis method that measures the impedance of five torsos using multiple frequencies. Many BIA products provide partial muscle and fat mass measurements, but not impedance, especially in the torso.[10]

Recent advancements such as 8-point electrodes, multi-frequency measurements, and Direct Segmental Analysis,[11] have improved the accuracy of BIA machines.[12] BIA machines have found acceptance in medical, fitness, and wellness space owing to their ease-of-use, portability, quick measurements, and cost efficiency.

Body Volume Index edit

The Body Volume Index (BVI) is a technique used for measuring body shape. Initially, BVI technology employed white light scanning machines to measure an individual's body shape.[13] However, recent technological advances in 3D measurement have enabled BVI to be calculated using images taken on a smartphone. Two images are required to create an individual 3D silhouette. By comparing this 3D silhouette with MRI data, body volume and fat distribution can be calculated.

Skin folds edit

Body composition can also be measured using the skin fold test, which is performed using a measuring caliper. It can be done 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.

Ultrasound edit

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.[14]

Quantitative magnetic resonance edit

Quantitative magnetic resonance (QMR) applies a magnetic field to the body and measures the difference in relaxation rates of hydrogen atoms within fat versus lean mass.[15] It functions similarly to magnetic resonance imaging (MRI) but instead of providing an image like MRI, QMR gives quantities of fat mass, lean mass, and total body water. QMR is also widely used for body composition analysis of animals, including laboratory animals like mice,[16] and wildlife including birds.[17]

Circumferences and other simple measurements edit

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 that can indicate protein depletion.[18]

Many methods of determining body composition use the body weight as a measurement, determined via a weighing scale. Other details such as height and age can be correlated with other measures and are often used in estimation formulas.

Validity edit

The methods above are each valid and notable in providing a measurement that can be used to determine the "true body composition" of the tested individual. However, each method does possess its own individual limitations, such as accuracy, precision, or expense, and the combination of methods also has limitations. Often, the relative change from one period to the next is most important; if an individual can maintain all factors as similar as possible, even a simple method such as weighing may give enough information to determine the true change in composition.[19]

Types of exercises edit

The ideal percent of body mass which should be fat depends on an individual's sex, age, and physical activity. For example, a female thirty year old will have a different ideal fat percentage than a male thirty year old. An athlete will have a different ideal than a non athlete, and it can depend on the sport.[20]

The physical activities which can help decrease fat mass, increase lean mass, or both are the same for everybody. Aerobic exercise, also known as cardio (heart) exercise, decreases fat. High intensity interval training (HIIT) in particular helps decrease visceral fat. Visceral fat is near the internal organs, while subcutaneous fat is just under the skin. The former poses higher health risks. Bone and muscle strengthening exercise, also known as resistant training, decreases fat mass and increases lean mass at the same time, though it does better at the latter. In order to prevent injury from repetitive motion, people should do resistant training with different parts of their bodies on different days.[21]

See also edit

References edit

  1. ^ a b c d "Multi-component models". DAPA Measurement Toolkit. Cambridge Biomedical Researcg Centre. Retrieved 26 September 2023.
  2. ^ "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.
  3. ^ "Body Composition Tests". www.heart.org. Retrieved 2015-11-25.
  4. ^ Scafoglieri, A; Clarys, JP (August 2018). "Dual energy X-ray absorptiometry: gold standard for muscle mass?". Journal of Cachexia, Sarcopenia and Muscle. 9 (4): 786–787. doi:10.1002/jcsm.12308. PMID 29786955. S2CID 29152747.
  5. ^ 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. S2CID 24304339.
  6. ^ Fuleihan, Ghada El-Hajj; Testa, Marcia A.; Angell, Jennifer E.; Porrino, Nancy; Leboff, Meryl S. (3 December 2009). "Reproducibility of DXA absorptiometry: A model for bone loss estimates". Journal of Bone and Mineral Research. 10 (7): 1004–1014. doi:10.1002/jbmr.5650100704. PMID 7484275. S2CID 41871793. Retrieved 8 July 2022.
  7. ^ 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 (4): 329–337. doi:10.1038/SJ.ijo.0800590. PMID 9578238. S2CID 20815053.
  8. ^ Cataldi, D; Bennett, JP; Quon, BK; Liu, YE; Heymsfield, SB; Kelly, T; Shepherd, JA (6 September 2022). "Agreement and Precision of Deuterium Dilution for Total Body Water and Multicompartment Body Composition Assessment in Collegiate Athletes". The Journal of Nutrition. 152 (9): 2048–2059. doi:10.1093/jn/nxac116. PMID 35665820.
  9. ^ "Whole body counting of total body potassium". DAPA Measurement Toolkit. Cambridge Biomedical Research Centre.
  10. ^ E.L., Thomas (2001). (PDF) (Technical report). pp. 1–2.
  11. ^ Ling CH, Craen AJ, Slagboom PE, Gunn DA, Stokkel MP, Westendorp RG, Maier AB (2011). "Accuracy of direct segmental multi-frequency bioimpedance analysis in the assessment of total body and segmental body composition in middle-aged adult population". Clinical Nutrition. 30 (5): 610–615. doi:10.1016/j.clnu.2011.04.001. PMID 21555168.
  12. ^ Miller R, Chambers TL, Burns SP (2016). "Validating InBody ® 570 Multi-frequency Bioelectrical Impedance Analyzer versus DXA for Body Fat Percentage Analysis". Journal of Exercise Physiology Online. 19 (5): 71–78.
  13. ^ Jose Medina-Inojosa et al. (2016) "Reliability of a 3D Body Scanner for Anthropometric Measurements of Central Obesity". Obes Open Access. 2(3): 10.16966/2380-5528.122.
  14. ^ Mayans, David; Cartwright, Michael S.; Walker, Francis O. (February 2012). "Neuromuscular Ultrasonography: Quantifying Muscle and Nerve Measurements". Physical Medicine and Rehabilitation Clinics of North America. 23 (1): 133–148. doi:10.1016/j.pmr.2011.11.009. PMC 3321511. PMID 22239880.
  15. ^ Taicher GZ, Tinsley FC, Reiderman A, Heiman ML (2003). "Quantitative magnetic resonance (QMR) method for bone and whole-body-composition analysis". Analytical and Bioanalytical Chemistry. 377 (6): 990–1002. doi:10.1007/s00216-003-2224-3. PMID 13680051. S2CID 34947455.
  16. ^ Jones AS, Johnson MS, Nagy TR (2009). "Validation of quantitative magnetic resonance for the determination of body composition of mice". International Journal of Body Composition Research. 7 (2): 67–72. PMC 2868277. PMID 20467582.
  17. ^ Guglielmo CG, McGuire LP, Gerson AR, Seewagen CL (2011). "Simple, rapid, and non-invasive measurement of fat, lean, and total water masses of live birds using quantitative magnetic resonance". Journal of Ornithology. 152: 75–85. doi:10.1007/s10336-011-0724-z. S2CID 7371842.
  18. ^ Wang, Wei; Du, Cong; Lin, Laixiang; Chen, Wen; Tan, Long; Shen, Jun; Pearce, Elizabeth N.; Zhang, Yixin; Gao, Min; Bian, Jianchao; Wang, Xiaoming; Zhang, Wanqi (23 May 2018). "Anthropometry-based 24-h urinary creatinine excretion reference for Chinese children". PLOS ONE. 13 (5): e0197672. Bibcode:2018PLoSO..1397672W. doi:10.1371/journal.pone.0197672. PMC 5965866. PMID 29791502.
  19. ^ Wells, J. C.; Fewtrell, M. S. (2006). "Measuring body composition". Archives of Disease in Childhood. 91 (7): 612–617. doi:10.1136/adc.2005.085522. PMC 2082845. PMID 16790722.
  20. ^ "Normal ranges of body weight and body fat". human-kinetics. Retrieved 2015-11-25.
  21. ^ "Examples of Body Composition Exercises". Healthy Living - azcentral.com. Retrieved 2015-11-25.

External links edit

  •   Media related to Human body composition at Wikimedia Commons

December 15, 2023
body, composition, this, article, about, bone, water, muscle, molecules, content, human, body, body, chemical, composition, composition, human, body, general, composition, organisms, biological, organisation, this, article, needs, additional, citations, verifi. This article is about fat bone water and muscle molecules 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 This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Body composition news newspapers books scholar JSTOR August 2016 Learn how and when to remove this template message In physical fitness body composition refers to quantifying the different components or compartments of a human body 1 The selection of compartments varies by model but may include fat bone water and muscle 2 Two people of the same gender height and body weight may have completely different body types as a consequence of having different body compositions This may be explained by a person having low or high body fat dense muscles or big bones 3 Contents 1 Compartment models 2 Measurement methods 2 1 DEXA 2 2 Hydrostatic weighing 2 3 Air displacement plethysmography 2 4 Isotope dilution analysis 2 5 Total body potassium 2 6 Bioelectrical impedance analysis 2 7 Body Volume Index 2 8 Skin folds 2 9 Ultrasound 2 10 Quantitative magnetic resonance 2 11 Circumferences and other simple measurements 3 Validity 4 Types of exercises 5 See also 6 References 7 External linksCompartment models editBody composition models typically use between 2 and 6 compartments to describe the body Common models include 1 2 compartment Fat mass FM and fat free mass FFM 3 compartment Fat mass FM water and fat free dry mass 4 compartment Fat mass FM water protein and mineral 5 compartment Fat mass FM water protein bone mineral content and non osseous mineral content 6 compartment Fat mass FM water protein bone mineral content non osseous mineral content and glycogenAs a rule the compartments must sum to the body weight The proportion of each compartment as a percent is often reported found by dividing the compartment weight by the body weight Individual compartments may be estimated based on population averages or measured directly or indirectly Many measurement methods exist with varying levels of accuracy Typically the higher compartment models are more accurate as they require more data and thus account for more variation across individuals The four compartment model is considered the reference model for assessment of body composition as it is robust to most variation and each of its components can be measured directly 1 Measurement methods editA wide variety of body composition measurement methods exist The gold standard measurement technique for the 4 compartment model consists of a weight measurement body density measurement using hydrostatic weighing or air displacement plethysmography total body water calculation using isotope dilution analysis and mineral content measurement by dual energy X ray absorptiometry DEXA 1 However it is also common to use a DEXA scan alone and refer to this as the gold standard 4 These claims are somewhat dubious since measurements methods vary significantly from study to study In practice the measurement methods used will be a tradeoff between cost availability and accuracy DEXA edit Main article Dual energy X ray absorptiometry 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 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 5 DEXA measurements are highly reproducible if the same type of machine is used 6 making them excellent for monitoring pharmaceutical therapy nutritional or exercise intervention sports training and 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 amp legs android gynoid etc results However the role of DEXA in clinical evaluations and research studies has been questioned by Wang et al 7 who stated that the errors of the DXA DEXA method are still of concern if it were to be used as the criterion Hydrostatic weighing edit Main article Hydrostatic weighing Hydrostatic weighing also referred to as underwater weighing hydrostatic body composition analysis and hydrodensitometry is a technique for measuring the density of a living person s body It is a direct application of Archimedes principle that an object displaces its own volume of water Air displacement plethysmography edit nbsp Body composition measurement with air displacement plethysmography or whole body air displacement plethysmography ADP technologyMain article Air displacement plethysmography Air displacement plethysmography is an alternative to underwater weighing for measuring body volume The technique uses air as opposed to water and is known as air displacement plethysmography ADP Subjects enter a sealed chamber that measures their body volume through the displacement of air in the chamber Next body volume is combined with body weight mass 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 Isotope dilution analysis edit Total body water may be effectively measured using isotope dilution analysis of deuterium oxide 8 Total body potassium edit Potassium 40 is a naturally occurring radioactive isotope found in intracellular water but is not present in stored triglycerides fat Whole body counting can measure the amount of potassium 40 40K in the body a quantity called total body potassium TBK This can be used to estimate fat free mass directly It has mostly been replaced by newer more accurate techniques such as DEXA 9 Bioelectrical impedance analysis edit Main article Bioelectrical impedance analysis Another method to estimate body water is bioelectrical impedance analysis BIA which uses the resistance of electrical flow through the body 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 By controlling hydration status or performing multiple impedance measurements it is possible to estimate body fat and other variables InBody developed the world s first 8 point tactile electrode system in 1996 a direct segmental analysis method that measures the impedance of five torsos using multiple frequencies Many BIA products provide partial muscle and fat mass measurements but not impedance especially in the torso 10 Recent advancements such as 8 point electrodes multi frequency measurements and Direct Segmental Analysis 11 have improved the accuracy of BIA machines 12 BIA machines have found acceptance in medical fitness and wellness space owing to their ease of use portability quick measurements and cost efficiency Body Volume Index edit The Body Volume Index BVI is a technique used for measuring body shape Initially BVI technology employed white light scanning machines to measure an individual s body shape 13 However recent technological advances in 3D measurement have enabled BVI to be calculated using images taken on a smartphone Two images are required to create an individual 3D silhouette By comparing this 3D silhouette with MRI data body volume and fat distribution can be calculated Skin folds edit Body composition can also be measured using the skin fold test which is performed using a measuring caliper It can be done in nine steps Take measurements on the right side of the body Mark client up Pinch skin KM above mark Pull fat away from muscles Place caliper halfway between top and bottom of mark Allow caliper to settle 1 2 seconds Take reading repeat 15 seconds Add up total 4 average 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 Ultrasound edit 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 14 Quantitative magnetic resonance edit Quantitative magnetic resonance QMR applies a magnetic field to the body and measures the difference in relaxation rates of hydrogen atoms within fat versus lean mass 15 It functions similarly to magnetic resonance imaging MRI but instead of providing an image like MRI QMR gives quantities of fat mass lean mass and total body water QMR is also widely used for body composition analysis of animals including laboratory animals like mice 16 and wildlife including birds 17 Circumferences and other simple measurements edit 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 that can indicate protein depletion 18 Many methods of determining body composition use the body weight as a measurement determined via a weighing scale Other details such as height and age can be correlated with other measures and are often used in estimation formulas Validity editThe methods above are each valid and notable in providing a measurement that can be used to determine the true body composition of the tested individual However each method does possess its own individual limitations such as accuracy precision or expense and the combination of methods also has limitations Often the relative change from one period to the next is most important if an individual can maintain all factors as similar as possible even a simple method such as weighing may give enough information to determine the true change in composition 19 Types of exercises editThe ideal percent of body mass which should be fat depends on an individual s sex age and physical activity For example a female thirty year old will have a different ideal fat percentage than a male thirty year old An athlete will have a different ideal than a non athlete and it can depend on the sport 20 The physical activities which can help decrease fat mass increase lean mass or both are the same for everybody Aerobic exercise also known as cardio heart exercise decreases fat High intensity interval training HIIT in particular helps decrease visceral fat Visceral fat is near the internal organs while subcutaneous fat is just under the skin The former poses higher health risks Bone and muscle strengthening exercise also known as resistant training decreases fat mass and increases lean mass at the same time though it does better at the latter In order to prevent injury from repetitive motion people should do resistant training with different parts of their bodies on different days 21 See also editBody fat percentage Body mass index Body volume indexReferences edit a b c d Multi component models DAPA Measurement Toolkit Cambridge Biomedical Researcg Centre Retrieved 26 September 2023 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 Body Composition Tests www heart org Retrieved 2015 11 25 Scafoglieri A Clarys JP August 2018 Dual energy X ray absorptiometry gold standard for muscle mass Journal of Cachexia Sarcopenia and Muscle 9 4 786 787 doi 10 1002 jcsm 12308 PMID 29786955 S2CID 29152747 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 S2CID 24304339 Fuleihan Ghada El Hajj Testa Marcia A Angell Jennifer E Porrino Nancy Leboff Meryl S 3 December 2009 Reproducibility of DXA absorptiometry A model for bone loss estimates Journal of Bone and Mineral Research 10 7 1004 1014 doi 10 1002 jbmr 5650100704 PMID 7484275 S2CID 41871793 Retrieved 8 July 2022 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 4 329 337 doi 10 1038 SJ ijo 0800590 PMID 9578238 S2CID 20815053 Cataldi D Bennett JP Quon BK Liu YE Heymsfield SB Kelly T Shepherd JA 6 September 2022 Agreement and Precision of Deuterium Dilution for Total Body Water and Multicompartment Body Composition Assessment in Collegiate Athletes The Journal of Nutrition 152 9 2048 2059 doi 10 1093 jn nxac116 PMID 35665820 Whole body counting of total body potassium DAPA Measurement Toolkit Cambridge Biomedical Research Centre E L Thomas 2001 Validation of InBody bioelectrical impedance by whole body MRI PDF Technical report pp 1 2 Ling CH Craen AJ Slagboom PE Gunn DA Stokkel MP Westendorp RG Maier AB 2011 Accuracy of direct segmental multi frequency bioimpedance analysis in the assessment of total body and segmental body composition in middle aged adult population Clinical Nutrition 30 5 610 615 doi 10 1016 j clnu 2011 04 001 PMID 21555168 Miller R Chambers TL Burns SP 2016 Validating InBody 570 Multi frequency Bioelectrical Impedance Analyzer versus DXA for Body Fat Percentage Analysis Journal of Exercise Physiology Online 19 5 71 78 Jose Medina Inojosa et al 2016 Reliability of a 3D Body Scanner for Anthropometric Measurements of Central Obesity Obes Open Access 2 3 10 16966 2380 5528 122 Mayans David Cartwright Michael S Walker Francis O February 2012 Neuromuscular Ultrasonography Quantifying Muscle and Nerve Measurements Physical Medicine and Rehabilitation Clinics of North America 23 1 133 148 doi 10 1016 j pmr 2011 11 009 PMC 3321511 PMID 22239880 Taicher GZ Tinsley FC Reiderman A Heiman ML 2003 Quantitative magnetic resonance QMR method for bone and whole body composition analysis Analytical and Bioanalytical Chemistry 377 6 990 1002 doi 10 1007 s00216 003 2224 3 PMID 13680051 S2CID 34947455 Jones AS Johnson MS Nagy TR 2009 Validation of quantitative magnetic resonance for the determination of body composition of mice International Journal of Body Composition Research 7 2 67 72 PMC 2868277 PMID 20467582 Guglielmo CG McGuire LP Gerson AR Seewagen CL 2011 Simple rapid and non invasive measurement of fat lean and total water masses of live birds using quantitative magnetic resonance Journal of Ornithology 152 75 85 doi 10 1007 s10336 011 0724 z S2CID 7371842 Wang Wei Du Cong Lin Laixiang Chen Wen Tan Long Shen Jun Pearce Elizabeth N Zhang Yixin Gao Min Bian Jianchao Wang Xiaoming Zhang Wanqi 23 May 2018 Anthropometry based 24 h urinary creatinine excretion reference for Chinese children PLOS ONE 13 5 e0197672 Bibcode 2018PLoSO 1397672W doi 10 1371 journal pone 0197672 PMC 5965866 PMID 29791502 Wells J C Fewtrell M S 2006 Measuring body composition Archives of Disease in Childhood 91 7 612 617 doi 10 1136 adc 2005 085522 PMC 2082845 PMID 16790722 Normal ranges of body weight and body fat human kinetics Retrieved 2015 11 25 Examples of Body Composition Exercises Healthy Living azcentral com Retrieved 2015 11 25 External links edit nbsp Media related to Human body composition at Wikimedia Commons Retrieved from https en wikipedia org w index php title Body composition amp oldid 1186060819, 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