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Published Research (Partial Listing)

FIELDS DA, HIGGINS PB, RADLEY D. Air-Displacement Plethysmography: here to stay. Current Opinion in Clinical Nutrition and Metabolic Care, 8(6):624-629, 2005.

MIYATAKE N, TAKENAMI S, KAWASAKI Y, KUNIHASHI Y, NISHIKAWA H, NUMATA T. . Clinical evaluation of body fat percentage in 11,833 Japanese measured by air displacement plethysmograph. Internal Medicine44(7):702-705, 2005.

PACKIANATHAN I, SHEIKH M, BONIFACE D, FINER N.. Predictors of programme adherence and weight loss in women in an obesity programme using meal replacements. Diabetes, Obesity and Metabolism, 7(4):439-447, 2005.

GINDE SR, GELIEBTER A, RUBIANO F, SILVA AM, WANG J, HESHKA S, HEYMSFIELD SB. Air displacement plethysmography: validation in overweight and obese subjects. Obesity Research, 13(7):1232-1237, 2005.

HULL HR, FIELDS DA. . Effect of short schemes on body composition measurements using air-displacement plethysmography. Dynamic Medicine, 4(1):8, 2005.

DIOUM A, GARTNER A, MAIRE B, DELPEUCH F, WADE S. Body composition predicted from skinfolds in African women: a cross-validation study using air-displacement plethysmography and a black-specific equation. British Journal of Nutrition, 93(6):973-979, 2005.

BALL SD. Interdevice variability in percent fat estimates using the BOD POD European Journal of Clinical Nutrition, 59(9):996-1001, 2005.

GABA AM, ZHANG K, MARDER K, MOSKOWITZ CB, WERNER P, BOOZER CN. Energy balance in early-stage Huntington disease American Journal of Clinical Nutrition, 81(6):1335-1341, 2005.

FRISARD MI, GREENWAY FL, DELANY JP. Comparison of methods to assess body composition changes during a period of weight loss. Obesity Research13(5):845-854, 2005.

HUERTA MG, ROEMMICH JN, KINGTON ML, BOVBJERG VE, WELTMAN AL, HOLMES VF, PATRIE JT, ROGOL AD, NADLER JL. Magnesium deficiency is associated with insulin resistance in obese children. Diabetes Care, 28(5):1175-1181, 2005.

HALL RL. . Energetics of nose and mouth breathing, body size, body composition, and nose volume in young adult males and females. American Journal of Human Biology, 17(3):321-330, 2005.

MIYATAKE N, TAKENAME S, KAWASAKI Y, FUJII M. Comparison of air displacement plethysmograph and bioelectrical impedance for assessing body composition changes during weight loss in Japanese women. Diabetes, Obesity, and Metabolism, 7(3): 268-272, 2005.

RADLEY D, GATELY PJ, COOKE CB, CARROLL S, OLDROYD B, TRUSCOTT JG. Percentage fat in overweight and obese children: comparison of DXA and air displacement plethysmography. Obesity Research, 13(1):75-85, 2005.

DIXON CB, DEITRICK RW, PIERCE JR, CUTRUFELLO PT, DRAPEAU LL. Evaluation of the BOD POD and leg-to-let bioelectrical impedance analysis for estimating percent body fat in National Collegiate Athletic Association Division III collegiate wrestlers Journal of Strength and Conditioning Research, 19(1):85-91, 2005.

EKELUND U, NEOVIUS M, LINNE Y, BRAGE S, WAREHAM NJ, ROSSNER S. Associations between physical activity and fat mass in adolescents: the Stockholm Weight Development Study American Journal of Clinical Nutrition, 81(2)227-228, 2005.

BALL SD, ALTENA TS. Comparison of the BOD POD and dual energy x-ray absorptiometry in men Physiological Measurement, 25(3):671-678, 2004.

FOSTER BJ, LEONARD MB. Measuring nutritional status in children with chronic kidney disease American Journal of Clinical Nutrition, 80(4):801-804, 2004

ISHIGURO N, KANEHISA H, MIYATANI M, MASUO Y, FUKUNAGA T. A comparison of three bioelectrical impedance analyses for predicting lean body mass in a population with a large difference in muscularity European Journal of Applied Physiology, 94(1-2):25-35, 2004.

FIELDS DA, HULL HR, CHELINE AJ, YAO M, HIGGINS PB. Child-specific thoracic gas volume prediction equations for air-displacement plethysmography Obesity Research, 12(11):1797-1804, 2004.

HENTSCHEL M, PAUL D, KORSTEN-RECK U, MIX M, MULLER F, MERK S, MOSER E, BRINK I. Can body volume be determined by PET? European Journal of Nuclear Medicine and Molecular Imaging, 32(5):564-568, 2005.

NEOVIUS M, LINNE Y, ROSSNER S. BMI, waist-circumference and waist-hip-ratio as diagnostic tests for fatness in adolescents International Journal of Obesity and Related Metabolic Disorders, 29(2):163-169, 2005.

ALEMAN-MATEO H, ROMERO JE, MORALES NM, SALAZAR G, TRIANA MH, VALENCIA ME. Body composition by three-compartment model and relative validity of some methods to assess percentage body fat in mexican healthy elderly subjects Gerontology, 50(6):366-372, 2004.

MELANSON KJ, DELL’OLIO J, CARPENTER MR, ANGELOPOULOS TJ. Changes in multiple health outcomes at 12 and 24 weeks resulting from 12 weeks of exercise counseling with or without dietary counseling in obese adults Nutrition, 20(10):849-856, 2004.

MCCARTHY EA, STRAUSS BJ, WALKER SP, PERMEZEL M. Determination of maternal body composition in pregnancy and its relevance to perinatal outcomes Obstetrical and Gynecological Survey, 59(10):731-742, 2004.

ALEMAN-MATEO H, ESPARZA ROMERO J, MACIAS MORALES N, SALAZAR G, WYATT J, VALENCIA ME. Determination of body composition using air displacement plethysmography, anthropometry and bio-electrical impedance in rural elderly Mexican men and women. Journal of Nutrition, Health and Aging, 8(5):344-349, 2004.

NIES MA, CHEN KY, VANDER WAL JS. Energy expenditure, body composition, and biochemical indicators in healthy community women International Journal of Food Sciences and Nutrition, 55(3):237-247, 2004.

MURPHY AJ, BUNTAIN HM, WONG JC, GREER RM, WAINWRIGHT CE, DAVIES PS. The use of air displacement pleythysmography in children and adolescents with cystic fibrosis European Journal of Clinical Nutrition, 58(7):985-989, 2004.

ELBERG J, MCDUFFIE JR, SEBRING NG, SALAITA C, KEIL M, ROBOTHAM D, REYNOLDS JC, YANOVSKI JA. Comparison of methods to assess change in children’s body composition American Journal of Clinical Nutrition, 80(1):64-69, 2004.

FRUHBECK G, DIEZ-CABALLERO A, GIL MJ, MONTERO I, GOMEZ-AMBROSI J, SALVADOR J, CIENFUEGOS JA. The decrease in plasma ghrelin concentrations following bariatric surgery depends on the functional integrity of the fundus Obesity Surgery, 14(5):606-612, 2004.

COLLINS MA, MILLARD-STAFFORD ML, EVANS EM, SNOW TK, CURETON KJ, ROSSKOPF LB. Effect of race and musculoskeletal development on the accuracy of air plethysmography. Medicine and Science in Sports and Exercise, 36(6):1070-1077, 2004.

BUCHHOLZ AC, MAJCHRZAK KM, CHEN KY, SHANKAR SM, BUCHOWSKI MS. Use of air displacement plethysmography in the determination of percentage of fat mass in African American children Pediatric Research, 56(1):47-54, 2004.

FREEDMAN RJ, AZIZ N, ALBANES D, HARTMAN T, DANFORTH D, HILL S, SEBRING N, REYNOLDS JC, YANOVSKI JA. Weight and body composition changes during and after adjuvant chemotherapy in women with breast cancer Journal of Clinical Endocrinology and Metabolism, 89(5):2248-2253, 2004.

BALLARD TP, FAFARA L, VUKOVICH MD. Comparison of BOD POD and DXA in Female Collegiate Athletes. Medicine and Science in Sports and Exercise, 36(4):731-735, 2004.

FIELDS DA, HUNTER GR. Monitoring body fat in the elderly: application of air-displacement plethysmography. Current Opinion in Clinical Nutrition and Metabolic Care. 7(1):11-14, 2004.

FLAKOLL PJ, KENT P, NEYRA R, LEVENHAGEN D, CHEN KY, IKIZLER TA. Bioelectrical impedance vs air displacement plethysmography and dual-energy x-ray absorptiometry to determine body composition in patients with end-stage renal disease. Journal of Parenteral and Enteral Nutrition, 28(1):13-21, 2004.

MA G, YAO M, LIU Y, LIN A, ZOU H, URLANDO A, WONG WW, NOMMSEN-RIVERS L, DEWEY KG. Validation of a new pediatric air-displacement plethysmograph for assessing body composition in infants. American Journal of Clinical Nutrition, 79(4):653-660, 2004.

YAO M, NOMMSEN-RIVERS L, DEWEY K, URLANDO A. Preliminary evaluation of a new pediatric air displacement plethysmograph for body composition assessment in infants. Acta Diabetologica, 40:S55-S58, 2003.

PETRONI ML, BERTOLI S, MAGGIONI M. MORINI P. BATTEZZATI A, TAGLIAFERRI MA, LIUZZI A, TESTOLIN G. Feasibility of air plethysmography (BOD POD) in morbid obesity: a pilot study. Acta Diabetologica, 40:S59-S62, 2003.

SARDINHA LB, SILVA AM, TEIXEIRA PJ. Usefulness of age-adjusted equations to estimate body fat with air displacement plethysmography in male adolescent athletes. Acta Diabetologica, 40:S63-S67, 2003.

GATELY PJ, RADLEY D, COOKE CB, CARROLL S, OLDROYD B, TRUSCOTT JG, COWARD WA, WRIGHT A. Comparison of body composition methods in overweight and obese children. Journal of Applied Physiology, 95:2036-2046, 2003.

WELLS JC, FULLER NJ, WRIGHT A, FEWTRELL MS, COLE TJ. Evaluation of air-displacement plethysmography in children aged 5-7 years using a three-component model of body composition. British Journal of Nutrition, 90(3):699-707, 2003.

UTTER AC, GOSS FL, SWAN PD, HARRIS GS, ROBERTSON RJ, TRONE GA. Evaluation of air displacement for assessing body composition of collegiate wrestlers. Medicine and Science in Sports and Exercise, 35(3):500-505, 2003.

URLANDO A, DEMPSTER P, and AITKENS S. A new air displacement plethysmograph for the measurement of body composition in infants. Pediatric Research, 53:486-492, 2003.

SAINZ RD, URLANDO A. Evaluation of a new pediatric air-displacment plethysmograph for body-composition assessment by means of chemical analysis of bovine tissue phantoms. American Journal of Clinical Nutrition, 77:364-370, 2003.

MADDALOZZO GF, CARDINAL BJ, SNOW CM. Concurrent validity of the BOD POD and dual energy x-ray absorptiometry techniques for assessing body composition in young women. Journal of the American Dietetic Association, 102:1677-1679, 2002.

WEYERS AM, MAZZETTI SA, LOVE DM, GÓMEZ AL, KRAEMER WJ, VOLEK JS. Comparison of methods for assessing body composition changes during weight loss. Medicine & Science in Sports and Exercise, 34(3):497-502, 2002.

FIELDS DA, GORAN MI, MCCRORY MA. Body-composition assessment via air-displacement plethysmography in adults and children: a review. American Journal of Clinical Nutrition, 75:453-467, 2002.

NICHOLSON JC, MC DUFFIE JR, BONAT SH, RUSSELL DL, BOYCE KA, MCCANN S, MICHAEL M, SEBRING NG, REYNOLDS JC, YANOVSKI JA. Estimation of body fatness by air displacement plethysmography in African American and white children. Pediatric Research, 50:467-473, October 2001.

YEE AJ, FUERST T, SALAMONE L, VISSER M, DOCKRELL M, VAN LOAN M, KERN M. Calibration and validation of an air-displacement plethysmography method for estimating percentage body fat in an elderly population: a comparison among compartmental models. American Journal of Clinical Nutrition, 74:637-642, 2001.

LAMBERT CP, ARCHER RL, EVANS WJ. Muscle strength and fatigue during isokinetic exercise in individuals with multiple sclerosis. Medicine and Science in Sports and Exercise, 33(10):1613-1619, 2001.

FIELDS, DA., GORAN, MI. Body composition techniques and the four-compartment model in children. Journal of Applied Physiology, 89:613-620, 2000.

MIYATAKE N, NONAKA K, FUJII M. A new air displacement plethysmograph for the determination of Japanese body composition. Diabetes, Obesity, and Metabolism, 1(6):347-51, November 1999.

MCCRORY MA, MOLÉ PA, GOMEZ TD, DEWEY KG, BERNAUER EM. Body Composition by air-displacement plethysmography by using predicted and measured thoracic gas volumes. Journal of Applied Physiology, 84:1475-1479, April 1998.

MCCRORY MA, GOMEZ TD, BERNAUER EM, MOLÉ P. Evaluation of a new air displacement plethysmograph for measuring human body composition. Medicine and Science in Sports and Exercise, 27:1686-1691, December 1995.

DEMPSTER P, AITKENS S. A new air displacement method for the determination of human body composition. Medicine and Science in Sports and Exercise, 27:1692-1697, December 1995.

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