What Is the Bod Pod?
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Sunday Jan 7th, 8-10am, Baytown, TX
 
DAVIS JA, DORADO S, KEAYS KA,      REIGEL KA, VALENCIA KS, PHAM PH. Reliability and validity of the lung volume measurement made      by the BOD POD Body Composition System. Clinical Physiology and      Functional Imaging, 27(1):42-46, 2007.
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. BALL SD. Interdevice variability in percent fat estimates using the      BOD POD. European Journal of Clinical Nutrition, 59(9):996-1001, 2005.
HEYMSFIELD SD, PIETROBELLI A,      WANG Z, SARID WHM. The end of body composition methodology research?      Current Opinion in Clinical Nutrition and Metabolic Care, 8:591-594, 2005.
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.
HULL HR, FIELDS DA. Effect of short schemes on body composition measurements using air-displacement plethysmography. Dynamic Medicine, 4(1):8,      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.
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.
COLLINS AL, SAUNDERS S,      MCCARTHY HD, WILLIAMS JE, FULLER NJ. Within- and between-laboratory precision in the measurement      of body volume using air displacement plethysmography and its effect on      body composition assessment. International Journal of Obesity and      Related Metabolic Disorders, 28(1):80-90, 2004.
FIELDS DA, HIGGINS PB, HUNTER      GR. Assessment of body composition by air-displacement      plethysmography: influence of body temperature and moisture. Dynamic      Medicine, 3(1):3, 2004.
COLLINS AL, MC CARTHY HD. Evaluation of factors determining the precision of body      composition measurements by air displacement plethysmography. European      Journal of Clinical Nutrition,, 57:770-776, 2003.
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.
VESCOVI JD, ZIMMERMAN SL,      MILLER WC, FERNHALL B. Effects of clothing on accuracy and reliability of air      displacement plethysmography. Medicine and Science in Sports and      Exercise, 34(2):282-285, 2002.
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.
KYLE UG, GENTON L, PICHARD C.      Body composition: what’s new? Current Opinion in      Clinical Nutrition and Metabolic Care, 5(4):427-33, 2002.
WELLS JC, FULLER NJ. Precision of measurement and body size in whole-body      air-displacement plethysmography. International Journal of Obesity and      Related Metabolic Disorders, 25(8):1161-1167, 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.
ELLIS KJ. Selected body composition methods can be used in field      studies. Journal of Nutrition, 131(5):1589S-95S, 2001.
HOFFMAN CJ, HILDEBRANDT LA. Use of the air displacement plethysmograph to monitor body      composition: A beneficial tool for dieticians. Journal of the American      Dietetic Association, 101(9):986-987, 2001.
VESCOVI JD, ZIMMERMAN SL,      MILLER WC, HILDEBRANDT L, HAMMER RL, FERNHALL B. Evaluation of the BOD POD for estimating percentage body fat      in a heterogeneous group of adult humans. European Journal of Applied      Physiology, 85(3-4):326-332, 2001.
HIGGINS PB, FIELDS DA, HUNTER      GR, GOWER BA. Effect of scalp and facial hair on air displacement      plethysmography estimates of percentage of body fat. Obesity Research,      9(5):326-330, 2001.
FIELDS DA, HUNTER GR, GORAN      MI. Validation of the BOD POD with hydrostatic weighing:      influence of body clothing. International Journal of Obesity and      Related Metabolic Disorders, 24(2):200-205, 2000.
KODA M, ANDO F, NIINO N,      TSUZUKU S, SHIMOKATA H. Comparison between the air displacement method and dual      energy x-ray absorptiometry for estimation of body fat. Journal of      Epidemiology, 10(1 Suppl):S82-9, 2000. DEWIT O, FULLER NJ, FEWTRELL      MS, ELIA M, WELLS JC. Whole body air displacement plethysmography compared with      hydrodensitometry for body composition analysis. Archives of Diseases      in Childhood, 82(2):159-164, 2000.
NUNEZ C, KOVERA AJ,      PIETROBELLI A, HESHKA S, HORLICK M, KEHAYIAS JJ, WANG Z, HEYMSFIELD SB. Body composition in children and adults by air displacement      plethysmography. European Journal of Clinical Nutrition,      53(5):382-387, 1999.
BIAGGI RR, VOLLMAN MW, NIES      MA, BRENER CE, FLAKOLL PJ, LEVENHAGEN DK, SUN M, KARABULUT Z, CHEN KY. Comparison of air-displacement plethysmography with      hydrostatic weighing and bioelectrical impedance analysis for the      assessment of body composition in healthy adults. American Journal of      Clinical Nutrition, 69(5):898-903, 1999.
ELIA M, WARD LC. New techniques in nutritional assessment: body composition      methods. Proceedings of the Nutrition Society, 58(1):33-38, 1999.
LEVENHAGEN DK, BOREL MJ,      WELCH DC, PIASECKI JH, PIASECKI DP, CHEN KY, FLAKOLL PJ. A comparison of air displacement plethysmography with three      other techniques to determine body fat in healthy adults. Journal of      Parenteral and Enteral Nutrition, 23(5):293-9, 1999.
WAGNER DR, HEYWARD VH. Techniques of body composition assessment: a review of      laboratory and field methods. Research Quarterly for Exercise and      Sport, 70(2):135-149, 1999.
BIAGGI RR, VOLLMAN MW, NIES      MA, BRENER CE, FLAKOLL PJ, LEVENHAGEN DK, SUN M, KARABULUT Z, CHEN KY. Comparison of air-displacement plethysmography with      hydrostatic weighing and bioelectrical impedance analysis for the      assessment of body composition in healthy adults. American Journal of      Clinical Nutrition, 69(5):898-903, 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, 1998.
SARDINHA LB, LOHMAN TG,      TEIXEIRA PJ, GUEDES DP, GOING SB. Comparison of air displacement plethysmography with      dual-energy X-ray absorptiometry and 3 field methods for estimating body      composition in middle-aged men. American Journal of Clinical      Nutrition, 68(4):786-793, 1998.
IWAOKA H, YOKOYAMA T, NAKAYAMA      T, MATSUMURA Y, YOSHITAKE Y, FUCHI T, YOSHIIKE N, TANAKA H. Determination of percent body fat by the newly developed      sulfur hexafluoride dilution method and air displacement plethysmography.      Journal Nutritional Science and Vitaminology, 44(4):561-568, 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, 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, 1995.
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