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References

  • 1
    Kinney JM, Tucker HN, eds. Energy Metabolism: Tissue Determinants and Cellular Corollaries. New York, NY: Raven; 1992:960.
  • 2
    Wang Z, Heshka S, Gallagher D, et al. Resting energy expenditure-fat-free mass relationship: New insights provided by body composition modeling. Am J Physiol Endocrinol Metab 2000;279:E539E545.
  • 3
    National Research Council. Nutrient Requirements of Dogs and Cats. Washington, DC: National Academy Press; 2006:2848.
  • 4
    AAFCO. Official Publication. Atlanta, GA: Association of American Feed Control Officials, Inc; 2003.
  • 5
    Earle KE, Smith PM. Digestible energy requirements of adult cats at maintenance. J Nutr 1991;121:S45S46.
  • 6
    Kanchuk ML, Backus RC, Calvert CC, et al. Weight gain in gonadectomized normal and lipoprotein lipase-deficient male domestic cats results from increased food intake and not decreased energy expenditure. J Nutr 2003;133:18661874.
  • 7
    Kienzle E, Edtstadtler-Pietsch G, Rudnick R. Retrospective study on the energy requirements of adult colony cats. J Nutr 2006;136:1973S1975S.
  • 8
    Tennant B. Assessment of energy expenditure in cats using indirect calorimetry. J Anim Physiol Anim Nutr 1998;80:6062.
  • 9
    Hill RC. Challenges in measuring energy expenditure in companion animals: A clinician's perspective. J Nutr 2006;136:1967S1972S.
  • 10
    Ballevre O, Anantharaman-Barr P, Gicquello P, et al. Use of doubly-labeled water method to assess energy expenditure in free living cats and dogs. J Nutr 1994;124:2594S2600S.
  • 11
    Wichert B, Müller L, Gebert S, et al. Additional data on energy requirements of young adult cats measured by indirect calorimetry. J Anim Physiol Anim Nutr (Berl) 2007;91:278281.
  • 12
    Villaverde C, Ramsey JJ, Green AS, et al. Energy restriction results in a mass-adjusted decrease in energy expenditure in cats that is maintained after weight regain. J Nutr 2008;138:856860.
  • 13
    Hill RC. A rapid method of estimating maintenance energy requirement from body surface area in inactive adult dogs and cats. J Am Vet Med Assoc 1993;202:18141816.
  • 14
    Rubner M. Ueber den Einfluss der Korpergrosse auf Stoff- und Kraftwechsel. Z Biol 1883;19:535562.
  • 15
    Kleiber M. Body size and metabolism. Hilgardia 1932;6:315353.
  • 16
    Weibel ER, Bacigalupe LD, Schmitt B, et al. Allometric scaling of maximal metabolic rate in mammals: Muscle aerobic capacity as determinant factor. Resp Physiol Neurobiol 2004;140:115132.
  • 17
    Arch JRS, Hislop D, Wang SJY, et al. Some mathematical and technical issues in the measurement and interpretation of open-circuit indirect calorimetry in small animals. Int J Obesity 2006;30:13221331.
  • 18
    Selman C, Lumsden S, Bunger L, et al. Resting metabolic rate and morphology in mice (Mus musculus) selected for high and low food intake. J Exp Biol 2001;204:777784.
  • 19
    Laflamme DP. Development and validation of a body condition score for cats: A clinical tool. Feline Pract 1997;25:1318.
  • 20
    Backus RC, Havel PJ, Gingerich RL, et al. Relationship between serum leptin immunoreactivity and body fat mass as estimated by use of a novel gas-phase fourier transform infrared spectroscopy deuterium dilution method in cats. Am J Vet Res 2000;61:796801.
  • 21
    Elliott DA, Backus RC, Van Loan MD, et al. Extracellular water and total body water estimated by multifrequency bioelectrical impedance analysis in healthy cats: A cross-validation study. J Nutr 2002;132:1760S1762S.
  • 22
    Elliott DA, Backus RC, Van Loan MD, et al. Evaluation of multifrequency bioelectrical impedance analysis for the assessment of extracellular and total body water in healthy cats. J Nutr 2002;132:1757S1759S.
  • 23
    Mazzaferro EM, Hackett TB, Stein TP, et al. Metabolic alterations in dogs with osteosarcoma. Am J Vet Res 2001;62:12341239.
  • 24
    Ogilvie GK, Walters LM, Salman MD, et al. Resting energy expenditure in dogs with nonhematopoietic malignancies before and after excision of tumors. Am J Vet Res 1996;57:14631467.
  • 25
    Ogilvie GK, Salman MD, Kesel ML, et al. Effect of anesthesia and surgery on energy expenditure determined by indirect calorimetry in dogs with malignant and nonmalignant conditions. Am J Vet Res 1996;57:13211326.
  • 26
    Ogilvie GK, Walters LM, Fettman MJ, et al. Energy expenditure in dogs with lymphoma fed two specialized diets. Cancer 1993;71:31463152.
  • 27
    Black AE, Prentice AM, Coward WA. Use of food quotients to predict respiratory quotients for the doubly labeled water method for measuring energy expenditure. Hum Nutr Clin Nutr 1986;40C:381391.
  • 28
    Fedak MA, Rome L, Seeherman HJ. One-step N2-dilution technique for calibrating open-circuit VO2 measuring systems. J Appl Physiol 1981;51:772776.
  • 29
    Weir JB. New methods for calculating metabolic rate with special reference to protein metabolism. J Physiol 1949;109:19.
  • 30
    Penman AD, Wright IA. Determination of deuterium level in biological fluids by isotope ratio mass spectrometry. Biomed Environ Mass Spectrom 1987;14:339432.
  • 31
    Schoeller DA, van Santen E, Peterson DW, et al. Total body water measurement in humans with 18O and 2H labeled water. Am J Clin Nutr 1980;33:26862693.
  • 32
    Lifson N, Gordon GB, McClintock R. Measurement of total carbon dioxide production by means of D218O. J Appl Physiol 1955;7:704710.
  • 33
    Prentice AM. Practical recommendations and worked examples. In: Prentice AM, ed. The Doubly-Labelled Water Method for Measuring Energy Expenditure. Technical Recommendations for Use in Humans. A consensus report from the IDECG Working Group. Vienna: International Atomic Energy Agency, IDECG; 1990:212247.
  • 34
    Wong WW, Lee LS, Klein PD. Deuterium and oxygen-18 measurements on microliter samples of urine, plasma, saliva and human milk. Am J Clin Nutr 1987;45:905912.
  • 35
    Cave NJ, Backus RC, Marks SL, et al. Oestradiol, but not genistein, inhibits the rise in food intake following gonadectomy in cats, but genistein is associated with an increase in lean body mass. J Anim Physiol Anim Nutr 2007;91:400410.
  • 36
    Lukaski HC, Johnson PE. A simple, inexpensive method of determining total body water using a tracer dose of D2O and infrared absorption of biological fluids. Am J Clin Nutr 1985;41:363370.
  • 37
    Spray CM, Widdowson EM. The effect of growth and development on the composition of mammals. Brit J Nutr 1950;4:332353.
  • 38
    Miller ME, Cosgriff JM, Forbes GB. Bromide space determination using anion-exchange chromatography for measurement of bromide. Am J Clin Nutr 1989;50:168171.
  • 39
    Center for Drug Evaluation and Research (FDA). Reviewer guidance; validation of chromatographic methods. Available at: www.fda.gov/cder/cmc3.pdf.1994. Accessed June 9, 2009.
  • 40
    Gamble JL, Robertson JS, Hannigan CA, et al. Chloride, bromide, sodium, and sucrose spaces in man. J Clin Invest 1953;32:483489.
  • 41
    De Lorenzo A, Andreoli A, Matthie J, et al. Predicting body cell mass with bioimpedance using theoretical methods: A technological review. J Appl Physiol 1997;82:15421558.
  • 42
    Elliott DA. Evaluation of Multifrequency Bioelectrical Impedance Analysis for the Assessment of Total Body Water and Extracellular Water in Healthy Cats and Dogs. Davis, CA: Univ CA; 2001. Thesis.
  • 43
    Hanai T. Electrical properties of emulsions. In: Sherman PH, ed. Emulsion Science. London: Academic; 1968:354477.
  • 44
    Ho LT, Kushner R, Schoeller DA, et al. Bioimpedance analysis of total body water in hemodialysis patients. Kidney Int 1994;46:14381442.
  • 45
    Burkholder WJ, Toll PW. Obesity. In: Hand MS, Thatcher CD, Remillard RL, Roudebush P, eds. Small Animal Clinical Nutrition, 4th ed. Marcelline, MO: Walsworth Publishing Co; 2000:401430.
  • 46
    Bland JM, Altman DG. Applying the right statistics: Analysis of measurement studies. Ultrasound Obstet Gynecol 2003;22:8593.
  • 47
    Nguyen P, Leray V, Dumon H, et al. High protein intake affects lean body mass but not energy expenditure in nonobese neutered cats. J Nutr 2004;134:2074S2086S.
  • 48
    Blaxter KL. Energy Metabolism in Animals and Man. Cambridge, UK: Cambridge University Press; 1989.
  • 49
    Bjornvad CR, Nielsen DH, Armstrong PJ, et al. Evaluation of a nine-point body condition scoring system in physically inactive pet cats. Am J Vet Res 2011;72:433437.
  • 50
    Stone R, Berghoff N, Steiner JM, et al. Use of a bioelectric impedance device in obese and lean healthy dogs to estimate body fat percentage. Vet Ther 2009;10:5970.
  • 51
    Turrell DJ, Alexander JK. Experimental evaluation of Weir's formula for estimating metabolic rate in man. J Appl Physiol 1964;19:946948.
  • 52
    Morris JG. Idiosyncratic nutrient requirements of cats appear to be diet induced evolutionary adaptations. Nutr Res Rev 2002;15:153.