Advanced search
Publication Cover
Chronobiology International
The Journal of Biological and Medical Rhythm Research
Volume 13, 1996 - Issue 5
Submit an article Journal homepage
50
Views
9
CrossRef citations to date
0
Altmetric
Original Article

Circadian Rhythms in Human Body Composition

Pietro Cugini Medical Semeiology and Methodology (Chronobiology Unit) University of Rome “La Sapienza”, Rome, Italy
,
Andrea Salandri Endocrinology, Rome, Italy
,
Carlo Maria Petrangeli Medical Semeiology and Methodology (Chronobiology Unit) University of Rome “La Sapienza”, Rome, Italy
,
Paolo Francesco Capodaglio Medical Semeiology and Methodology (Chronobiology Unit) University of Rome “La Sapienza”, Rome, Italy
&
Claudio Giovannini Endocrinology, Rome, Italy
Pages 359-371 | Received 10 Jun 1996, Accepted 24 Jun 1996, Published online: 07 Jul 2009

References

  • Hirsch E., Halberg E., Halberg F., Goetz F. C., Cressy D., Wendt H., Sothern R., Haus E., Stoney P., Minors D., Rosen G. D., Hill B., Hilleren M., Garett K. Body weight change during one week on a single daily 2000-calorie meal consumed as breakfast (B) dinner (D). Chrnobiologia 1975; 2(Suppl 1)31–2
  • Nelson W., Scheving L., Halberg F. Circadian rhythms in mice allowed single daily “meal” at different stages of LD (12–12) lighting regimen. J Nutr 1975; 105: 171–84
  • Graeber R. C., Gatty R., Halberg F., Levine H. Human eating behaviour: preferences, consumption patterns, and biorhythms. Food Science Laboratory, US Army Natik Research and Development Command, Natik, MA 1978
  • Siri W. E. Body composition from fluid space and density: analysis of method. Techniques for measuring body composition, J. Brozek, A. Henschel. National Academy of Sciences, National Research Council, Washington, DC 1961; 223–44
  • Brozek J., Grande F., Anderson J. T., Keys A. Densitometrie analysis of body composition: revision of some quantitative assumptions. Ann NY Acad Sci 1963; 110: 113–40
  • Forbes G. B. Human body composition, growth, aging, nutrition and activity. Springer-Verlag, New York 1987
  • Forbes G. B. The companionship of lean and fat. Human body composition. In vivo methods, models and assessment, I. K. Ellis, J. D. Eastman. Plenum Press, New York 1993; 1–12
  • Lukaski H. C. Methods for the assessment of human body composition: traditional and new. Am J Clin Nutr 1987; 46: 537–56
  • Lukaski H. C., Johnson P. E. A simple inexpensive method of determining total body water using a tracer dose of deuterium oxide and infrared absorption of biological fluids. Am J Clin Nutr 1985; 41: 363–70
  • Heymsfield S. B., Waki M. Body composition in humans: advances in the development of multicompartment chemical models. Nutr Rev 1991; 49: 97–108
  • Heymsfield S. B., Wang J., Licktman S., Kamen Y., Kehayias J., Pieson R. N. Body composition in elderly subjects: a critical appraisal of clinical methodology. Am J Clin Nutr 1989; 50: 1167–75
  • Kuczmarsky J. R. Need for body composition information in elderly subjects. Am J Clin Nutr 1989; 50: 1150–7
  • Wang W. W., Sheng H. P., Morkenberg J. C., Kosanovich J. L., Clarke L. L., Klein P. D. Measurement of extracellular water volume by bromide ion chromatography. Am J Clin Nutr 1989; 50: 1290–5
  • Roubenoff R., Kehayas J. J., Dawson-Hughes B., Heymsfield S. B. Use of dual-energy X-ray absorptiometry in body composition studies: not yet a gold standard. Am J Clin Nutr 1993; 58: 689–91
  • Sjöström L. Impacts of body weight, body composition, and adipose tissue distribution on morbidity and mortality. Obesity: theory and therapy2nd ed., J. Stunkard, T. Wadden. Raven Press, New York 1993; 13–41
  • Segal K. R., Gutin B., Presta E., Wang J., Van Itallie T. B. Estimation of human body composition by electrical impedance methods: a comparative study. J Appl Physiol 1985; 58: 1565–71
  • Segal K. R., Van Loan M., Fitzgerald P. I., Hodgon J. A., Van Itallie T. B. Lean body mass estimation by bioelectrical impedance analysis: a four-site cross-validation study. Am J Clin Nutr 1988; 47: 7–14
  • Segal K. R., Burastero S., Chun A., Coronel P., Pireson R., Wang J. Estimation of extracellular and body water by multiple-frequency bioelectrical impedance measurement. Am J Clin Nutr 1991; 54: 26–9
  • Kushner R. F., Schoeller A. D. Estimation of total body water by bioelectrical impedance analysis. Am J Clin Nutr 1986; 44: 417–24
  • Van Loan N., Mayclin P. Bioelectrical impedance analysis: is it a reliable estimator of lean body mass and total body water?. Am J Hum Biol 1987; 59: 299–309
  • Davies P. W. S., Preece M. A., Hicks C. J., Halliday D. The prediction of total body water using bioelectrical impedance in children and adolescents. Ann Hum Biol 1988; 15: 237–40
  • Jackson A. S., Pollock M. L., Graves J. E., Mahar M. T. Reliability and validity of bioelectrical impedance in determining body composition. J Appl Physiol 1988; 64: 519–34
  • Shizgal H. M. Validation of the measurement of body composition from whole bioelectric impedance. Surg Forum 1988; 39: 67–74
  • Deurenberg P. International consensus conference on impedance in body composition. Age Nutr 1994; 5: 142–5
  • Deurenberg P., Weststrate J. A., Kooy K. Is an adaptation of Siri's formula for the calculation of body fat percentage from body density in the elderly necessary?. Eur J Clin Nutr 1989; 43: 59–68
  • Deurenberg P., Kooy K., Evers P., Hulshof T. Assessment of body composition by bioelectrical impedance in a population aged 60 years. Am J Clin Nutr 1990; 51: 3–6
  • Deurenberg P., Kooy K., Leenen R., Weststrate J. A., Seidell J. C. Sex and age specific prediction formulas for estimating body composition from bioelectrical impedance: a cross-validation study. Int J Obes 1991; 15: 17–25
  • Ross R., Legger L., Martin P., Roy R. Sensitivity of bioelectrical impedance to detect changes in human body composition. J Appl Physiol 1989; 67: 1643–7
  • Battistini N., Virgili F., Bedogni G., Gambella G. R., Bini A. In vivo total body water assessment by total body electrical conductivity in rats suffering perturbations of water compartment equilibrium. Br J Nutr 1993; 70: 433–8
  • Halberg F., Johnson E. A., Nelson W., Runge W., Sothern R. Autorhythmometry: procedures for physiological self-measurements and their analysis. Physiol Teacher 1972; 1: 1–11
  • Nelson W., Tong Y. L., Lee J. K., Halberg F. Methods for cosinor rhythmometry. Chronobiologia 1979; 6: 305–23
  • Halberg F., Tong Y. L., Johnson E. A. Circadian system phase: an aspect of temporal morphology; procedures and illustrative examples. The cellular aspects of biorhythms, H. von Mayersbach. Springer, Berlin 1967; 20–48
  • Pesta E., Wang J., Harrison G. G., Bjorntorp P., Harker W. H., Van Itallie T. B. Measurement of total body water by electrical conductivity: a new method for estimation of body composition. Am J Clin Nutr 1983; 37: 735–9
  • Lukaski H. C. Bioelectrical impedance analysis. Am J Clin Nutr 1985; 41: 810–7
  • Capani F., Carfagnini A., Consoli A., Delia Loggia F., Del Ponte A., Di Felice M., Donatelli S., Guagnano T., Guarnieri I., Iezzi M., Sensi S. Chronobiological aspects of energy expenditure in obesity. Obesity: pathogenesis and treatment, G. Enzi, G. Crepaldi, G. Pozza, E. Renold. Academic Press, New York 1981; 87–103, Serono Symposium 28
  • Capani F., Consoli A., Del Ponte A., Ferrara D., Guagnano T., Sensi S. Morning-afternoon variation of specific dynamic action of nutrients. Chronobiology 1982–1983, E. Haus, H. Kabat. Karger, Basel 1984; 480–93
  • Sensi S., Capani F., Consoli A., Del Ponte A., Guagnano T., Iezzi M. Circadian rhythm of energy expenditure under different meal-timing regimens in obesity. Chronobiology 1982–1983, E. Haus, H. Kabat. Karger, Basel 1984; 470–3
  • Even P., Nicolaidis S. Isomeride augmente la depense energetique a l'effort. J Int Med 1987; 15: 26–34
  • Boschmann M., Frenz U., Noack R., Aust L., Murphy C. M. Energy metabolism and metabolite patterns of rats after application of dexfenfluramine. Int J Obes 1994; 12: 123–5
  • Aslanian N. L., Assatrian D. G., Bagdassarian R. A., Kurginian A. G., Shukian V. M. Circadian rhythm in electrolyte excretion in hypertensive patients and healthy subjects. Chronobiologia 1978; 5: 251–3
  • Aslanian N. L., Hairapetian L. A. Circadian rhythms of renal electrolyte and trace element excretion. Disrhythmias in hypertensive patients. Bull Groupe Etude Rhythm Biol 1989; 21: 105–17
  • Aslanian N. L., Hakopian G. G., Adamian K. G., Madoyan S. K. Circadian rhythms: reference chronobiological values for cardiovascular and renal functions in Armenias. Chronobiol Sect 1995; 1: 1–12
  • Fisher L. B. The diurnal mitotic rhythm in the human epidermic. Br J Dermatol 1968; 80: 75–80
  • Scheving L. A., Scheving L. E., Tsai T. H., Pauly J. E. Circadian stage dependent effect of insulin on incorporation of [H] TdR into DNA in the esophagus, stomach, duodenum, jejunum, ileum, caecum, colon, rectum and spleen in the adult female mouse. Endocrinology 1982; 111: 308–18
  • Scheving L. E., Tsai T. H., Scheving L. A., Feuers R. The potential of using natural rhythmicity of cell proliferation in improving cancer chemotherapy in rodents. Temporal control of drug delivery, W. J. M. Hrushesky, S. Theeuwers. Ann NY Acad Sci. 1991; 618: 182–227
  • Scheving L. E., Pauly J. E., Tsai T. H., Scheving L. A. Rhythms in enzymes of brain and liver; cell proliferation in various tissues and the effect of epidermal growth factor (EGF), insulin and glucagon on these rhythms. Clinical aspects of chronobiology, W. J. Rietveld. Meducation Service Hoechst. 1984; 105–26
  • Edmunds J. L. N. Chronobiology at the cellular and molecular levels: models and mechanisms for circadian time keying. Am J Anat 1983; 168: 389–431
  • Barter P. J., Carroll K. F., Nestel P. J. Diurnal fluctuations in triglycerides, free fatty acids and insulin during sucrose consumption and insulin infusion in man. J Clin Invest 1971; 50: 583–91
  • Mach P. O., Watson J. J., Johnson B. C. Effects of dietary fat and sucrose on the activities of several rat hepatic enzymes and their diurnal responses to a meal. J Nutr 1975; 105: 701–3
  • Simpson R. W., Carter R. D., Moore R. A., Penfold W. A. F. Diumal changes in plasma lipoproteins in normal subjects and diabetics. Diabetologica 1980; 18: 35–40
  • Haus E., Lakatua D. J., Sackett-Lundeen L. L., Swoyer J. Chronobiology in laboratory medicine. Clinical aspects of chronobiology, W. J. Rietveld. Meducation Service Hoechst. 1984; 5–83
  • Moore R. A. Variations in serum cholesterol. Lancet 1988; 2: 682
  • Bremner W. F., Sothern R. B., Kanabrocki E. L., Vahed S., Third J. L., Scheving L. E. Chronobiological evaluation of 24-hour lipid and lipoprotein changes middle-aged males. Chronobiology: its role in clinical medicine, general biology, and agriculture. Part A. Progress in Clinical and Biological Research, D. K. Hayes, J. E. Pauly, R. J. Reiter. Wiley-Liss, New York 1990; Vol. 341A.: 185–92
  • Jones P. J., Schoeller D. A. Evidence of diurnal periodicity in human cholesterol synthesis. J Lipid Res 1990; 31: 667–73
  • Nikolaevskij E. E. Circadian rhythm of plasma levels of lipids, carbohydrates, and various hormones in healthy pilots. Kosm Biol Aviakosm Med 1990; 24: 21–3
  • Wasenius A., Stugaard M., Otterstad J. E., Froyshiv D. Diurnal and monthly intraindi-vidual variability of the concentration of lipids, lipoproteins and apoproteins. Scand J Clin Lab Invest 1990; 50: 635–42
  • Stone J. E., Scheving L. E., Burns E. R., Graham M. Circadian rhythms of ornithine decarboxylase activity in mouse liver: effects of isoproterenol and Clelland's reagent. Chronobiology, L. E. Scheving, F. Halberg, J. E. Pauly. Igaku Shoin Ltd, Tokyo 1974; 38–42
  • Walker P. R., Potter V. R. Diurnal rhythms of hepatic enzymes from rats adapted to controlled feeding schedules. Chronobiology, L. E. Scheving, F. Halberg, J. E. Pauly. Igaku Shoin Ltd, Tokyo 1974; 179–81
  • Wurtman R. J. Daily rhythm in tyrosine transaminase and other hepatic enzymes that metabolize amino acids: mechanisms and possible consequences. Life Sci 1975; 15: 827–47
  • Faiman C., Moorehouse J. A. Diurnal variation in the levels of glucose and related substances in healthy and diabetic subjects during starvation. Clin Sci 1967; 32: 111–26
  • Wurtman R. J., Rose C. M., Chou C., Larin F. F. Daily rhythms in the concentration of amino acids in human plasma. N Engl J Med 1968; 279: 171–5
  • Feigin R. D., Dangerfield H. G., Beisel W. R. Circadian periodicity of blood amino acids in normal and adrenalectomized mice. Nature 1969; 221: 94–5
  • Feigin R. D., Beisal W. R., Wannemacher R. M. Rhythmicity of plasma amino acids and relation to dietary intake. Am J Clin Nutr 1971; 24: 329–41
  • Malherbe C., De Gasparo M., De Hertogh R., Hoet J. J. Circadian variations of blood sugar and plasma insulin levels in man. Diabetologia 1969; 5: 397–404
  • Young V. R., Hussein M. A., Murray E., Scrimshaw N. S. Tryptophan intake, spacing of meals, and diurnal fluctuations of plasma tryptophan in men. Am J Clin Nutr 1969; 22: 1563–7
  • Fernstrom J. D., Larin F., Wurtman R. J. Daily variations in the concentration of individual amino acids in rat plasma. Life Sci 1971; 10: 813–9
  • Fernstrom J. D., Wurtman R. J., Hammarstrom-Wiklund B., Rand W. M., Munro H., Davidson C. S. Diurnal variations in plasma concentrations of tryptophan, tyrosine, and other large neutral amino acids: effect of dietary protein intake. Am J Clin Nutr 1979; 32: 1912–22
  • Sensi S. Some aspects of circadian variations of carbohydrate metabolism and related hormones in man. Chronobiologia 1974; 1: 396–404
  • Winkel P., Statland B., Bokelund H. Factors contributing to intraindividual variation of serum constituents: 5. Short-term day-to-day and within-hour variation of serum constituents in healthy subjects. Clin Chem 1974; 20: 1520–4
  • Schlierf G. Diurnal variations in plasma substrate concentration. Eur J Clin Invest 1978; 8: 59–60
  • Jarrett R. J. Rhythms in insulin and glucose. Endocrine rhythms, D. T. Krieger. Raven Press, New York 1979; 247–50
  • Riggio O., Merli M., Pieche U., Romiti A., Pasqualetti P., Coppola A., Danese D., Cugini P., Capocaccia L. Circadian rhythmicity of plasma amino acid variations in healthy subjects. Rec Prog Med 1989; 80: 591–3
  • Dela F., Mikines K. J., Von Listow M., Galbo H. Twenty-four hour profile of plasma glucose and glucoregulatory hormones during normal living conditions in trained and untrained men. J Clin Endocrinol Metab 1991; 73: 982–9
  • Blundell J. E., Latham C. J. Behavioural of pharmacology of feeding. Drugs and appetite, T. Silverstone. Academic Press, London 1983; 41–80
  • Leathwood P. D., Arimanana L. Circadian rhythms of food intake and protein selection in young and old rats. Annu Rev Chronopharmacol 1989; 1: 225–58
  • Rietveld W. J., Kooij M., Flory W. F., Ten Hoor W. Disruption of the circadian control of food intake without lesion of the suprachiasmatic nucleus. Chronobiology 1982–1983, E. Haus, H. Kabat. Karger, Basel 1984; 457–60
  • Johnson D. J., Li E. T. S., Coscina D. V., Anderson G. H. Different diurnal rhythms of protein and non-protein energy intake by rats. Physiol Behav 1979; 22: 777–80
  • Zwiauer K. F., Mueller T., Widhalm K. Effect of day time on resting energy expenditure and thermic effect of food in obese adolescents. Am J Clin Nutr 1992; 11: 267–71
  • Rising R., Harpen I. T., Fontviellle A. M., Ferraro R. T. Determinants of total energy expenditure: liability in physical activity. Am J Clin Nutr 1994; 59: 800–4
  • Doe R., Vennes J. A., Flink E. B. Diurnal variations of 17-hydroxycorticosteriods, sodium, potassium, magnesium and creatinine in normal subjects and in cases of treated adrenal insufficiency and Cushing's syndrome. J Clin Endocrinol Metab 1960; 20: 253–9
  • Halberg F. Some aspects of the chronobiology of nutrition: more work is needed on “when to eat”. J Nutr 1989; 119: 333–4
  • Halberg F., Haus E., Cornelissen G. From biologic rhythms to chonomes relevant for nutrition. Not eating enough: overcoming underconsumption of military operational rations, B. M. Marriott. National Academy Press, Washington, DC 1995; 361–72

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.