Abstract
Although suction lipectomy and dermolipectomy are common surgical procedures, the body's response to localized removal of fat and the long-term efficacy of these procedures remain controversial. Seven women who underwent liposuction or abdominoplasty were studied prior to surgery and between one and two months postoperatively. All patients were weight-stable prior to surgery and the reported daily food intake and nutrient composition of the diet did not change. The following parameters were measured: resting oxygen uptake (VO2), glucose-induced increment in VO2, anthropometry, and site-specific fat cell size. Fat samples were taken by needle aspiration from abdominal and femoral regions. Resting energy expenditure and the response to glucose feeding were not significantly different postoperatively. Furthermore, site-specific fat cell size did not change, nor were there any significant differences in the sum of four skinfold thicknesses. These results suggest that energy balance was not altered as a result of localized fat removal in previously weight-stable women. Thus, short-term follow-up suggests that surgical fat removal does not result in a compensatory change in metabolic efficiency or fat cell size and distribution in these weight-stable women. Therefore, this technique may prove effective for body contouring in nonobese women.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bray GA: Measurement of subcutaneous fat cells from obese patients. Ann Intern Med73:565, 1970
Dark J, Forger NG, Zucker I: Rapid recovery of body mass after surgical removal of adipose tissue in ground squirrels. Proc Natl Acad Sci81:2270, 1984
Dark J, Forger NG, Stern JS et al: Recovery of lipid mass after removal of adipose tissue in ground squirrels. Am J Physiol249:R73, 1985
de Boer JO, van ES AJH, Roovers LA, van Raaij JMA, Hautvast JGAJ: Adaptation of energy metabolism of overweight women to low-energy intake studied with whole body calorimeters. Am J Clin Nutr44:585, 1986
Durnin JVGA, Womersley J: Body fat assessed from total body density and its estimation from skinfold thickness: measurements on 481 men and women aged from 16–72 years. Br J Nutr32:77, 1974
Eckel RH, Yost TJ: Weight reduction increases adipose tissue lipoprotein lipase responsiveness in obese women. J Clin Invest80:992, 1987
Faust IM, Johnson PR, Hirsch J: Noncompensation of adipose mass in partially lipectomized mice and rats. Am J Physiol231:538, 1976
Flatt JP: The differences in the storage capacities for carbohydrate and for fat, and its implications in the regulation of body weight. Ann NY Acad Sci499:104, 1987
Forger NG, Dark J, Zucker I: Recovery of white adipose tissue after lipectomy in female ground squirrels. Can J Zool64:128, 1986
Forger NG, Dark J, Stern JS, Wade GN, Zucker I: Lipectomy influences white adipose tissue lipoprotein lipase activity and plasma triglyceride levels in ground squirrels. Metabolism37(8):782, 1988
Hetter GP: Surgical technique: history and basic theory. In: Hetter GP (ed). Lipoplasty: the Theory and Practice of Blunt Suction Lipectomy. Boston: Little, Brown, 1984, 137
Hill JO, Latiff A, Digirolamo M: Effects of variable caloric restriction on utilization of ingested energy in rats. Am J Physiol248:R549, 1985
Keesey RE: Physiological regulation of body weight and the issue of obesity. Med Clin N Am73(1):15, 1989
Kral JG: Surgical reduction of adipose tissue hypercellularity in man. Scand J Plast Reconstr Surg9:140, 1975
Leibel RL, Hirsch J, Berry EM, Gruen RK: Alterations in adipocyte free-fatty acid re-esterification associated with obesity and weight reduction in man. Am J Clin Nutr42:198, 1985
Liebelt RA, Vismara L, Liebelt AG: Autoregulation of adipose tissue mass in the mouse. Proc Soc Exp Biol127:458, 1968
Lusk G: The Elements of the Science of Nutrition, 4th ed (reprinted 1976). New York: Johnson Reprint Corp, 1928
Pavlou KN, Steffer WP, Lerman RH, Burrows BA: Effects of dieting and exercise on lean body mass, oxygen uptake, and strength. Med Sci Sports Ex17(4):466, 1985
Ravussin E, Lillioja S, Anderson TE, Christin L, Bogardus C: Determinants of 24-hour energy expenditure in man, methods and results using a respiratory chamber. J Clin Invest78:1568, 1986
Rebuffé-Scrive M, Eldh J, Hafstrom LO, Björntorp P: Metabolism of mammary, abdominal, and femoral adipocytes in women before and after menopause. Metabolism35:792, 1986
Rodbell M: Metabolism of isolated fat cells I. Effects of hormones on glucose metabolism and lipolysis. J Biol Chem239:375, 1964
Schwartz RS, Brunzell JD: Increased adipose tissue lipoprotein lipase activity in moderately-obese men after weight reduction. Lancet2:1230, 1978
Shapiro B: The regulation of adipose tissue activity. In: Vague J, Boyer J (eds): The Regulation of Adipose Tissue Mass. Amsterdam: Excerpta Medica, 1984, 40
Shapiro B, Zinder O: Adipose tissue activity as a regulator of energy balance. Israel J Med Sci8:317, 1972
Sörbris R, Monti M, Nilsson-Ehle P, Wadsö I: Heat production by adipocytes from obese subjects before and after weight reduction. Metabolism31(10):973, 1982
Tremblay A, Després JP, Bouchard C: Adipose tissue characteristics of ex-obese long distance runners. Int J Obesity8:641, 1984
Tremblay A, Plourde G, Després JP, Bouchard C: Impact of dietary fat content and fat oxidation on energy intake in humans. Am J Clin Nutr49:799, 1989
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lambert, E.V., Hudson, D.A., Bloch, C.E. et al. Metabolic response to localized surgical fat removal in nonobese women. Aesth. Plast. Surg. 15, 105–110 (1991). https://doi.org/10.1007/BF02273842
Issue Date:
DOI: https://doi.org/10.1007/BF02273842