Background: Exercise is widely promoted as a method of weight management, while the other health benefits are often ignored. The purpose of this study was to examine whether exercise-induced improvements in health are influenced by changes in body weight.
Methods: Fifty-eight sedentary overweight/obese men and women (BMI 31.8 (SD 4.5) kg/m2) participated in a 12-week supervised aerobic exercise intervention (70% heart rate max, five times a week, 500 kcal per session). Body composition, anthropometric parameters, aerobic capacity, blood pressure and acute psychological response to exercise were measured at weeks 0 and 12.
Results: The mean reduction in body weight was −3.3 (3.63) kg (p<0.01). However, 26 of the 58 participants failed to attain the predicted weight loss estimated from individuals’ exercise-induced energy expenditure. Their mean weight loss was only −0.9 (1.8) kg (p<0.01). Despite attaining a lower-than-predicted weight reduction, these individuals experienced significant increases in aerobic capacity (6.3 (6.0) ml/kg/min; p<0.01), and a decreased systolic (−6.00 (11.5) mm Hg; p<0.05) and diastolic blood pressure (−3.9 (5.8) mm Hg; p<0.01), waist circumference (−3.7 (2.7) cm; p<0.01) and resting heart rate (−4.8 (8.9) bpm, p<0.001). In addition, these individuals experienced an acute exercise-induced increase in positive mood.
Conclusions: These data demonstrate that significant and meaningful health benefits can be achieved even in the presence of lower-than-expected exercise-induced weight loss. A less successful reduction in body weight does not undermine the beneficial effects of aerobic exercise. From a public health perspective, exercise should be encouraged and the emphasis on weight loss reduced.
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It is difficult to ignore the media attention and public health messages about the current obesity epidemic and the emphasis to reduce body weight. Despite some cynicism about the true status and implications of the obesity epidemic,1 there is no doubt that preventing weight gain can contribute to improving the health of the nation.2 The efficacy of exercise as a means of weight reduction is regularly scrutinised and doubted.3 Body weight loss is commonly regarded as the marker of efficacy by researchers, and more typically the perceived measure of success by laypeople. Any lack of weight loss associated with exercise is often attributed to poor compliance and/or compensation for the acute exercise-induced increase in energy expenditure.4 That is, the net change in exercise-induced energy expenditure is modest and insignificant due to compensatory adjustments in energy intake and a failure to comply fully with the exercise prescription. Clearly, if people do not comply with the exercise prescribed (by themselves or others), the expected weight loss will not occur. The success of exercise in promoting weight loss will vary between individuals;5 however, those who lose less weight should not be labelled as failures or be perceived negatively. Evidence suggests that individuals have unrealistic weight loss expectations,6 which is indicative of an inappropriate focus on body weight. Blair and Lamonte suggested that “a focus on weight loss is often counterproductive and unsuccessful, and sometimes may even be unnecessary.”7 Furthermore, body weight per se might not be the most important risk factor for obesity comorbidities.8 9 10 It is possible that media attention and the persistent barrage of messages to reduce obesity are to blame for the obsession with the capacity of exercise to produce marked and rapid weight loss. Exercise gives rise to a wide range of health benefits, not just weight loss.11
Disappointment and low-self esteem associated with poor weight loss could lead to low exercise adherence and a general perception that exercise is futile and not beneficial. This viewpoint is potentially damaging—a more transparent and positive attitude to the health benefits of exercise is required. Individuals who drop out of exercise interventions—possibly due to disappointing weight loss—have a history of previous weight loss attempts, and exercise adherence is associated with intrinsic motivation.12 13 Unfortunately, focusing on exercise-induced changes in body weight undermines the arguably more important health benefits associated with exercise. Although there is some debate about the direct association between weight loss per se and health benefits, there is evidence to suggest that reductions of 5–10% in body weight improve some health risk markers.14 For several years Steve Blair has promoted the idea that fitness is more important than fatness, since there are data to demonstrate that a fat but fit person has fewer health risks than a lean but unfit individual.15 There is a real need to promote physical activity and to prevent it being undervalued by the community and by public health professionals.16
In fact, when sedentary people undertake exercise, the activity provides a massive stimulus with widespread physiological implications. The effect cannot be readily anticipated, but studies have noted considerable diversity in the responses.17 18 In addition, the energy expended in exercise is believed, by some,19 to stimulate compensation so that energy balance is preserved. We have examined these issues under controlled scientific conditions.
Materials and methods
Fifty-eight sedentary overweight/obese men (BMI 30.5 (SD 3.3) kg/m2) and women (BMI 32.6 (4.8) kg/m2) completed a 12-week supervised aerobic exercise programme (70% heart rate max) five times a week in the Human Appetite Research Unit at the University of Leeds. Each exercise session was designed to expend approximately 500 kcal. Body composition (air plethysmography—Bodpod, Concord), anthropometry, aerobic capacity (submaximal Vo2 max test), blood pressure, resting heart rate and the acute affective response (Positive and Negative Affect Scale (PANAS)20) to exercise were measured at weeks 0 and 12. Subjects were instructed not to restrict their energy intake during the study.
When all 58 subjects’ data were pooled, the mean reduction in body weight was −3.3 (3.6) kg (p<0.01)—however there was large interindividual variability (fig 1). Based on empirical evidence,21 the mean weight loss matched the predicted weight loss. Further examination of the weight-change data revealed that subjects could be categorised into two groups (responders and non-responders) based solely on their actual initial weight relative to the calculated weight change. Calculations were based on the assumed energy costs of 9540 kcal/kg and 1100 kcal/kg of fat mass and fat-free mass respectively.21
The non-responders (n = 26) lost less weight than predicted based on their individual total exercise-induced energy expenditure. Although statistically significantly lower than baseline (week 0), their mean weight loss was only −0.9 (1.8) kg (p<0.01), compared with the remaining participants (responders) who experienced an average weight loss of −5.2 (3.64) kg (p<0.01). Indeed, some of the classified non-responders actually gained weight Therefore, based on body weight alone, exercise could be regarded as ineffective and futile for the non-responders (and even counterproductive for the weight gainers). However, the effectiveness of exercise should not be exclusively judged on changes in body weight because it undermines the other health benefits that are commonly associated with exercise. Despite the lower-than-expected weight loss, the non-responders did achieve improvements in health markers. They experienced a significant increase in aerobic capacity (6.3 (6.0) ml/kg/min; p<0.01), reduction in waist circumference (−3.08 (2.66) cm; p<0.01), and decreases in systolic (−6.0 (11.5) mm Hg; p<0.05), diastolic blood pressure (−3.9 (5.8) mm Hg; p<0.01) and resting heart rate (−4.8 (8.9) bpm; p<0.001). The reduction in both systolic and diastolic blood pressure was more marked when examining the changes in those individuals who were classed as hypertensive (140/90 mm Hg) at baseline. They experienced a significant reduction in systolic (−15 (10.4) mm Hg p<0.0001) and diastolic (−10 (4.6), p<0.0001) blood pressure.
In addition to the reduction in health risk markers, the non-responders experienced an acute improvement in psychological state reflected in the exercise-induced increase in positive mood, which was maintained during the 12 weeks. Interestingly, although the difference in weight loss between the groups was statistically significant, there were no statistically significant differences in the health benefits. Furthermore, when all subjects’ data were pooled, there was no association between weight loss and improvements in health markers. Therefore, the exercise itself, independent of weight loss, made a significant contribution to the health benefits. There were no significant differences between men and women, and the proportion of men in each group was similar (responders = men:women, 9:23, 28% and non-responders = men:women, 10:16, 38%).
Moreover, these results show that, if people fail to lose weight following a recommendation to perform physical activity, it is not necessarily a result of poor compliance. In some individuals, who are resistant to weight loss, it will be due to strong physiological compensatory processes.
These data demonstrate that significant and meaningful health benefits can be achieved even in the presence of lower-than-expected exercise-induced weight loss. A novel feature of this study is that the exercise intervention was supervised, and each session was monitored and measured directly. Therefore, unlike most of the other exercise intervention trials, we can guarantee that the lower-than-expected weight loss was not due to poor compliance. Indeed, the degree of adherence and total exercise energy expenditures did not differ between the two groups.
Importantly, based on each individual’s predicted weight loss, those who lost less weight than predicted still experienced improvements in other markers of health. It is important to note that these health markers are not overtly accessible to most individuals, whereas other markers such as body weight, perceptions of fitting of clothes and perceived body image are more accessible and transparent. Therefore, most individuals are “blind” to the exercise-induced health improvements. Indeed, these data demonstrate that subjects who lost less than the predicted weight still experienced a mean reduction of approximately 3.7 cm in waist circumference. Waist circumference is promoted as being more important than BMI at predicting risk of obesity-related disease,22 23 and a better marker of success than BMI in response to exercise.24 The reductions in diastolic and systolic blood pressure in the non-responders were similar to other studies.25
There is a need to increase knowledge and understanding of the health benefits of exercise, and reduce the emphasis on weight loss.11 This agrees with the evidence that cardiorespiratory fitness is a more powerful predictor of risk than body weight.16 In addition, evidence from the Finnish Diabetes Preventions study showed that individuals who did not lose weight but who did increase their physical activity maintained a reduction in the risk of diabetes.26 Exercise should be promoted as an optimistic method of improving weight management and overall health by highlighting the importance of using other markers of success. Weight loss is not the only benefit of exercise; nor is it the most useful and appropriate marker of health.27 A recent intervention in postmenopausal obese women using low-intensity, low-volume exercise showed improvements in cardiorespiratory fitness with no effect on body weight.28 Furthermore, partly due to the culture of focusing on obesity and weight loss, individuals will actively seek opportunities which are specifically targeted to promote weight loss—and exercise is one of those. From a public health perspective, exercise should therefore be encouraged; and even though body weight may not change markedly, or match expectations, lean tissue will be increased (or preserved), and body shape will change (waist circumference). There will also be a lowering of risk factors for comorbidity problems and diabetes. In the present study, the reduction in waist circumference—even in the non-responders—is important, since this variable is a proxy measure of visceral fat which is highly associated with cardiometabolic risk factors.11 It may therefore be important to encourage the replacement of BMI and body weight with waist circumference as a measure of the effectiveness of exercise.
Within this framework, there is a key role for physicians and health professionals. These professionals—including dietitians—not only can promote physical activity as a contribution to health but also can be instrumental in improving weight management in non-responders (table 1). We have demonstrated that non-responders fail to lose the expected weight because of an increase in appetite reflected in an increased selection of high-fat foods and a decrease in fruit and vegetable consumption29 and because of an increased orexigenic (hunger) response.30 Therefore, using dietary behaviour strategies, dietitians and health professionals could help to counter appetite stimulation in the non-responders and therefore help weight management while preserving all of the health benefits of exercise.
In conclusion, these data provide support for the belief that poor weight loss associated with exercise should not undermine its capacity to improve health. Health professionals, it can be argued, have a responsibility to promote exercise, publicise the health benefits independent of body weight and, more importantly, shift the focus from changes in body weight to changes in overall physical and psychological well-being. Our intervention study has clearly demonstrated that when exercise is carried out, people experience beneficial physiological and psychological effects independent of any effect on body weight.
However, the implication of these results for weight management and the obesity epidemic should be interpreted carefully. The results do not mean the exercise is fruitless or ineffective in the battle against obesity. Overall, exercise can help to check weight gain, and in some people it is very effective. Others need additional help to deal with any compensatory response.
Parts of these data were presented at BASES in UK, 2006, and at the 9th ICO in Australia, 2006.
Funding This study forms part of a larger project funded by the Biotechnology and Biological Sciences Research Council (BBS/B/05079).
Competing interests None.
Ethics approval Ethics approval was provided by University of Leeds Ethics Committtee.
Patient consent Obtained.
Provenance and peer review Not commissioned; not externally peer reviewed.
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