2003
DOI: 10.1016/s1262-3636(07)70065-4
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Low intensity endurance exercise targeted for lipid oxidation improves body composition and insulin sensitivity in patients with the metabolic syndrome

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Cited by 153 publications
(117 citation statements)
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“…20,21 Furthermore, as previously shown, this type of exercise testing can be used to characterize alterations in substrate utilization in the obese during exercise 6 and has clear beneficial effects. [8][9][10] In this study, the values of W max , expressed in absolute value, in terms of percentage of predetermined W max and in terms of heart rate corresponding to COP ox , were very close to those reported previously in overweight females. 6 The exercise session may appear relatively short (30 min) but this duration is well adapted to the deconditioned state of obese sedentary subjects.…”
Section: Discussionsupporting
confidence: 86%
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“…20,21 Furthermore, as previously shown, this type of exercise testing can be used to characterize alterations in substrate utilization in the obese during exercise 6 and has clear beneficial effects. [8][9][10] In this study, the values of W max , expressed in absolute value, in terms of percentage of predetermined W max and in terms of heart rate corresponding to COP ox , were very close to those reported previously in overweight females. 6 The exercise session may appear relatively short (30 min) but this duration is well adapted to the deconditioned state of obese sedentary subjects.…”
Section: Discussionsupporting
confidence: 86%
“…However, we think that targeting exercise in individuals at a level where they actually oxidize lipids is an improvement in exercise prescription, and we have repeatedly demonstrated that such a training improves after a few weeks the ability to oxidize lipids, which is initially often quite low in obese subjects. 8,9 By contrast, exercise training targeted at intensity levels where the muscle mostly oxidizes CHO improves principally the ability to oxidize CHO. 26 Moreover, this study focuses only on the balance of substrates during an exercise bout, and gives no information on the delayed increase in lipid oxidation that occurs for several hours during recovery, and that may play an important role in the energetic metabolism of subjects submitted to regular exercise training.…”
Section: Discussionmentioning
confidence: 99%
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“…Nevertheless, it is well established that mitochondria are rather adaptable organelles directly involved in substrate oxidation and skeletal muscle can manifest considerable plasticity of mitochondrial activity in response to training in insulin resistant states, as in obese humans [11] or in type 2 diabetic patients, as recently shown [12]. Interestingly, the defect in lipid oxidation found in obese and insulin resistant patients is also very sensitive to training, and rapidly corrected by endurance training targeted at the LIPOXmax [4,13]. It was logic to extend this approach to type 2 diabetes mellitus.…”
Section: Introductionmentioning
confidence: 95%
“…Type 2 diabetic patients are characterized by an impaired substrate utilization [1,2]. Using a specific protocol of exercise calorimetry [3][4][5] we have recently reported [6] that the defect in lipid oxidation during exercise in these patients can be described in terms of balance of substrates used for oxidation during exercise as a lower maximal peak of lipid oxidation (LIPOXmax), shifted toward lower exercise intensity levels.…”
Section: Introductionmentioning
confidence: 99%