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The carbohydrate-insulin model: a physiological perspective on the obesity pandemic
- Ludwig, David S;
- Aronne, Louis J;
- Astrup, Arne;
- de Cabo, Rafael;
- Cantley, Lewis C;
- Friedman, Mark I;
- Heymsfield, Steven B;
- Johnson, James D;
- King, Janet C;
- Krauss, Ronald M;
- Lieberman, Daniel E;
- Taubes, Gary;
- Volek, Jeff S;
- Westman, Eric C;
- Willett, Walter C;
- Yancy, William S;
- Ebbeling, Cara B
- et al.
Published Web Location
https://doi.org/10.1093/ajcn/nqab270Abstract
According to a commonly held view, the obesity pandemic is caused by overconsumption of modern, highly palatable, energy-dense processed foods, exacerbated by a sedentary lifestyle. However, obesity rates remain at historic highs, despite a persistent focus on eating less and moving more, as guided by the energy balance model (EBM). This public health failure may arise from a fundamental limitation of the EBM itself. Conceptualizing obesity as a disorder of energy balance restates a principle of physics without considering the biological mechanisms that promote weight gain. An alternative paradigm, the carbohydrate-insulin model (CIM), proposes a reversal of causal direction. According to the CIM, increasing fat deposition in the body-resulting from the hormonal responses to a high-glycemic-load diet-drives positive energy balance. The CIM provides a conceptual framework with testable hypotheses for how various modifiable factors influence energy balance and fat storage. Rigorous research is needed to compare the validity of these 2 models, which have substantially different implications for obesity management, and to generate new models that best encompass the evidence.
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