Pathways and mechanisms linking dietary components to cardiometabolic disease

Pathways and mechanisms linking dietary components to cardiometabolic disease: thinking beyond calories

Research output: Contribution to journal › Review › Research › peer-review

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Pathways and mechanisms linking dietary components to cardiometabolic disease : thinking beyond calories. / Stanhope, K L; Goran, M I; Bosy-Westphal, A; King, J C; Schmidt, L A; Schwarz, J-M; Stice, E; Sylvetsky, A C; Turnbaugh, P J; Bray, G A; Gardner, C D; Havel, P J; Malik, V; Mason, A E; Ravussin, E; Rosenbaum, M; Welsh, J A; Allister-Price, C; Sigala, D M; Greenwood, M R C; Astrup, Arne; Krauss, R M.

In: Obesity Reviews, Vol. 19, No. 9, 2018, p. 1205-1235.

Research output: Contribution to journal › Review › Research › peer-review

Harvard

Stanhope, KL, Goran, MI, Bosy-Westphal, A, King, JC, Schmidt, LA, Schwarz, J-M, Stice, E, Sylvetsky, AC, Turnbaugh, PJ, Bray, GA, Gardner, CD, Havel, PJ, Malik, V, Mason, AE, Ravussin, E, Rosenbaum, M, Welsh, JA, Allister-Price, C, Sigala, DM, Greenwood, MRC, Astrup, A & Krauss, RM 2018, 'Pathways and mechanisms linking dietary components to cardiometabolic disease: thinking beyond calories', Obesity Reviews, vol. 19, no. 9, pp. 1205-1235. https://doi.org/10.1111/obr.12699

APA

Stanhope, K. L., Goran, M. I., Bosy-Westphal, A., King, J. C., Schmidt, L. A., Schwarz, J-M., Stice, E., Sylvetsky, A. C., Turnbaugh, P. J., Bray, G. A., Gardner, C. D., Havel, P. J., Malik, V., Mason, A. E., Ravussin, E., Rosenbaum, M., Welsh, J. A., Allister-Price, C., Sigala, D. M., ... Krauss, R. M. (2018). Pathways and mechanisms linking dietary components to cardiometabolic disease: thinking beyond calories. Obesity Reviews, 19(9), 1205-1235. https://doi.org/10.1111/obr.12699

Vancouver

Stanhope KL, Goran MI, Bosy-Westphal A, King JC, Schmidt LA, Schwarz J-M et al. Pathways and mechanisms linking dietary components to cardiometabolic disease: thinking beyond calories. Obesity Reviews. 2018;19(9):1205-1235. https://doi.org/10.1111/obr.12699

Author

Stanhope, K L ; Goran, M I ; Bosy-Westphal, A ; King, J C ; Schmidt, L A ; Schwarz, J-M ; Stice, E ; Sylvetsky, A C ; Turnbaugh, P J ; Bray, G A ; Gardner, C D ; Havel, P J ; Malik, V ; Mason, A E ; Ravussin, E ; Rosenbaum, M ; Welsh, J A ; Allister-Price, C ; Sigala, D M ; Greenwood, M R C ; Astrup, Arne ; Krauss, R M. / Pathways and mechanisms linking dietary components to cardiometabolic disease : thinking beyond calories. In: Obesity Reviews. 2018 ; Vol. 19, No. 9. pp. 1205-1235.

Bibtex

@article{ea7e4ea3f0b149159b145efcc9f6a9f1,

title = "Pathways and mechanisms linking dietary components to cardiometabolic disease: thinking beyond calories",

abstract = "Calories from any food have the potential to increase risk for obesity and cardiometabolic disease because all calories can directly contribute to positive energy balance and fat gain. However, various dietary components or patterns may promote obesity and cardiometabolic disease by additional mechanisms that are not mediated solely by caloric content. Researchers explored this topic at the 2017 CrossFit Foundation Academic Conference 'Diet and Cardiometabolic Health - Beyond Calories', and this paper summarizes the presentations and follow-up discussions. Regarding the health effects of dietary fat, sugar and non-nutritive sweeteners, it is concluded that food-specific saturated fatty acids and sugar-sweetened beverages promote cardiometabolic diseases by mechanisms that are additional to their contribution of calories to positive energy balance and that aspartame does not promote weight gain. The challenges involved in conducting and interpreting clinical nutritional research, which preclude more extensive conclusions, are detailed. Emerging research is presented exploring the possibility that responses to certain dietary components/patterns are influenced by the metabolic status, developmental period or genotype of the individual; by the responsiveness of brain regions associated with reward to food cues; or by the microbiome. More research regarding these potential 'beyond calories' mechanisms may lead to new strategies for attenuating the obesity crisis.",

keywords = "Faculty of Science, Cardiometabolic disease, Dietary fat, Dietary sugar, Obesity",

author = "Stanhope, {K L} and Goran, {M I} and A Bosy-Westphal and King, {J C} and Schmidt, {L A} and J-M Schwarz and E Stice and Sylvetsky, {A C} and Turnbaugh, {P J} and Bray, {G A} and Gardner, {C D} and Havel, {P J} and V Malik and Mason, {A E} and E Ravussin and M Rosenbaum and Welsh, {J A} and C Allister-Price and Sigala, {D M} and Greenwood, {M R C} and Arne Astrup and Krauss, {R M}",

note = "CURIS 2018 NEXS 171",

year = "2018",

doi = "10.1111/obr.12699",

language = "English",

volume = "19",

pages = "1205--1235",

journal = "Obesity Reviews",

issn = "1467-7881",

publisher = "Wiley-Blackwell",

number = "9",

}

RIS

TY - JOUR

T1 - Pathways and mechanisms linking dietary components to cardiometabolic disease

T2 - thinking beyond calories

AU - Stanhope, K L

AU - Goran, M I

AU - Bosy-Westphal, A

AU - King, J C

AU - Schmidt, L A

AU - Schwarz, J-M

AU - Stice, E

AU - Sylvetsky, A C

AU - Turnbaugh, P J

AU - Bray, G A

AU - Gardner, C D

AU - Havel, P J

AU - Malik, V

AU - Mason, A E

AU - Ravussin, E

AU - Rosenbaum, M

AU - Welsh, J A

AU - Allister-Price, C

AU - Sigala, D M

AU - Greenwood, M R C

AU - Astrup, Arne

AU - Krauss, R M

N1 - CURIS 2018 NEXS 171

PY - 2018

Y1 - 2018

N2 - Calories from any food have the potential to increase risk for obesity and cardiometabolic disease because all calories can directly contribute to positive energy balance and fat gain. However, various dietary components or patterns may promote obesity and cardiometabolic disease by additional mechanisms that are not mediated solely by caloric content. Researchers explored this topic at the 2017 CrossFit Foundation Academic Conference 'Diet and Cardiometabolic Health - Beyond Calories', and this paper summarizes the presentations and follow-up discussions. Regarding the health effects of dietary fat, sugar and non-nutritive sweeteners, it is concluded that food-specific saturated fatty acids and sugar-sweetened beverages promote cardiometabolic diseases by mechanisms that are additional to their contribution of calories to positive energy balance and that aspartame does not promote weight gain. The challenges involved in conducting and interpreting clinical nutritional research, which preclude more extensive conclusions, are detailed. Emerging research is presented exploring the possibility that responses to certain dietary components/patterns are influenced by the metabolic status, developmental period or genotype of the individual; by the responsiveness of brain regions associated with reward to food cues; or by the microbiome. More research regarding these potential 'beyond calories' mechanisms may lead to new strategies for attenuating the obesity crisis.

AB - Calories from any food have the potential to increase risk for obesity and cardiometabolic disease because all calories can directly contribute to positive energy balance and fat gain. However, various dietary components or patterns may promote obesity and cardiometabolic disease by additional mechanisms that are not mediated solely by caloric content. Researchers explored this topic at the 2017 CrossFit Foundation Academic Conference 'Diet and Cardiometabolic Health - Beyond Calories', and this paper summarizes the presentations and follow-up discussions. Regarding the health effects of dietary fat, sugar and non-nutritive sweeteners, it is concluded that food-specific saturated fatty acids and sugar-sweetened beverages promote cardiometabolic diseases by mechanisms that are additional to their contribution of calories to positive energy balance and that aspartame does not promote weight gain. The challenges involved in conducting and interpreting clinical nutritional research, which preclude more extensive conclusions, are detailed. Emerging research is presented exploring the possibility that responses to certain dietary components/patterns are influenced by the metabolic status, developmental period or genotype of the individual; by the responsiveness of brain regions associated with reward to food cues; or by the microbiome. More research regarding these potential 'beyond calories' mechanisms may lead to new strategies for attenuating the obesity crisis.

KW - Faculty of Science

KW - Cardiometabolic disease

KW - Dietary fat

KW - Dietary sugar

KW - Obesity

U2 - 10.1111/obr.12699

DO - 10.1111/obr.12699

M3 - Review

C2 - 29761610

VL - 19

SP - 1205

EP - 1235

JO - Obesity Reviews

JF - Obesity Reviews

SN - 1467-7881

IS - 9

ER -

ID: 196466867