Consuming sucrose-or HFCS-sweetened beverages increases hepatic lipid and decreases insulin sensitivity in adults
DM Sigala, B Hieronimus, V Medici… - The Journal of …, 2021 - academic.oup.com
Context Studies in rodents and humans suggest that high-fructose corn syrup (HFCS)–
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
[HTML][HTML] Consuming Sucrose-or HFCS-sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults
DM Sigala, B Hieronimus, V Medici, V Lee… - The Journal of …, 2021 - ncbi.nlm.nih.gov
Objective To compare the effects of consuming sucrose-sweetened beverage (SB), HFCS-
SB, or a control beverage sweetened with aspartame on metabolic outcomes in humans …
SB, or a control beverage sweetened with aspartame on metabolic outcomes in humans …
Consuming Sucrose-or HFCS-sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults.
DM Sigala, B Hieronimus, V Medici, V Lee… - The Journal of clinical …, 2021 - escholarship.org
ContextStudies in rodents and humans suggest that high-fructose corn syrup (HFCS)-
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
Consuming Sucrose-or HFCS-sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults.
DM Sigala, B Hieronimus, V Medici, V Lee… - The Journal of …, 2021 - europepmc.org
Objective To compare the effects of consuming sucrose-sweetened beverage (SB), HFCS-
SB, or a control beverage sweetened with aspartame on metabolic outcomes in humans …
SB, or a control beverage sweetened with aspartame on metabolic outcomes in humans …
Consuming Sucrose-or HFCS-sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults
DM Sigala, B Hieronimus, V Medici… - The Journal of …, 2021 - pubmed.ncbi.nlm.nih.gov
Context Studies in rodents and humans suggest that high-fructose corn syrup (HFCS)-
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
[PDF][PDF] Consuming Sucrose-or HFCS-sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults
DM Sigala, B Hieronimus, V Medici… - The Journal of …, 2021 - academic.oup.com
Context Studies in rodents and humans suggest that high-fructose corn syrup (HFCS)–
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
Consuming Sucrose-or HFCS-Sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults
DM Sigala, B Hieronimus, V Medici… - The Journal of …, 2021 - touroscholar.touro.edu
"Consuming Sucrose- or HFCS-Sweetened Beverages Increases Hepatic Lipid" by Desiree
M. Sigala, Bettina Hieronimus et al. Home Search Browse Collections My Account About …
M. Sigala, Bettina Hieronimus et al. Home Search Browse Collections My Account About …
Consuming sucrose-or HFCS-sweetened beverages increases hepatic lipid and decreases insulin sensitivity in adults.
DM Sigala, B Hieronimus, V Medici, V Lee, MV Nunez… - 2021 - cabidigitallibrary.org
Context: Studies in rodents and humans suggest that high-fructose corn syrup (HFCS)-
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
sweetened diets promote greater metabolic dysfunction than sucrose-sweetened diets …
Consuming Sucrose-or HFCS-sweetened Beverages Increases Hepatic Lipid and Decreases Insulin Sensitivity in Adults.
DM Sigala, B Hieronimus, V Medici, V Lee… - The Journal of …, 2021 - europepmc.org
Objective To compare the effects of consuming sucrose-sweetened beverage (SB), HFCS-
SB, or a control beverage sweetened with aspartame on metabolic outcomes in humans …
SB, or a control beverage sweetened with aspartame on metabolic outcomes in humans …