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Results: 1 to 20 of 3102

1.

The role of protein in weight loss and maintenance.

Leidy HJ, Clifton PM, Astrup A, Wycherley TP, Westerterp-Plantenga MS, Luscombe-Marsh ND, Woods SC, Mattes RD.

Am J Clin Nutr. 2015 Apr 29. pii: ajcn084038. [Epub ahead of print]

PMID:
25926512
2.

Physiological adaptations to weight loss and factors favouring weight regain.

Greenway FL.

Int J Obes (Lond). 2015 Apr 21. doi: 10.1038/ijo.2015.59. [Epub ahead of print] Review.

PMID:
25896063
3.
4.

Propensity to obesity impacts the neuronal response to energy imbalance.

Cornier MA, McFadden KL, Thomas EA, Bechtell JL, Bessesen DH, Tregellas JR.

Front Behav Neurosci. 2015 Feb 26;9:52. doi: 10.3389/fnbeh.2015.00052. eCollection 2015.

5.

Higher-protein diets are associated with higher HDL cholesterol and lower BMI and waist circumference in US adults.

Pasiakos SM, Lieberman HR, Fulgoni VL 3rd.

J Nutr. 2015 Mar;145(3):605-14. doi: 10.3945/jn.114.205203. Epub 2015 Jan 21.

PMID:
25733478
6.

Eicosapentaenoic acid reduces adipocyte hypertrophy and inflammation in diet-induced obese mice in an adiposity-independent manner.

LeMieux MJ, Kalupahana NS, Scoggin S, Moustaid-Moussa N.

J Nutr. 2015 Mar;145(3):411-7. doi: 10.3945/jn.114.202952. Epub 2014 Dec 31.

PMID:
25733455
7.

Role of thyroid hormone homeostasis in obesity-prone and obesity-resistant mice fed a high-fat diet.

Xia SF, Duan XM, Hao LY, Li LT, Cheng XR, Xie ZX, Qiao Y, Li LR, Tang X, Shi YH, Le GW.

Metabolism. 2015 May;64(5):566-79. doi: 10.1016/j.metabol.2014.12.010. Epub 2015 Jan 6.

PMID:
25669855
8.

Plant-rich mixed meals based on Palaeolithic diet principles have a dramatic impact on incretin, peptide YY and satiety response, but show little effect on glucose and insulin homeostasis: an acute-effects randomised study.

Bligh HF, Godsland IF, Frost G, Hunter KJ, Murray P, MacAulay K, Hyliands D, Talbot DC, Casey J, Mulder TP, Berry MJ.

Br J Nutr. 2015 Feb 28;113(4):574-84. doi: 10.1017/S0007114514004012. Epub 2015 Feb 9.

PMID:
25661189
9.

Wheat alkylresorcinols suppress high-fat, high-sucrose diet-induced obesity and glucose intolerance by increasing insulin sensitivity and cholesterol excretion in male mice.

Oishi K, Yamamoto S, Itoh N, Nakao R, Yasumoto Y, Tanaka K, Kikuchi Y, Fukudome S, Okita K, Takano-Ishikawa Y.

J Nutr. 2015 Feb;145(2):199-206. doi: 10.3945/jn.114.202754. Epub 2014 Nov 26.

PMID:
25644338
10.

Leptin and insulin act on POMC neurons to promote the browning of white fat.

Dodd GT, Decherf S, Loh K, Simonds SE, Wiede F, Balland E, Merry TL, Münzberg H, Zhang ZY, Kahn BB, Neel BG, Bence KK, Andrews ZB, Cowley MA, Tiganis T.

Cell. 2015 Jan 15;160(1-2):88-104. doi: 10.1016/j.cell.2014.12.022.

PMID:
25594176
11.

Lack of glucagon receptor signaling and its implications beyond glucose homeostasis.

Charron MJ, Vuguin PM.

J Endocrinol. 2015 Mar;224(3):R123-30. doi: 10.1530/JOE-14-0614. Epub 2015 Jan 7. Review.

12.

Central Sirt1 regulates body weight and energy expenditure along with the POMC-derived peptide α-MSH and the processing enzyme CPE production in diet-induced obese male rats.

Cyr NE, Steger JS, Toorie AM, Yang JZ, Stuart R, Nillni EA.

Endocrinology. 2015 Mar;156(3):961-74. doi: 10.1210/en.2014-1970. Epub 2014 Dec 30.

PMID:
25549049
13.

Chronic oxytocin administration inhibits food intake, increases energy expenditure, and produces weight loss in fructose-fed obese rhesus monkeys.

Blevins JE, Graham JL, Morton GJ, Bales KL, Schwartz MW, Baskin DG, Havel PJ.

Am J Physiol Regul Integr Comp Physiol. 2015 Mar 1;308(5):R431-8. doi: 10.1152/ajpregu.00441.2014. Epub 2014 Dec 24.

PMID:
25540103
14.

High vitamin D and calcium intakes increase bone mineral (Ca and P) content in high-fat diet-induced obese mice.

Song Q, Sergeev IN.

Nutr Res. 2015 Feb;35(2):146-54. doi: 10.1016/j.nutres.2014.11.003. Epub 2014 Dec 2.

PMID:
25530010
15.

Prostate hyperplasia caused by long-term obesity is characterized by high deposition of extracellular matrix and increased content of MMP-9 and VEGF.

Silva SA, Gobbo MG, Pinto-Fochi ME, Rafacho A, Taboga SR, Almeida EA, Góes RM, Ribeiro DL.

Int J Exp Pathol. 2015 Feb;96(1):21-30. doi: 10.1111/iep.12107. Epub 2014 Dec 21.

PMID:
25529509
16.

A lower-carbohydrate, higher-fat diet reduces abdominal and intermuscular fat and increases insulin sensitivity in adults at risk of type 2 diabetes.

Gower BA, Goss AM.

J Nutr. 2015 Jan;145(1):177S-83S. doi: 10.3945/jn.114.195065. Epub 2014 Dec 3.

PMID:
25527677
17.

Gut microbiota and energy balance: role in obesity.

Blaut M.

Proc Nutr Soc. 2014 Dec 18:1-8. [Epub ahead of print]

PMID:
25518735
18.

Adult exercise effects on oxidative stress and reproductive programming in male offspring of obese rats.

Santos M, Rodríguez-González GL, Ibáñez C, Vega CC, Nathanielsz PW, Zambrano E.

Am J Physiol Regul Integr Comp Physiol. 2015 Feb 1;308(3):R219-25. doi: 10.1152/ajpregu.00398.2014. Epub 2014 Dec 10.

PMID:
25502750
19.

Leptin resistance and diet-induced obesity: central and peripheral actions of leptin.

Sáinz N, Barrenetxe J, Moreno-Aliaga MJ, Martínez JA.

Metabolism. 2015 Jan;64(1):35-46. doi: 10.1016/j.metabol.2014.10.015. Epub 2014 Oct 23. Review.

PMID:
25497342
20.

Changes in leptin and peptide YY do not explain the greater-than-predicted decreases in resting energy expenditure after weight loss.

McNeil J, Schwartz A, Rabasa-Lhoret R, Lavoie JM, Brochu M, Doucet É.

J Clin Endocrinol Metab. 2015 Mar;100(3):E443-52. doi: 10.1210/jc.2014-2210. Epub 2014 Dec 12.

PMID:
25494860
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