Header

UZH-Logo

Maintenance Infos

Browse by Creators

Navigate back| Up a level
Export as
Number of items: 7.

Fenske, W K; Bueter, M; Miras, A D; Ghatei, M A; Bloom, S R; le Roux, C W (2012). Exogenous peptide YY3-36 and Exendin-4 further decrease food intake, whereas octreotide increases food intake in rats after Roux-en-Y gastric bypass. International Journal of Obesity, 36(3):379-384.

Bueter, M; Miras, A D; Chichger, H; Fenske, W; Ghatei, M A; Bloom, S R; Unwin, R J; Lutz, T A; Spector, A C; le Roux, C W (2011). Alterations of sucrose preference after Roux-en-Y gastric bypass. Physiology & Behavior, 104(5):709-721.

Ashrafian, H; Athanasiou, T; Li, J V; Bueter, M; Ahmed, K; Nagpal, K; Holmes, E; Darzi, A; Bloom, S R (2011). Diabetes resolution and hyperinsulinaemia after metabolic Roux-en-Y gastric bypass. Obesity Reviews, 12(5):e257-e272.

Le Roux, C W; Bueter, M; Theis, N; Werling, M; Ashrafian, H; Löwenstein, C; Athanasiou, T; Bloom, S R; Spector, A C; Olbers, T; Lutz, T A (2011). Gastric bypass reduces fat intake and preference. American Journal of Physiology. Regulatory, Integrative and Comparative Physiology, 301(4):R1057-66.

Li, J V; Ashrafian, H; Bueter, M; Kinross, J; Sands, C; le Roux, C W; Bloom, S R; Darzi, A; Athanasiou, T; Marchesi, J R; Nicholson, J K; Holmes, E (2011). Metabolic surgery profoundly influences gut microbial-host metabolic cross-talk. Gut, 60(9):1214-1223.

Bueter, M; Löwenstein, C; Olbers, T; Wang, M; Cluny, N L; Bloom, S R; Sharkey, K A; Lutz, T A; le Roux, C W (2010). Gastric bypass increases energy expenditure in rats. Gastroenterology, 138(5):1845-1853.e1.

Bueter, M; Löwenstein, C; Ashrafian, H; Hillebrand, J; Bloom, S R; Olbers, T; Lutz, T A; le Roux, C W (2010). Vagal sparing surgical technique but not stoma size affects body weight loss in rodent model of gastric bypass. Obesity Surgery, 20(5):616-622.

This list was generated on Thu Oct 19 23:05:43 2017 CEST.