Pages that link to "Q48715147"

The following pages link to Chemical lesion of visceral afferents causes transient overconsumption of unfamiliar high-fat diets in rats (Q48715147):

Displaying 16 items.

• The lipoprivic control of feeding is governed by fat metabolism, not by leptin or adipose depletion (Q33848237) (← links)
• Capsaicin induces "brite" phenotype in differentiating 3T3-L1 preadipocytes (Q33967275) (← links)
• Reduced intestinal brain-derived neurotrophic factor increases vagal sensory innervation of the intestine and enhances satiation (Q33969842) (← links)
• The gut and food intake: an update for surgeons. (Q34621785) (← links)
• Capsaicin treatment differentially affects feeding suppression by bombesin-like peptides (Q36137751) (← links)
• Factors regulating vagal sensory development: potential role in obesities of developmental origin (Q36683793) (← links)
• Thoracic cross-over pathways of the rat vagal trunks (Q37086773) (← links)
• Loss of neurotrophin-3 from smooth muscle disrupts vagal gastrointestinal afferent signaling and satiation. (Q37440620) (← links)
• Vagal afferent controls of feeding: a possible role for gastrointestinal BDNF (Q38020318) (← links)
• Molecular anatomy of the gut-brain axis revealed with transgenic technologies: implications in metabolic research (Q38126485) (← links)
• Capsaicin-treated rats permanently overingest low- but not high-concentration sucrose solutions (Q40741901) (← links)
• Nav1.8 neurons are involved in limiting acute phase responses to dietary fat. (Q42377888) (← links)
• Afferent signalling through the common hepatic branch of the vagus inhibits voluntary lard intake and modifies plasma metabolite levels in rats (Q43633122) (← links)
• Effects of perivagal administration of capsaicin on post-surgical food intake (Q44555024) (← links)
• Neurotrophin-4 deficient mice have a loss of vagal intraganglionic mechanoreceptors from the small intestine and a disruption of short-term satiety. (Q48740730) (← links)
• Subdiaphragmatic Vagotomy With Pyloroplasty Ameliorates the Obesity Caused by Genetic Deletion of the Melanocortin 4 Receptor in the Mouse (Q51739543) (← links)