Inhibitory effects of intestinal electrical stimulation on food intake, weight loss and gastric emptying in rats.

@article{Yin2007InhibitoryEO,
  title={Inhibitory effects of intestinal electrical stimulation on food intake, weight loss and gastric emptying in rats.},
  author={Jieyun Yin and Jing Zhang and Jiande D. Z. Chen},
  journal={American journal of physiology. Regulatory, integrative and comparative physiology},
  year={2007},
  volume={293 1},
  pages={
          R78-82
        }
}
The aim was to investigate the effects of intestinal electrical stimulation (IES) on food intake, body weight, and gastric emptying in rats. An experiment on food intake and weight change was performed in 22 rats on a control diet and 10 diet-induced obese (DIO) rats for 4 wk with IES or sham IES. The effect of IES on gastric emptying was performed in another 20 rats in the control group. We found that 1) in control rats, 4-wk IES resulted in a reduction of 18.2% in the total amount of food… 
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31 Citations
Background Citations
9
Methods Citations
3
Results Citations
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31 Citations

Citation Type

Citation Type

An Optimized IES Method and Its Inhibitory Effects and Mechanisms on Food Intake and Body Weight in Diet-Induced Obese Rats: IES for Obesity
TLDR
Twelve-hour daily IES using optimized stimulation parameters reduces food intake and body weight in DIO rats by altering gastrointestinal motility and GLP-1 and may have a therapeutic potential for obesity.
Pulse Width-Dependent Effects of Intestinal Electrical Stimulation for Obesity: Role of Gastrointestinal Motility and Hormones
TLDR
IES pulse width-dependently reduces food intake and body weight, attributed to the delay of gastric emptying and the acceleration of small bowel transit, as well as the enhancement of GLP-1 secretion.
Intestinal Electrical Stimulation Alters Hypothalamic Expression of Oxytocin and Orexin and Ameliorates Diet-Induced Obesity in Rats
TLDR
IES reduces food intake and body weight and improves glucose tolerance and insulin sensitivity in DIO rats and its central mechanisms involve enhancement of anorexigenic peptides and suppression of orexigenic Peptide-containing neurons in the hypothalamus.
Duodenum Electrical Stimulation Delays Gastric Emptying, Reduces Food Intake and Accelerates Small Bowel Transit in Pigs
TLDR
Investigation in pigs found that DES reduces body weight gain in obese pigs, and this therapeutic effect on obesity is mediated by inhibiting gastric emptying and food intake, and may also possibly by accelerating intestinal transit.
Colon Electrical Stimulation: Potential Use for Treatment of Obesity
TLDR
It is found that CES reduces food intake in healthy dogs and the anorexigenic effect may be attributed to its inhibitory effects on gastric emptying and intestinal motility, mediated via the autonomic mechanisms.
Intestinal Electric Stimulation Accelerates Whole Gut Transit and Promotes Fat Excrement in Conscious Rats
TLDR
Findings are in support of the concept that IES may be a promising treatment option for obesity, and these effects are mediated through the cholinergic nerves.
Inhibitory effects and mechanisms of intestinal electrical stimulation on gastric tone, antral contractions, pyloric tone, and gastric emptying in dogs.
TLDR
In conclusion, IES reduces gastric tone via the nitrergic pathway, inhibits antral contractions via the adrenergic pathway, does not affect pyloric tone, and delays liquid gastric emptying.
Hypoglycemic Effects of Intestinal Electrical Stimulation by Enhancing Nutrient-Stimulated Secretion of GLP-1 in Rats
TLDR
The best stimulation location for IES to decrease hyperglycemia is in the duodenum, and the hypoglycemic effect of IES is attributed to the enhancement in nutrient-stimulated release of GLP-1.
Central neuronal mechanisms of intestinal electrical stimulation: Effects on duodenum distention-responsive (DD-R) neurons in the VMH of rats
Intestinal electrical stimulation attenuates hyperglycemia and prevents loss of pancreatic β cells in type 2 diabetic Goto–Kakizaki rats
TLDR
This study proved the hypoglycemic effect of IES in a rodent model of type 2 diabetes, possibly attributed to the increasing GLP-1 secretion and improvement in β-cell functions.
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References

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TLDR
RGES at a tachygastrial frequency reduces food intake and results in weight loss in obese Zucker rats, and its effect is probably attributed to the introduction of tachyGastria in the stomach.
Gastric or intestinal electrical stimulation-induced increase in gastric volume is correlated with reduced food intake
TLDR
The GES-induced increase in gastric volume (or reduced gastric tone) is correlated with reduced food intake during GES/IES, which reduces food intake and increases gastricVolume measured by barostat.
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TLDR
It was concluded that IES accelerates intestinal transit and reduces fat absorption, suggesting a therapeutic potential for obesity.
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TLDR
The effects of duodenal electrical stimulation (DES) on gastric emptying and water intake in healthy humans may have a potential application for the treatment of obesity.
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TLDR
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Central neuronal mechanisms of intestinal electrical stimulation: Effects on duodenum distention-responsive (DD-R) neurons in the VMH of rats
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TLDR
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