Qingtong Xie scite author profile

Nowadays, obesity in humans is a huge challenge requiring effective, readily available, and low-risk alternative treatments. Intake of edible Non-Digestible Polysaccharides (NDPs) is regarded as a promising strategy to combat obesity. Herein, an overview of the behavior of NDPs in the Gastrointestinal (GI) tract and its association with anti-obesity effect is summarized. Both the in vitro and in vivo of such investigations are discussed. Results show that NDPs can reach the large intestine to mediate the gut microbiota with the extent of regulation varies among NDPs with different chemical structures. The possible anti-obesity mechanisms associated with behavior of NDPs in the GI tract include: (i) inhibition of fat absorption, (ii) modification of gut microbiota and their metabolites such as short-chain fatty acids, (iii) regulation of bile acid profiles, (iv) modulation on appetite and satiety effect, and (v) protection of intestinal barrier. However, more efforts are required to clarify the exact behavior and their beneficial effects of NDPs within GI tract. This paper will provide an overlook of recent advances for better understanding anti-obesity activity of NDPs.

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Effect of Curcumin Addition on the Properties of Biodegradable Pectin/Chitosan Films

Xie

Zheng

et al. 2021

Molecules

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A pectin/chitosan matrix-loaded curcumin film (PCCF) with a deep eutectic solvent (DES) as the solvent and plasticizer was prepared in this study. Different quantities of curcumin (identified as PCCF-0, PCCF-1, PCCF-2. PCCF-3) were loaded on the pectin/chitosan film in order to evaluate their effects on the film properties. Results showed that curcumin could interact with the pectin/chitosan matrix and form a complex three-dimensional network structure. PCCF could promote the thickness, tensile strength, thermal properties, antioxidant and antiseptic capacities, but deteriorate the light transmission and elongation at the same time. The addition of curcumin would change the color of the film, without significantly affecting the moisture content. The tensile strength of PCCF-3 reached the maximum value of 3.75 MPa, while the elongation decreased to 10%. Meanwhile, the water-resistance properties of PCCF-3 were significantly promoted by 8.6% compared with that of PCCF-0. Furthermore, PCCF showed remarkable sustained antioxidant activities in a dose-dependent manner. PCCF-3 could inhibit DPPH and ABTS free radicals by 58.66% and 29.07%, respectively. It also showed antiseptic capacity on fresh pork during storage. Therefore, curcumin addition could improve the barrier, mechanical, antioxidant and antiseptic properties of the polysaccharide-based film and PCCF has the potential to be used as a new kind of food packaging material in the food industry.

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Digestion & fermentation characteristics of sulfated polysaccharides from Gracilaria chouae using two extraction methods in vitro and in vivo

Xiong

Xie

Huang

et al. 2021

Food Research International

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Development of Machine Learning Regression Model for COVID-19 Drug Target Prediction

Zamitalo

Xie

Allam

et al. 2022

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Qingtong Xie

Behavior of Non‐Digestible Polysaccharides in Gastrointestinal Tract: A Mechanistic Review of its Anti‐Obesity Effect

Effect of Curcumin Addition on the Properties of Biodegradable Pectin/Chitosan Films

Digestion & fermentation characteristics of sulfated polysaccharides from Gracilaria chouae using two extraction methods in vitro and in vivo

Development of Machine Learning Regression Model for COVID-19 Drug Target Prediction

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