TY - JOUR
T1 - Effects of Soluble Dextrin Fiber from Potato Starch on Body Weight and Associated Gut Dysbiosis Are Evident in Western Diet-Fed Mice but Not in Overweight/Obese Children
AU - Czarnowski, Paweł
AU - Bałabas, Aneta
AU - Kułaga, Zbigniew
AU - Kulecka, Maria
AU - Goryca, Krzysztof
AU - Pyśniak, Kazimiera
AU - Unrug-Bielawska, Katarzyna
AU - Kluska, Anna
AU - Bagińska-Drabiuk, Katarzyna
AU - Głowienka-Stodolak, Maria
AU - Piątkowska, Magdalena
AU - Dąbrowska, Michalina
AU - Żeber-Lubecka, Natalia
AU - Wierzbicka-Rucińska, Aldona
AU - Kotowska, Aneta
AU - Więckowski, Sebastian
AU - Mikula, Michał
AU - Kapuśniak, Janusz
AU - Socha, Piotr
AU - Ostrowski, Jerzy
N1 - Publisher Copyright:
© 2024 by the authors.
PY - 2024/4
Y1 - 2024/4
N2 - Background: The study investigated the impact of starch degradation products (SDexF) as prebiotics on obesity management in mice and overweight/obese children. Methods: A total of 48 mice on a normal diet (ND) and 48 on a Western diet (WD) were divided into subgroups with or without 5% SDexF supplementation for 28 weeks. In a human study, 100 overweight/obese children were randomly assigned to prebiotic and control groups, consuming fruit and vegetable mousse with or without 10 g of SDexF for 24 weeks. Stool samples were analyzed for microbiota using 16S rRNA gene sequencing, and short-chain fatty acids (SCFA) and amino acids (AA) were assessed. Results: Results showed SDexF slowed weight gain in female mice on both diets but only temporarily in males. It altered bacterial diversity and specific taxa abundances in mouse feces. In humans, SDexF did not influence weight loss or gut microbiota composition, showing minimal changes in individual taxa. The anti-obesity effect observed in mice with WD-induced obesity was not replicated in children undergoing a weight-loss program. Conclusions: SDexF exhibited sex-specific effects in mice but did not impact weight loss or microbiota composition in overweight/obese children.
AB - Background: The study investigated the impact of starch degradation products (SDexF) as prebiotics on obesity management in mice and overweight/obese children. Methods: A total of 48 mice on a normal diet (ND) and 48 on a Western diet (WD) were divided into subgroups with or without 5% SDexF supplementation for 28 weeks. In a human study, 100 overweight/obese children were randomly assigned to prebiotic and control groups, consuming fruit and vegetable mousse with or without 10 g of SDexF for 24 weeks. Stool samples were analyzed for microbiota using 16S rRNA gene sequencing, and short-chain fatty acids (SCFA) and amino acids (AA) were assessed. Results: Results showed SDexF slowed weight gain in female mice on both diets but only temporarily in males. It altered bacterial diversity and specific taxa abundances in mouse feces. In humans, SDexF did not influence weight loss or gut microbiota composition, showing minimal changes in individual taxa. The anti-obesity effect observed in mice with WD-induced obesity was not replicated in children undergoing a weight-loss program. Conclusions: SDexF exhibited sex-specific effects in mice but did not impact weight loss or microbiota composition in overweight/obese children.
KW - animal and human studies
KW - gut metabolites
KW - gut microbiome
KW - obesity
KW - soluble dextrin fiber
UR - https://www.scopus.com/pages/publications/85202624339
U2 - 10.3390/nu16070917
DO - 10.3390/nu16070917
M3 - Article
AN - SCOPUS:85202624339
SN - 2072-6643
VL - 16
JO - Nutrients
JF - Nutrients
IS - 7
M1 - 917
ER -
