The effect of the high-fat diet supplemented with various forms of chromium on rats body composition, liver metabolism and organ histology Cr in liver metabolism and histology of selected organs

Abstrakt

ackground: In the present study, we hypothesized that feeding rats a high-fat diet negatively affects liver metabolism and function and disturbs the histology of some internal organs. We also postulated that there is a form of chromium whose administration alleviates the negative effects of a high-fat diet in rats. Methods: To verify the hypotheses, we tested the effect of various forms of chrome (picolinate – Cr-Pic, Chromium (III)-methionine complex – Cr-Met, and chrome nanoparticles – Cr-NPs) applied in the recommended amount of 0.3mg/kg of BW on growth parameters, body fat, liver metabolism and functional disorders, and histological parameters of selected internal organs in rats fed a standard (S) or high-fat diet (F). The experiment was con-ducted on 56 male outbred Wistar rats (Rattus norvegicus. Cmdb:WI) randomly divided into eight experimental groups. For eight weeks the rats received a standard or high-fat diet, without Cr or with Cr at 0.3mg/kg diet in the form of Cr-Pic, Cr-Met or Cr-NPs. Results and conclusion: The use of a F diet disrupted the lipid-carbohydrate profile, worsened liver metabolism and function, reduced the expression of hepatic PPAR-α and leaded to negative changes in the histological image of internal organs - liver, kidneys and pancreas. The 8-week use of an chromium supplement in a F diet, regardless of the form used, did not improve the ratio of fat tissue to lean tissue, worsened liver function and negatively affected on the histological image of the liver, kidneys and pancreas. However, the most negative changes in lipid-carbohydrate metabolism and liver functioning were observed with CrNPs supplementation.

Autorzy

Wojciech Dworzański
Wojciech Dworzański
Bartosz Fotschki
Bartosz Fotschki
Jerzy Juśkiewicz
Jerzy Juśkiewicz
artykuł
JOURNAL OF TRACE ELEMENTS IN MEDICINE AND BIOLOGY
Angielski
2021
64
126705
100
3,995
0
10