Figures index

From

Amelioration of Mugwort on the Obesity and Dyslipidemia Induced by High-Fat Diet

Min-Ah Kim, Kye Won Park, Mi-Ja Kim

Journal of Food and Nutrition Research. 2019, 7(10), 736-741 doi:10.12691/jfnr-7-10-7
  • Figure 1. Mugwort supplementation on epididymal fat tissues in high fat diet induced obese mouse. (A STD, standard diet fed group; B HFD, high fat diet fed group, C HFD+MW1%, high fat diet supplement with 1% Mugwort, D HFD+MW3%, high fat diet supplement with 3% Mugwort. Scale bar represents 50 μm.)
  • Figure 2. Changes of glucose concentration (A) and tolerance (B) in high fat diet induced obese mouse fed with Mugwort. (STD, standard diet fed group; HFD, high fat diet fed group, HFD+MW1%, high fat diet supplement with 1% Mugwort, HFD+MW3%, high fat diet supplement with 3% Mugwort. Different letters denote means significant differences among groups (p<0.05).)
  • Figure 3. Effects of Mugwort supplement on blood AST and ALT (A) and hepatic tissue morphology (B) in high fat diet induced obese mouse. (A) Blood concentrations of AST and ALT in high fat diet induced obesity model. B) Hepatic tissue morphology in diet induced obesity model. A: STD, standard diet fed group; B: HFD, high fat diet fed group, C: HFD+MW1%, high fat diet supplement with 1% Mugwort, D: HFD+MW3%, high fat diet supplement with 3% Mugwort. Different letters denote means significant differences among groups (p<0.05). Scale bar represents 50 μm.)
  • Figure 4. Fat accumulating genes expression (A) and optical densities (B) in epididymal fat tissues of high fat diet induced obese mouse fed with Mugwort. (A) A: STD, standard diet fed group; B: HFD, high fat diet fed group, C: HFD+MW1%, high fat diet supplement with 1% Mugwort, D: HFD+MW3%, high fat diet supplement with 3% Mugwort. B) Optical densities of genes expression related to fat accumulation in epididymal fat tissues of high fat diet induced obesity model.