Promethion Data
Access status:
Open Access
Type
DatasetAuthor/s
Mojadadi, AlbaraaAbstract
This study examines the metabolic effects of different selenium compounds in mice using Promethion metabolic data. Forty mice were divided into five groups, each containing eight mice: Control, Sodium Selenite, Methylselenocysteine, Diphenyl Diselenide, and Nanoselenium. Each group ...
See moreThis study examines the metabolic effects of different selenium compounds in mice using Promethion metabolic data. Forty mice were divided into five groups, each containing eight mice: Control, Sodium Selenite, Methylselenocysteine, Diphenyl Diselenide, and Nanoselenium. Each group was fed a diet supplemented with one of these selenium compounds. Promethion metabolic cages were used to collect detailed data on energy expenditure, activity levels, food intake, and respiratory exchange ratios over the course of the experiment. The resulting dataset provides a comprehensive view of how each selenium compound influences metabolic parameters in the mice. Analysis of this data reveals significant differences in metabolic profiles between the groups, highlighting the specific impacts of each selenium form on energy metabolism. This study's findings, derived from Promethion metabolic data, offer valuable insights into the metabolic consequences of dietary selenium supplementation, with potential implications for understanding the role of selenium in overall health and metabolic regulation.
See less
See moreThis study examines the metabolic effects of different selenium compounds in mice using Promethion metabolic data. Forty mice were divided into five groups, each containing eight mice: Control, Sodium Selenite, Methylselenocysteine, Diphenyl Diselenide, and Nanoselenium. Each group was fed a diet supplemented with one of these selenium compounds. Promethion metabolic cages were used to collect detailed data on energy expenditure, activity levels, food intake, and respiratory exchange ratios over the course of the experiment. The resulting dataset provides a comprehensive view of how each selenium compound influences metabolic parameters in the mice. Analysis of this data reveals significant differences in metabolic profiles between the groups, highlighting the specific impacts of each selenium form on energy metabolism. This study's findings, derived from Promethion metabolic data, offer valuable insights into the metabolic consequences of dietary selenium supplementation, with potential implications for understanding the role of selenium in overall health and metabolic regulation.
See less
Date
2024-08-16Faculty/School
Faculty of Medicine and Health, School of Medical SciencesDepartment, Discipline or Centre
Redox BiologySubjects
Promethion metabolic dataShare