Understanding the metabolic pathways is crucial for elucidating changes during metabolic challenges. The metabolic responses to stress and exercise are intricate processes with numerous correlated variables. And the need to understand this elaborate map leads us to the need for cellular and a systemic overview, i.e. a typical “-omic” approach. The suffix "-omics" refers to a field of research in the life sciences that emphasizes humongous data and information to understand life, which is summarized as "-omics" such as proteomics, genomics, metabolomics, interactomics, and sportomics. Multi“-omics” techniques are cutting-edge frameworks that combine several "-omics" datasets created from the same individuals or conditions. “-Omics” and multi“-omics” tactics can help us to understand changes due to metabolism and nutrition in response to training, competition, and doping offenses, especially when comprehensively analyzed with statistical and artificial intelligence algorithms and computational biology workflows.
This Research Topic aims to discuss pathways (absorption, metabolism, pharmacokinetics, and pharmacodynamics) that can be important for understanding the metabolism during the response to exercise, training, and competitions. We also intend to examine how these routes can be helpful in the recognition of physiological patterns compared to doping ones.
We welcome articles (Original Research, Review, Mini Review, Brief Research Reports, Perspective, Conceptual Analysis, N-of-1 trials, and Opinion) that cover one or more of the following themes:
• “-omic” and multi“-omics” approaches;
• Absorption, metabolism, pharmacokinetics, and pharmacodynamics of molecules;
• Data mining and big data analysis;
• Molecular or systemic mechanisms;
• Systems biology;
• Translational medicine;
• Personalized medicine and Patient-Centered Care.
All the above must be related to nutrition and metabolism during exercise, sports, or doping. The above-mentioned potential topics are suggestions; other relevant topics will be considered.
Topic Editor LC is a consultant about doping offenses. All other Topic Editors declare no competing interests with regards to the Research Topic subject.
Understanding the metabolic pathways is crucial for elucidating changes during metabolic challenges. The metabolic responses to stress and exercise are intricate processes with numerous correlated variables. And the need to understand this elaborate map leads us to the need for cellular and a systemic overview, i.e. a typical “-omic” approach. The suffix "-omics" refers to a field of research in the life sciences that emphasizes humongous data and information to understand life, which is summarized as "-omics" such as proteomics, genomics, metabolomics, interactomics, and sportomics. Multi“-omics” techniques are cutting-edge frameworks that combine several "-omics" datasets created from the same individuals or conditions. “-Omics” and multi“-omics” tactics can help us to understand changes due to metabolism and nutrition in response to training, competition, and doping offenses, especially when comprehensively analyzed with statistical and artificial intelligence algorithms and computational biology workflows.
This Research Topic aims to discuss pathways (absorption, metabolism, pharmacokinetics, and pharmacodynamics) that can be important for understanding the metabolism during the response to exercise, training, and competitions. We also intend to examine how these routes can be helpful in the recognition of physiological patterns compared to doping ones.
We welcome articles (Original Research, Review, Mini Review, Brief Research Reports, Perspective, Conceptual Analysis, N-of-1 trials, and Opinion) that cover one or more of the following themes:
• “-omic” and multi“-omics” approaches;
• Absorption, metabolism, pharmacokinetics, and pharmacodynamics of molecules;
• Data mining and big data analysis;
• Molecular or systemic mechanisms;
• Systems biology;
• Translational medicine;
• Personalized medicine and Patient-Centered Care.
All the above must be related to nutrition and metabolism during exercise, sports, or doping. The above-mentioned potential topics are suggestions; other relevant topics will be considered.
Topic Editor LC is a consultant about doping offenses. All other Topic Editors declare no competing interests with regards to the Research Topic subject.