The complex relationships between metabolism, inflammation, and oxidative stress are key factors in the development and progression of metabolic disorders, including obesity, type 2 diabetes , cardiovascular disease, and kidney diseases. Altered metabolic pathways, heightened inflammatory responses, and oxidative stress contribute to the dysregulation of cellular and physiological processes, ultimately culminating in the onset of these diverse metabolic conditions. Unraveling the molecular crosstalk and interdependencies among metabolism, inflammation, and oxidative stress holds the promise of unlocking novel insights into disease etiology and paving the way for innovative therapeutic strategies aimed at mitigating the burden of these multifaceted disorders on public health.This Research Topic aims to offer a contemporary and comprehensive exploration into the intricate associations linking metabolism, inflammation, and oxidative stress and their role in the development of metabolic diseases, as well asits treatment therapeutically. We invite submissions of both original research and review articles, fostering a platform for the dissemination of groundbreaking insights, approaches and therapeutic aimed at mitigating the onset and progression of pathologies in the context of metabolic disorders.1. Interplay of Metabolism, Inflammation, and Oxidative Stress: Understanding how these fundamental processes intersect and influence each other in the context of metabolic disorders is crucial for unraveling the mechanisms behind conditions like obesity, type 2 diabetes, cardiovascular disease, and kidney diseases.2. Dysregulation at the Molecular Level: Investigating how altered metabolic pathways, heightened inflammatory responses, and oxidative stress disrupt cellular and physiological processes, providing insights into the molecular underpinnings of these complex disorders.3. Therapeutic Opportunities: Exploring innovative strategies to target inflammation and oxidative stress, potentially disrupting the initiation and progression of metabolic disorders. This offers promising avenues for the development of novel treatments.4. Clinical Relevance: Recognizing the significant impact of metabolic disorders on public health, highlighting the urgency of research in this field to alleviate the burden of these conditions.5. Translational Research: Encouraging the submission of original research and review articles to bridge the gap between fundamental insights and practical applications, facilitating the translation of discoveries into effective therapies for metabolic disorders.
The complex relationships between metabolism, inflammation, and oxidative stress are key factors in the development and progression of metabolic disorders, including obesity, type 2 diabetes , cardiovascular disease, and kidney diseases. Altered metabolic pathways, heightened inflammatory responses, and oxidative stress contribute to the dysregulation of cellular and physiological processes, ultimately culminating in the onset of these diverse metabolic conditions. Unraveling the molecular crosstalk and interdependencies among metabolism, inflammation, and oxidative stress holds the promise of unlocking novel insights into disease etiology and paving the way for innovative therapeutic strategies aimed at mitigating the burden of these multifaceted disorders on public health.This Research Topic aims to offer a contemporary and comprehensive exploration into the intricate associations linking metabolism, inflammation, and oxidative stress and their role in the development of metabolic diseases, as well asits treatment therapeutically. We invite submissions of both original research and review articles, fostering a platform for the dissemination of groundbreaking insights, approaches and therapeutic aimed at mitigating the onset and progression of pathologies in the context of metabolic disorders.1. Interplay of Metabolism, Inflammation, and Oxidative Stress: Understanding how these fundamental processes intersect and influence each other in the context of metabolic disorders is crucial for unraveling the mechanisms behind conditions like obesity, type 2 diabetes, cardiovascular disease, and kidney diseases.2. Dysregulation at the Molecular Level: Investigating how altered metabolic pathways, heightened inflammatory responses, and oxidative stress disrupt cellular and physiological processes, providing insights into the molecular underpinnings of these complex disorders.3. Therapeutic Opportunities: Exploring innovative strategies to target inflammation and oxidative stress, potentially disrupting the initiation and progression of metabolic disorders. This offers promising avenues for the development of novel treatments.4. Clinical Relevance: Recognizing the significant impact of metabolic disorders on public health, highlighting the urgency of research in this field to alleviate the burden of these conditions.5. Translational Research: Encouraging the submission of original research and review articles to bridge the gap between fundamental insights and practical applications, facilitating the translation of discoveries into effective therapies for metabolic disorders.