Category
JFL, Lower Atrium
Description
Abstract Introduction/Background: Insulin resistance (IR) is a crucial mechanism that associates obesity with chronic diseases, including type 2 diabetes mellitus, cardiovascular disease, and nonalcoholic fatty liver disease. However, public health initiatives tend to prioritize caloric intake over the underlying dysregulation of hormonal and biochemical processes that drive metabolic dysregulation. Objectives: To summarize the biomedical mechanisms of insulin resistance and examine dietary, lifestyle, and pharmacological interventions from a translational perspective. Methods: Peer-reviewed literature was examined through narrative review, summarizing discovery from biochemical, clinical, and epidemiological investigations. Using databases, such as PubMed and Scopus, articles focusing on insulin signaling pathways, dietary effects, and therapeutic interventions were reviewed. Findings: In the case of IR, impaired insulin receptor signaling, chronic hyperinsulinemia, lipid accumulation, and systemic inflammation have been documented. The high omega-6: omega-3 fatty acids ratio is a significant dietary factor contributing to the promotion of both inflammation and metabolic dysfunction, subsequently upregulating diet-related insulin resistance (IR). A high omega-6/omega-3 ratio can activate proinflammatory pathways that worsen IR, whereas omega-3 fatty acids have anti-inflammatory and insulin-sensitizing properties. As translational strategies to reverse IR and treatment of obesity-associated disorders, dietary, exercise, and pharmacologic interventions (such as metformin and GLP-1 receptor agonists) have shown promise. Conclusion: Focusing on the mechanisms of insulin resistance with specific interventions is vital not only for obesity control but also for chronic disease prevention. Transitioning to dietary approaches in which omega-3 and omega-6 intakes are more balanced, in conjunction with evidence-based pharmacotherapy and lifestyle changes, may enhance metabolic health outcomes. We must focus on personalized lifestyle interventions based upon genetic and metabolic profiles in our future research.
The Silent Saboteur: How Insulin Resistance Fuels Obesity and Chronic Disease
JFL, Lower Atrium
Abstract Introduction/Background: Insulin resistance (IR) is a crucial mechanism that associates obesity with chronic diseases, including type 2 diabetes mellitus, cardiovascular disease, and nonalcoholic fatty liver disease. However, public health initiatives tend to prioritize caloric intake over the underlying dysregulation of hormonal and biochemical processes that drive metabolic dysregulation. Objectives: To summarize the biomedical mechanisms of insulin resistance and examine dietary, lifestyle, and pharmacological interventions from a translational perspective. Methods: Peer-reviewed literature was examined through narrative review, summarizing discovery from biochemical, clinical, and epidemiological investigations. Using databases, such as PubMed and Scopus, articles focusing on insulin signaling pathways, dietary effects, and therapeutic interventions were reviewed. Findings: In the case of IR, impaired insulin receptor signaling, chronic hyperinsulinemia, lipid accumulation, and systemic inflammation have been documented. The high omega-6: omega-3 fatty acids ratio is a significant dietary factor contributing to the promotion of both inflammation and metabolic dysfunction, subsequently upregulating diet-related insulin resistance (IR). A high omega-6/omega-3 ratio can activate proinflammatory pathways that worsen IR, whereas omega-3 fatty acids have anti-inflammatory and insulin-sensitizing properties. As translational strategies to reverse IR and treatment of obesity-associated disorders, dietary, exercise, and pharmacologic interventions (such as metformin and GLP-1 receptor agonists) have shown promise. Conclusion: Focusing on the mechanisms of insulin resistance with specific interventions is vital not only for obesity control but also for chronic disease prevention. Transitioning to dietary approaches in which omega-3 and omega-6 intakes are more balanced, in conjunction with evidence-based pharmacotherapy and lifestyle changes, may enhance metabolic health outcomes. We must focus on personalized lifestyle interventions based upon genetic and metabolic profiles in our future research.
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Graduate