AI-powered nutritional strategies: Analyzing the impact of deep learning on dietary improvements in South Africa, India, and the United States
1 Department of Nutritional Sciences, Texas Tech University, Lubbock Texas, USA.
2 Department of Nutrition, College of Public Health, University of Massachusetts, Amherst, USA.
3 Department of International Relations, Federal University of Lafia. Nasarawa State, Nigeria.
Review Article
Magna Scientia Advanced Research and Reviews, 2024, 11(02), 320–345
Publication history:
Received on 24 June 2024; revised on 03 August 2024; accepted on 06 August 2024
Abstract:
The rapid advancement of artificial intelligence (AI) and deep learning technologies has begun to reshape various sectors, including nutrition and public health. This paper explores the transformative impact of AI-powered nutritional strategies in addressing dietary challenges across South Africa, India, and the United States. By examining the definition and applications of deep learning in nutrition, the paper highlights how AI technologies are employed to enhance dietary assessments, personalize nutrition advice, and improve public health interventions. The integration of these technologies into nutritional strategies demonstrates significant potential for improving health outcomes and managing nutritional challenges effectively. The paper provides a detailed overview of nutritional challenges and common dietary patterns in the three regions under study. In South Africa, the dual burden of undernutrition and obesity presents a complex scenario where AI can play a pivotal role in both monitoring and intervention. India faces a diverse set of nutritional challenges ranging from malnutrition to dietary imbalances, with AI applications aimed at optimizing national nutrition programs. In the United States, the focus is on leveraging AI to tackle obesity and diet-related chronic diseases through more personalized and data-driven approaches. Each region’s unique challenges underscore the necessity for tailored AI solutions to address specific dietary needs. The implementation of AI-powered nutritional strategies across South Africa, India, and the United States reveals varying degrees of success and challenges. In South Africa, AI initiatives are beginning to make an impact, particularly in urban areas, but face barriers such as limited infrastructure and funding. In India, AI tools are integrated into national health programs, showing promise in improving nutritional outcomes but requiring further development to address regional disparities. In the United States, advanced AI systems are employed in public health campaigns and research, though issues related to data privacy and algorithmic bias remain significant concerns. Comparative analysis of these implementations provides insights into best practices and areas for improvement. The paper concludes with a discussion on the broader policy implications and future directions for AI in nutrition. It emphasizes the need for robust regulatory frameworks to ensure data privacy, algorithmic fairness, and ethical use of AI technologies. Recommendations are provided for enhancing AI integration in public health programs, addressing cultural and socioeconomic factors, and promoting global research collaborations. By addressing these challenges and embracing emerging opportunities, AI-powered nutritional strategies have the potential to significantly improve global dietary health and equity.
Keywords:
Artificial Intelligence (AI); Deep Learning; Nutritional Strategies; Dietary Patterns; Personalized Nutrition; Nutritional Assessment; Machine Learning
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