Nutrients, Vol. 18, Pages 2: Biofortification of Vegetables with Iodine and Molybdenum for Healthy Nutrition: A Controlled Trial
Nutrients doi: 10.3390/nu18010002
Authors:
Sara Baldassano
Luigi Di Rosa
Cristina Cortis
Alessia Cannizzaro
Antonino Salvatore Fiore
Leo Sabatino
Sonya Vasto
Patrizia Proia
Background/Objectives: Excessive sugar, fat, and salt intake heighten susceptibility to metabolic syndrome and other chronic metabolic conditions. Biofortification (i.e., enhancing the nutritional content of crops) emerges as a sustainable new approach to address dietary deficiencies. Methods: This study evaluated the impact of an acute nutritional intervention in a controlled, randomized, single-blind trial involving healthy adults aged 50–79 years, in late middle age and early older adulthood utilizing biofortified vegetables enriched with iodine and molybdenum, aimed to explore short-term biochemical responses to the consumption of iodine- and molybdenum-biofortified lettuce. The study was designed as a controlled dietary intervention including both a biofortified and a non-biofortified lettuce group, matched for handling and composition. It was powered to detect short-term biochemical responses, providing initial insights into the physiological impact of micronutrient biofortification. Dietary intake was carefully monitored throughout the 12-day period to control for confounding dietary effects. Results: The intervention was associated with decreased plasma levels of triglycerides, AST, and ALT, and increased plasma levels of HDL-cholesterol and the satiety hormone PYY, suggesting enhanced metabolic regulation. Conclusions: These biochemical markers reflect early metabolic adaptations that may inform future research on the metabolic impact of micronutrient biofortification. This study also highlights the potential of crop biofortification as a sustainable, strategy to enhance the nutrient density of vegetables within controlled dietary patterns.
Background/Objectives: Excessive sugar, fat, and salt intake heighten susceptibility to metabolic syndrome and other chronic metabolic conditions. Biofortification (i.e., enhancing the nutritional content of crops) emerges as a sustainable new approach to address dietary deficiencies. Methods: This study evaluated the impact of an acute nutritional intervention in a controlled, randomized, single-blind trial involving healthy adults aged 50–79 years, in late middle age and early older adulthood utilizing biofortified vegetables enriched with iodine and molybdenum, aimed to explore short-term biochemical responses to the consumption of iodine- and molybdenum-biofortified lettuce. The study was designed as a controlled dietary intervention including both a biofortified and a non-biofortified lettuce group, matched for handling and composition. It was powered to detect short-term biochemical responses, providing initial insights into the physiological impact of micronutrient biofortification. Dietary intake was carefully monitored throughout the 12-day period to control for confounding dietary effects. Results: The intervention was associated with decreased plasma levels of triglycerides, AST, and ALT, and increased plasma levels of HDL-cholesterol and the satiety hormone PYY, suggesting enhanced metabolic regulation. Conclusions: These biochemical markers reflect early metabolic adaptations that may inform future research on the metabolic impact of micronutrient biofortification. This study also highlights the potential of crop biofortification as a sustainable, strategy to enhance the nutrient density of vegetables within controlled dietary patterns. Read More