Melinda Y Yeung1. 1. Department of Pharmacy, The Children's Hospital at Westmead, New South Wales, Australia. melinday@chw.edu.au
Abstract
UNLABELLED: Evidence reveals a dilemma that under-nutrition and growth retardation during brain growth are associated with neurodevelopmental deficits, and nutritional supplement resulting in catch-up growth and relative visceral adiposity leads to metabolic/cardiovascular morbidities. Hyperinsulinaemia secondary to insulin resistance appears to play a central role in the development of visceral adiposity through its action on adipocyte beta3-adrenoceptor. CONCLUSION: Optimal nutritional management to minimize hyperinsulinaemia and insulin resistance may potentially improve neurodevelopment and facilitate catch-up growth with normal body composition.
UNLABELLED: Evidence reveals a dilemma that under-nutrition and growth retardation during brain growth are associated with neurodevelopmental deficits, and nutritional supplement resulting in catch-up growth and relative visceral adiposity leads to metabolic/cardiovascular morbidities. Hyperinsulinaemia secondary to insulin resistance appears to play a central role in the development of visceral adiposity through its action on adipocyte beta3-adrenoceptor. CONCLUSION: Optimal nutritional management to minimize hyperinsulinaemia and insulin resistance may potentially improve neurodevelopment and facilitate catch-up growth with normal body composition.
Authors: Mandy B Belfort; Sheryl L Rifas-Shiman; Janet W Rich-Edwards; Ken P Kleinman; Emily Oken; Matthew W Gillman Journal: Pediatrics Date: 2008-09 Impact factor: 7.124