OBJECTIVES: To investigate associations of long-term nutrient intake, physical activity and obesity with later cognitive function among the participants in the Finnish Diabetes Prevention Study, in which a lifestyle intervention was successful in diabetes prevention. DESIGN: An active lifestyle intervention phase during middle age (mean duration 4 years) and extended follow-up (additional 9 years) with annual lifestyle measurements, followed by an ancillary cognition assessment. SETTING: 5 research centers in Finland. PARTICIPANTS: Of the 522 middle-aged, overweight participants with impaired glucose tolerance recruited to the study, 364 (70%) participated in the cognition assessment (mean age 68 years). MEASUREMENTS: A cognitive assessment was executed with the CERAD test battery and the Trail Making Test A on average 13 years after baseline. Lifestyle measurements included annual clinical measurements, food records, and exercise questionnaires during both the intervention and follow-up phase. RESULTS:Lower intake of total fat (p=0.021) and saturated fatty acids (p=0.010), and frequent physical activity (p=0.040) during the whole study period were associated with better cognitive performance. Higher BMI (p=0.012) and waist circumference (p=0.012) were also associated with worse performance, but weight reduction prior to the cognition assessment predicted worse performance as well (decrease vs. increase, p=0.008 for BMI and p=0.002 for waist). CONCLUSIONS: Long-term dietary fat intake, BMI, and waist circumference have an inverse association with cognitive function in later life among people with IGT. However, decreases in BMI and waist prior to cognitive assessment are associated with worse cognitive performance, which could be explained by reverse causality.
RCT Entities:
OBJECTIVES: To investigate associations of long-term nutrient intake, physical activity and obesity with later cognitive function among the participants in the Finnish Diabetes Prevention Study, in which a lifestyle intervention was successful in diabetes prevention. DESIGN: An active lifestyle intervention phase during middle age (mean duration 4 years) and extended follow-up (additional 9 years) with annual lifestyle measurements, followed by an ancillary cognition assessment. SETTING: 5 research centers in Finland. PARTICIPANTS: Of the 522 middle-aged, overweight participants with impaired glucose tolerance recruited to the study, 364 (70%) participated in the cognition assessment (mean age 68 years). MEASUREMENTS: A cognitive assessment was executed with the CERAD test battery and the Trail Making Test A on average 13 years after baseline. Lifestyle measurements included annual clinical measurements, food records, and exercise questionnaires during both the intervention and follow-up phase. RESULTS: Lower intake of total fat (p=0.021) and saturated fatty acids (p=0.010), and frequent physical activity (p=0.040) during the whole study period were associated with better cognitive performance. Higher BMI (p=0.012) and waist circumference (p=0.012) were also associated with worse performance, but weight reduction prior to the cognition assessment predicted worse performance as well (decrease vs. increase, p=0.008 for BMI and p=0.002 for waist). CONCLUSIONS: Long-term dietary fat intake, BMI, and waist circumference have an inverse association with cognitive function in later life among people with IGT. However, decreases in BMI and waist prior to cognitive assessment are associated with worse cognitive performance, which could be explained by reverse causality.
Authors: Mark A Espeland; Stephen R Rapp; George A Bray; Denise K Houston; Karen C Johnson; Abbas E Kitabchi; Andrea L Hergenroeder; Jeff Williamson; John M Jakicic; Brent van Dorsten; Stephen B Kritchevsky Journal: J Gerontol A Biol Sci Med Sci Date: 2014-03-11 Impact factor: 6.053
Authors: Jaana Lindström; Anne Louheranta; Marjo Mannelin; Merja Rastas; Virpi Salminen; Johan Eriksson; Matti Uusitupa; Jaakko Tuomilehto Journal: Diabetes Care Date: 2003-12 Impact factor: 19.112
Authors: Balwinder Singh; Ajay K Parsaik; Michelle M Mielke; Patricia J Erwin; David S Knopman; Ronald C Petersen; Rosebud O Roberts Journal: J Alzheimers Dis Date: 2014 Impact factor: 4.472
Authors: Mario Siervo; Gilda Nasti; Blossom C M Stephan; Annamaria Papa; Edy Muscariello; Jonathan C K Wells; Carla M Prado; Antonio Colantuoni Journal: J Am Coll Nutr Date: 2012-04 Impact factor: 3.169
Authors: C Hooper; P De Souto Barreto; P Payoux; A S Salabert; S Guyonnet; S Andrieu; S Sourdet; J Delrieu; B Vellas Journal: J Nutr Health Aging Date: 2017 Impact factor: 4.075
Authors: P Su; H Ding; W Zhang; G Duan; Y Yang; J Long; L Du; C Xie; C Jin; C Hu; Z Sun; Z Duan; L Gong; W Tian Journal: J Nutr Health Aging Date: 2017 Impact factor: 4.075
Authors: Francesco Vadini; Paola G Simeone; Andrea Boccatonda; Maria T Guagnano; Rossella Liani; Romina Tripaldi; Augusto Di Castelnuovo; Francesco Cipollone; Agostino Consoli; Francesca Santilli Journal: Int J Obes (Lond) Date: 2020-01-21 Impact factor: 5.095