OBJECTIVE: In the general population, obesity is associated with accelerated age-related cognitive decline. The impact of obesity on cognitive function in neurological populations who already have a heightened risk of cognitive decline is unknown. This study explored the relationship between obesity and cognitive underfunction in people with medically intractable epilepsy. METHODS: Eighty-one consecutive patients admitted for evaluation for medically intractable epilepsy (36 females and 45 males) underwent tests of memory and intellectual function. Optimal level of function was assessed using the National Adult Reading Test - Revised. Measures of underfunction were calculated by subtracting current measures of intellectual ability from the NART IQ. Body mass index (BMI) was used as an index of obesity. RESULTS: Twenty-nine people had a BMI in the healthy range (36%), 31 were overweight (38%), and 21 were obese (26%). The healthy weight, overweight, and obese groups did not differ in age at the time of assessment, age at seizure onset, or optimal level of function (NART IQ). The obese group had a greater degree of suboptimal processing speed and demonstrated a greater degree of underfunction on the Full Scale IQ (FSIQ) measure compared to the healthy weight group. Body mass index accounted for 14% of the variance in underfunction in processing speed and 10% of the variance in underfunction in FSIQ. Controlling for the effects of age, all measures of memory function were significantly correlated with BMI, with poorer scores associated with higher BMIs. SIGNIFICANCE: A small but significant proportion of the variance in memory function and intellectual underfunction in people with epilepsy is explained by BMI. Further work is needed to establish whether a reduction in BMI to within healthy limits is associated with improvements in cognitive function in this group.
OBJECTIVE: In the general population, obesity is associated with accelerated age-related cognitive decline. The impact of obesity on cognitive function in neurological populations who already have a heightened risk of cognitive decline is unknown. This study explored the relationship between obesity and cognitive underfunction in people with medically intractable epilepsy. METHODS: Eighty-one consecutive patients admitted for evaluation for medically intractable epilepsy (36 females and 45 males) underwent tests of memory and intellectual function. Optimal level of function was assessed using the National Adult Reading Test - Revised. Measures of underfunction were calculated by subtracting current measures of intellectual ability from the NART IQ. Body mass index (BMI) was used as an index of obesity. RESULTS: Twenty-nine people had a BMI in the healthy range (36%), 31 were overweight (38%), and 21 were obese (26%). The healthy weight, overweight, and obese groups did not differ in age at the time of assessment, age at seizure onset, or optimal level of function (NART IQ). The obese group had a greater degree of suboptimal processing speed and demonstrated a greater degree of underfunction on the Full Scale IQ (FSIQ) measure compared to the healthy weight group. Body mass index accounted for 14% of the variance in underfunction in processing speed and 10% of the variance in underfunction in FSIQ. Controlling for the effects of age, all measures of memory function were significantly correlated with BMI, with poorer scores associated with higher BMIs. SIGNIFICANCE: A small but significant proportion of the variance in memory function and intellectual underfunction in people with epilepsy is explained by BMI. Further work is needed to establish whether a reduction in BMI to within healthy limits is associated with improvements in cognitive function in this group.
Authors: Anny Reyes; Sanam J Lalani; Erik Kaestner; Kiera Hooper; Austin Chen; Anna Christina Macari; Brianna M Paul; Bruce P Hermann; Carrie R McDonald Journal: Epilepsy Behav Date: 2019-11-13 Impact factor: 2.937
Authors: Bruce P Hermann; Aaron F Struck; Robyn M Busch; Anny Reyes; Erik Kaestner; Carrie R McDonald Journal: Nat Rev Neurol Date: 2021-09-22 Impact factor: 44.711