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Older women in both the Health ABC Study [24] and the Women’s Health Initiative Study of Cognitive Aging [25]. Furthermore, the association between MedChemExpress K162 adiposity and incident dementia remain unclear [26,27,28,29]. Obesity in mid-life appears to Pentagastrin increase the risk for cognitive decline and dementia in late-life [28,29]. This association is reversed in adults over 65 years of age; higher BMI in late life is associated with a reduced risk of dementia [26,27]. Research suggests that low BMI in late life may be an early pathological sign of dementia [26,27]. Several factors may contribute to the discrepant findings in the adiposity and cognitive function literature. First, increased age is often characterized by a loss in lean body mass and an increase in adipose tissue [30]. Thus, BMI is an insensitive measure of body composition in older adults as it does not reflect this change in body composition [31]. Second, many of the past studies were cross sectional hence no temporal associations were established and unknown and known confounders were not controlled for [21,32,33]. Third, previous studies have relied on measures of global cognitive function such as the Mini-Mental State Examination (MMSE) [23,24] which is not sensitive to subtle changes in cognitive function in healthy older adults [34]. Lastly, to our knowledge only one study to date has assessed the effect of change in body fat mass on cognitive performance in healthy communitydwelling older adults [23] and no study has addressed the effect of change in body lean mass. Yet, such knowledge would facilitate the development and refinement of targeted interventions to improve cognitive function in older adults. For example, if reduced body fat mass ?rather than increased body lean mass ?was independently associated with improved cognitive performance, 18325633 it would justify the promotion of targeted exercise training interventions that reduce fat mass (i.e., aerobic training) rather than those that increase lean mass (i.e., progressive resistance training). Further, few studies have specifically assessed the effect of adipose tissue on executive functions. Executive functions are higher-order cognitive processes that controls and manages othercognitive abilities. It allows for effective goal-directed behaviour and control of attentional resources which are necessary for managing everyday activities and functional independence [35]. Normal aging is associated with a decrease in cognitive resources responsible for executive functions, in particular the capacity to execute tasks that involve selective attention and conflict resolution [36]. These cognitive domains as measured by the Stroop Test [37] has been significantly associated with impaired mobility [38] and instrumental activities of daily living [39]. Executive functions 1527786 are also highly relevant to healthy aging as it is a predictor of conversion to AD [40]. Thus, we conducted a secondary analysis on data collected from a 12-month randomized controlled trial of exercise to investigate the independent association of change in both sub-total body fat mass and sub-total body lean mass with executive functions, specifically the executive processes of selective attention and conflict resolution, at trial completion.Methods Ethics StatementEthical approval was obtained from the Vancouver Coastal Health Research Institute (V06-0326) and the University of British Columbia’s Clinical Research Ethics Board (H06-0326). All participants provided writ.Older women in both the Health ABC Study [24] and the Women’s Health Initiative Study of Cognitive Aging [25]. Furthermore, the association between adiposity and incident dementia remain unclear [26,27,28,29]. Obesity in mid-life appears to increase the risk for cognitive decline and dementia in late-life [28,29]. This association is reversed in adults over 65 years of age; higher BMI in late life is associated with a reduced risk of dementia [26,27]. Research suggests that low BMI in late life may be an early pathological sign of dementia [26,27]. Several factors may contribute to the discrepant findings in the adiposity and cognitive function literature. First, increased age is often characterized by a loss in lean body mass and an increase in adipose tissue [30]. Thus, BMI is an insensitive measure of body composition in older adults as it does not reflect this change in body composition [31]. Second, many of the past studies were cross sectional hence no temporal associations were established and unknown and known confounders were not controlled for [21,32,33]. Third, previous studies have relied on measures of global cognitive function such as the Mini-Mental State Examination (MMSE) [23,24] which is not sensitive to subtle changes in cognitive function in healthy older adults [34]. Lastly, to our knowledge only one study to date has assessed the effect of change in body fat mass on cognitive performance in healthy communitydwelling older adults [23] and no study has addressed the effect of change in body lean mass. Yet, such knowledge would facilitate the development and refinement of targeted interventions to improve cognitive function in older adults. For example, if reduced body fat mass ?rather than increased body lean mass ?was independently associated with improved cognitive performance, 18325633 it would justify the promotion of targeted exercise training interventions that reduce fat mass (i.e., aerobic training) rather than those that increase lean mass (i.e., progressive resistance training). Further, few studies have specifically assessed the effect of adipose tissue on executive functions. Executive functions are higher-order cognitive processes that controls and manages othercognitive abilities. It allows for effective goal-directed behaviour and control of attentional resources which are necessary for managing everyday activities and functional independence [35]. Normal aging is associated with a decrease in cognitive resources responsible for executive functions, in particular the capacity to execute tasks that involve selective attention and conflict resolution [36]. These cognitive domains as measured by the Stroop Test [37] has been significantly associated with impaired mobility [38] and instrumental activities of daily living [39]. Executive functions 1527786 are also highly relevant to healthy aging as it is a predictor of conversion to AD [40]. Thus, we conducted a secondary analysis on data collected from a 12-month randomized controlled trial of exercise to investigate the independent association of change in both sub-total body fat mass and sub-total body lean mass with executive functions, specifically the executive processes of selective attention and conflict resolution, at trial completion.Methods Ethics StatementEthical approval was obtained from the Vancouver Coastal Health Research Institute (V06-0326) and the University of British Columbia’s Clinical Research Ethics Board (H06-0326). All participants provided writ.