Abstract
Cigarette smoking has been associated with dementia and dementia-related brain changes, notably gray matter (GM) volume atrophy. These associations are thought to reflect the co-morbidity of smoking and vascular, respiratory, and substance use/psychological conditions. However, the extent and localization of the smoking-GM relationship and the degree to which vascular, respiratory, and substance use/psychological factors influence this relationship remain unclear. In the Coronary Artery Risk Development in Young Adults CARDIA cohort (n = 698; 52% women; 40% black participants; age = 50.3 (SD = 3.5)), we examined the associations of smoking status with total GM volume and GM volume of brain regions linked to neurocognitive and addiction disorders. Linear regression models were used to adjust for vascular, respiratory, and substance use/psychological factors and to examine whether they modify the smoking-GM relationship. Compared to never-smokers, current smokers had smaller total GM volume (−8.86 cm3 (95%CI = −13.44, −4.29). Adjustment for substance use/psychological – but not vascular or respiratory – factors substantially attenuated this association (coefficients = −5.54 (95% CI = −10.32, −0.76); −8.33 (95% CI = −12.94, −3.72); −7.69 (95% CI = −6.95, −4.21), respectively). There was an interaction between smoking and alcohol use such that among alcohol non-users, smoking was not related to GM volumes and among alcohol users, those who currently smoked had −12 cm3 smaller total GM, specifically in the frontal and temporal lobes, amygdala, cingulate, and insula. Results suggest a large-magnitude association between smoking and smaller GM volume at middle age, accounting for vascular, respiratory, and substance use/psychological factors, and that the association was strongest in alcohol users. Regions suggested to be most vulnerable are those where cognition and addiction processes overlap.
Highlights
Cigarette smoking has been associated with higher risk of cognitive decline and dementia in older adults[1,2,3,4]
There were no differences in total white matter volume across smoking groups; the trend of smaller total brain volume in smokers reflected the association between smoking and smaller gray matter (GM) (Table 2)
In community-dwelling middle-aged adults, current smoking was associated with smaller total and regional GM volumes
Summary
Cigarette smoking has been associated with higher risk of cognitive decline and dementia in older adults[1,2,3,4]. The mechanisms are not fully understood, these associations are predominantly thought to arise from accumulated smoking-related damage to cardiovascular and respiratory processes in the brain[1,2,5,6]. In line with its documented effects on cardiovascular health, some imaging studies have reported that smoking is related to compromised vascular and circulation processes in the brain, including changes in perfusion and white matter (WM) lesions[4,12,13,14]. One consistent finding from imaging studies is that smokers have smaller total brain volume[4,12,15], and smaller gray matter (GM) volume
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