Association between smoking, insulin resistance and beta-cell function in a North-western First Nation.

AIMS: Aboriginal peoples have a high prevalence of smoking and are at major risk for diabetes. The role of insulin resistance vs. compromised beta-cell function in the link between smoking and glycaemic disease is not clear. This study tested whether relations between insulin resistance and beta-cell function differ between current smokers, former smokers and non-smokers, and if having diabetes modifies smoking-related effects.
METHODS: A community-based diabetes screening initiative was mounted for a North-western First Nation (Interior Salishan) in rural British Columbia, Canada. Respondents were on-reserve Aboriginal people (n=156), all adults 18+ years. Glycaemic status was determined by oral glucose tolerance test. Fasting values for glucose and insulin were used to estimate beta-cell function and insulin resistance by homeostasis model assessment (HOMA). Analyses adjusted for age, sex, alcohol intake, education, body mass index and physical activity.
RESULTS: For normoglycaemic persons (n=119) current smokers relative to non-smokers had high beta-cell values [difference (95% confidence interval) 19.5 (17.1, 21.9)], while former smokers had low beta-cell values [difference -22.8 (-20.3, -25.3)] (P<0.0001). For diabetic persons (n=37) differences were of equivalent direction but greater magnitude (P<0.0001). Insulin resistance was for normoglycaemic persons highest for current smokers, and for diabetic persons lowest for current smokers (P=0.021).
CONCLUSIONS: Former smoking is associated with low beta-cell function, and current smoking with high beta-cell function, independent of diabetes in the North-western First Nation surveyed. Associations between smoking and insulin resistance vary according to glycaemic status. Smoking may have diametric acute and post-cessation effects on beta-cell function and insulin resistance.