BACKGROUND: Niacin increases fasting glucose levels, and statins modestly increase the rate of new-onset diabetes. The clinical importance and mechanisms of these effects are not fully explored. OBJECTIVE: On the basis of anecdotal observations, we hypothesized that elevated morning fasting glucose may be accompanied by relatively normal hemoglobin A1c (HbA1c) in patients treated with niacin and other lipid-modifying drugs. We conducted a retrospective cohort analysis to test this hypothesis. METHODS: The Duke Lipid Clinic database (1994-2007) was screened for simultaneous determinations of fasting morning glucose and HbA1c, yielding 1483 data pairs among 554 subjects. Subjects with diabetes, by clinical diagnosis, medication, or any HbA1c ≥6.5%, or nondiabetes were analyzed separately. Repeated-measures linear regression featured glucose as dependent variable and included terms for HbA1c, drug(s), and their interaction. RESULTS: Regression lines for glucose on HbA1c had altered slopes in the presence of niacin and/or statin use in normoglycemic subjects. The corresponding interaction terms (drug and HbA1c) were significant (niacin P = .026, statin P = .013). Fibrate use had no effect (interaction P = .49). When modeled together, niacin and statin effects were independent. Regression curves in diabetic patients were not affected by lipid medications. CONCLUSION: Elevated fasting glucose may be accompanied by relatively normal HbA1c in niacin- and statin-treated patients. HbA1c reflects average daily glucose levels and is likely a better measure of the glycemic effect of lipid medications. Because our data were retrospective, confirmation from randomized trials is needed. Copyright Â
BACKGROUND:Niacin increases fasting glucose levels, and statins modestly increase the rate of new-onset diabetes. The clinical importance and mechanisms of these effects are not fully explored. OBJECTIVE: On the basis of anecdotal observations, we hypothesized that elevated morning fasting glucose may be accompanied by relatively normal hemoglobin A1c (HbA1c) in patients treated with niacin and other lipid-modifying drugs. We conducted a retrospective cohort analysis to test this hypothesis. METHODS: The Duke Lipid Clinic database (1994-2007) was screened for simultaneous determinations of fasting morning glucose and HbA1c, yielding 1483 data pairs among 554 subjects. Subjects with diabetes, by clinical diagnosis, medication, or any HbA1c ≥6.5%, or nondiabetes were analyzed separately. Repeated-measures linear regression featured glucose as dependent variable and included terms for HbA1c, drug(s), and their interaction. RESULTS: Regression lines for glucose on HbA1c had altered slopes in the presence of niacin and/or statin use in normoglycemic subjects. The corresponding interaction terms (drug and HbA1c) were significant (niacin P = .026, statin P = .013). Fibrate use had no effect (interaction P = .49). When modeled together, niacin and statin effects were independent. Regression curves in diabeticpatients were not affected by lipid medications. CONCLUSION: Elevated fasting glucose may be accompanied by relatively normal HbA1c in niacin- and statin-treated patients. HbA1c reflects average daily glucose levels and is likely a better measure of the glycemic effect of lipid medications. Because our data were retrospective, confirmation from randomized trials is needed. Copyright Â
Authors: Ronald B Goldberg; Vera A Bittner; Richard L Dunbar; Jerome L Fleg; George Grunberger; John R Guyton; Lawrence A Leiter; Ruth McBride; Jennifer G Robinson; Debra L Simmons; Carol Wysham; Ping Xu; William E Boden Journal: Am J Med Date: 2016-03-29 Impact factor: 4.965