BACKGROUND: Lipoprotein (a) (Lp[a]) has important atherothrombogenic properties, but its role in intracranial atherosclerosis remains unclear. OBJECTIVE: To investigate the relationship between Lp(a) level and the extent of intracranial large-artery occlusive disease. METHODS: Between June 2001 and August 2003, 166 consecutive first-ever TIA or stroke patients had intracranial stenoses on transcranial Doppler, of which 100 fulfilled all inclusion criteria. The extent of intracranial large-artery occlusive disease was assessed by the number of angiographically confirmed intracranial stenoses. Serum Lp(a) was determined a minimum of 3 months after stroke onset. RESULTS: Two hundred eighty-one intracranial stenoses were documented. Fifty-one (51%) patients had three or more stenoses (greater-extent group). Patients in the highest Lp(a) quartile had a higher adjusted odds ratio (OR) for a greater extent than those in the lowest quartile (OR 3.43, 95% CI 1.04 to 11.33, p = 0.04). A positive correlation was found between Lp(a) concentration and the number of stenoses (r = 0.310, p = 0.002). Moreover, Lp(a) level increased gradually with the number of stenoses (p = 0.02). A multiple logistic regression model identified diabetes (OR 2.4, 95% CI 1.04 to 5.57, p = 0.04) and high Lp(a) (OR 2.52, 95% CI 1.03 to 6.18, p = 0.043) as independent markers of a greater extent of intracranial large-artery occlusive disease. CONCLUSIONS: High Lp(a) level and diabetes mellitus are independent markers of a greater extent of intracranial large-artery occlusive disease. These findings support a role for Lp(a) in intracranial stenotic atherogenesis and might be useful for the selection of high-risk patients.
BACKGROUND: Lipoprotein (a) (Lp[a]) has important atherothrombogenic properties, but its role in intracranial atherosclerosis remains unclear. OBJECTIVE: To investigate the relationship between Lp(a) level and the extent of intracranial large-artery occlusive disease. METHODS: Between June 2001 and August 2003, 166 consecutive first-ever TIA or strokepatients had intracranial stenoses on transcranial Doppler, of which 100 fulfilled all inclusion criteria. The extent of intracranial large-artery occlusive disease was assessed by the number of angiographically confirmed intracranial stenoses. Serum Lp(a) was determined a minimum of 3 months after stroke onset. RESULTS: Two hundred eighty-one intracranial stenoses were documented. Fifty-one (51%) patients had three or more stenoses (greater-extent group). Patients in the highest Lp(a) quartile had a higher adjusted odds ratio (OR) for a greater extent than those in the lowest quartile (OR 3.43, 95% CI 1.04 to 11.33, p = 0.04). A positive correlation was found between Lp(a) concentration and the number of stenoses (r = 0.310, p = 0.002). Moreover, Lp(a) level increased gradually with the number of stenoses (p = 0.02). A multiple logistic regression model identified diabetes (OR 2.4, 95% CI 1.04 to 5.57, p = 0.04) and high Lp(a) (OR 2.52, 95% CI 1.03 to 6.18, p = 0.043) as independent markers of a greater extent of intracranial large-artery occlusive disease. CONCLUSIONS: High Lp(a) level and diabetes mellitus are independent markers of a greater extent of intracranial large-artery occlusive disease. These findings support a role for Lp(a) in intracranial stenotic atherogenesis and might be useful for the selection of high-risk patients.
Authors: Mehdi Bouslama; Diogo C Haussen; Leticia C Rebello; Jonathan A Grossberg; Michael R Frankel; Raul G Nogueira Journal: Interv Neurol Date: 2016-09-09
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