Platelet Aggregation in Intracranial Stents May Mimic In-Stent Restenosis

Discussion

ISR is not an uncommon evolution after intracranial stent placement and is, in general, considered as myointimal proliferation.² However, to our knowledge, data regarding patient platelet aggregation status are not available in published studies. The identification of an in-stent lumen reduction may be sometimes challenging, and the mechanism of the stenosis is a critical issue. Therefore, other differential diagnoses, such as in-stent platelet aggregation, should be considered, as illustrated in this case. In-stent platelet aggregation was initially misdiagnosed and thought to be an ISR. Noninvasive imaging techniques and conventional angiography were not relevant for identifying the real mechanism of in-stent lumen reduction. As shown in this case, in-stent platelet aggregation should be ruled out in patients with increased velocities after intracranial stent placement. This point is crucial because the usual antiplatelet regimen (75-mg clopidogrel and aspirin) may be insufficient in up to 40% of patients.⁴

The concept of resistance to clopidogrel or aspirin has been debated, given the fact that some patients are low responders and may be inadequately classified as being resistant. Additionally, poor platelet inhibition may be related to noncompliance, inadequate dosing, or absorption.^5,6 In coronary patients undergoing stent placement, aspirin and clopidogrel resistance have been reported,^7,8 but the therapeutic management of this condition is not clearly established. Double-antiplatelet therapy in intracranial arteries has been extrapolated from the coronary stent placement practice, but data regarding aspirin and clopidogrel regimens among patients who undergo intracranial stent placement are lacking. Some groups have reported that in intracranial stent placement, nearly 50% of the patients might be low responders to clopidogrel, whereas aspirin resistance appears to be an uncommon condition.⁹ Furthermore, diabetes and age older than 55 years have been identified as predictors of low response to clopidogrel. Although there are no data regarding the beneficial effect of a loading dose of clopidogrel, in our patient, the dose of 300 mg of clopidogrel was associated with in-stent lumen reduction disappearance. The long-term intracranial bleeding risk of high doses of clopidogrel remains unknown and may hamper the expected benefit of such antiplatelet regimen.

The inefficiency of the antiplatelet treatment may explain some ISRs that are not actually due to myointimal hyperplasia but platelet aggregation. We suggest that antiplatelet-agent resistance should be investigated before intracranial endovascular procedures to reduce per-procedural in-stent thrombosis or delayed in-stent lumen reduction due to thrombus formation.