Carotid Endarterectomy or Stenting for Evolving Stroke Secondary to Carotid Artery Atherosclerosis

Thrombolysis and Carotid Endarterectomy in Acute Cervical Carotid Occlusion

Intravenous (IV) tissue plasminogen activator (tPA) was approved by the Food and Drug Administration for the treatment of acute ischemic stroke within 3 hours. However, the recanalization rates for proximal vessel occlusions were generally disappointing: 10% for ICA occlusion and 30% for proximal middle cerebral artery (MCA) occlusion. Among 20 patients with cervical and terminal ICA occlusions treated with IV tPA, Christou and colleagues reported complete, partial, and non-recanalization rates of 10%, 16%, and 74%, respectively. Similarly, Linfante and coworkers reported a complete or partial recanalization rate of 31% in 17 patients with tandem cervical ICA–MCA occlusions treated with IV tPA. Other studies have suggested slightly better outcomes. Wunderlich’s group reported a recanalization rate of 40% in 42 patients with acute carotid terminus occlusions treated with IV tPA, whereas Thomalla and colleagues reported a recanalization rate of 42% in 14 patients with tandem ICA–MCA occlusion after IV tPA. Regarding the outcomes of IV tPA and acute carotid occlusion, Rubiera and coworkers reported that only 18% of patients with an acute tandem cervical ICA–MCA lesion were functionally independent after IV tPA at 3 months. On the basis of this literature, it appears that recanalization with IV tPA does not occur in most patients who present with an acute ischemic stroke secondary to cervical carotid occlusion.

Carotid endarterectomy is a surgical option for emergent revascularization of the occluded carotid artery. However, as early as 1965, DeBakey and colleagues recognized the limitation of CEA in the treatment of acute stroke because of the frequent intracranial extension of the thrombotic lesion beyond the cervical region. In addition, Bond’s group, in a systematic review, reported a 19.2% perioperative risk of CEA in patients with evolving stroke compared with a 3.2% risk in patients treated with CEA in a more delayed fashion. Nevertheless, there are still advocates of early CEA in patients presenting with acute stroke and ICA occlusion. Weis-Muller and coworkers reported their experience with 35 patients who underwent urgent CEA for acute ICA occlusion up to 72 hours after symptom onset. In their study, the rate of intracerebral hemorrhage, recurrent stroke, and mortality were 6% each. Revascularization was achieved in 86% of patients, and clinical improvement was encountered in 57% (31% of patients were stable and 6% had deterioration). However, the study excluded patients with major stroke, altered level of consciousness, or intracranial carotid occlusion, suggesting that the role of CEA in the treatment of acute stroke and carotid occlusion is limited to patients with cervical ICA occlusion secondary to atherosclerosis and minor neurologic deficits.