Thrombolysis with rtPA was effectively applied in routine management of stroke patients in a community-based approach with acceptable efforts and without additional costs. Under these circumstances, outcome and complication rates were comparable to those of multicenter trials.
Thrombolytic therapy of acute ischemic stroke can be successful only as long as there is penumbral tissue perfused at rates between the thresholds of normal function and irreversible structural damage, respectively. To determine the proportion of tissue at risk of infarction, cerebral perfusion was studied in 12 patients with acute ischemic stroke who underwent treatment with systemic recombinant tissue plasminogen activator (0.9 mg/kg body weight according to National Institute of Neurological Disorders and Stroke protocol) within 3 hours of onset of symptoms, using [15O]-H2O positron emission tomography (PET) before or during, and repeatedly after thrombolysis. The size of the regions of critically hypoperfused gray matter were identified on the initial PET scans, and changes of perfusion in those areas were related to the clinical course (followed by the National Institutes of Health stroke scale) and to the volume of infarcted gray matter demarcated on magnetic resonance imaging 3 weeks after the stroke. Whereas the initial clinical score was unrelated to the size of the ischemic area, after 3 weeks there was a strong correlation between clinical deficit and volume size of infarcted gray matter (Spearman's rho, 0.96; P < 0.001). All patients with a severely hypoperfused (< 12 mL/100 g/min) gray matter region measuring less than 15 mL on first PET showed full morphologic and clinical recovery (n = 5), whereas those with ischemic areas larger than 20 mL developed infarction and experienced persistent neurologic deficits of varying degree. Infarct sizes, however, were smaller than expected from previous correlative PET and morphologic studies of patients with acute stroke: only 22.7% of the gray matter initially perfused at rates below the conventional threshold of critical ischemia became necrotic. Actually, the percentage of initially ischemic voxels that became reperfused at almost normal levels clearly predicted the degree of clinical improvement achieved within 3 weeks. These sequential blood flow PET studies demonstrate that critically hypoperfused tissue can be preserved by early reperfusion, perhaps related to thrombolytic therapy. The results correspond with experimental findings demonstrating the prevention of large infarcts by early reperfusion to misery perfused but viable tissue.
Between March 1996 and December 1997, 15 consecutive patients with carotid artery occlusion diagnosed with duplex sonography were treated with intravenous recombinant tissue plasminogen activator (rt-PA), following a protocol similar to that of the National Institute of Neurological Disorders and Stroke (NINDS) study. On the basis of ultrasound findings, six of the 15 patients had internal carotid artery dissection (ICD), and the remaining nine had atherothrombotic internal carotid artery (ICA) occlusion. No relevant haemorrhagic complications were observed after rt-PA treatment of ICA occlusion. Excellent late functional outcome was observed in three of the 15 patients with ICA occlusion, moderate and poor outcome in four patients. Four patients died, and mortality was related to stroke severity upon admission. A good outcome seemed to be more likely in the small group of patients with ICD, than in the patients suffering atherothrombotic ICA occlusion. As the results of rt-PA treatment in this case series are by no means devastating, our data do not corroborate the hypothesis that patients with acute ischemic stroke following ICA occlusion should a priori be excluded from intravenous thrombolysis. The possible benefit of rt-PA treatment in stroke following acute or chronic ICA occlusion should be assessed in a larger prospective trial, for which this case series might serve as a pilot study.
Whether ‘malignant’ brain edema following ischemic stroke is due to or aggravated by reperfusion and therefore more frequent after thrombolytic therapy of stroke is still under debate. From 3/96 to 1/97, we treated 51 patients with acute supratentorial stroke within 3 h after symptom onset with rt-PA following a protocol similar to the NINDS study. The results of thrombolytic therapy were evaluated by repeated clinical examination and computed tomography (CT) during the first week after ictus. The incidence of space-occupying brain edema following intravenous thrombolytic therapy of acute ischemic stroke was lower than the edema frequency after conventional treatment, but mortality from ‘malignant’ edema was higher in the patients with thrombolysis. Thus, space-occupying edema after acute ischemic stroke may be aggravated by thrombolytic treatment. Forced reperfusion of already irreversibly damaged tissue increases edema formation and enlarges developing infarcts with a deleterious increase of intracranial pressure.
Favorable outcome could be achieved in the majority of 12 consecutive patients with moderate to severe vertebrobasilar ischemic stroke treated with intravenous recombinant tissue-type plasminogen activator within 3 hours after symptom onset.
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