Prevalence and Time Course of Microembolic Signals in Patients With Acute Stroke: A Prospective Study

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Stroke. 1997;28:358-363

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Prevalence and Time Course of Microembolic Signals in Patients With Acute Stroke

A Prospective Study

Ulrich Sliwka, MD; Ariane Lingnau; Wolf-Dirk Stohlmann; Peter Schmidt, MD; Michael Mull, MD; Rolf R. Diehl, PhD Johannes Noth, MD

the Departments of Neurology (U.S., A.L., W.-D.S., P.S., J.N.) and Neuroradiology (M.M.), Rheinisch-Westfalische Technische Hochschule, Aachen; and Alfried-Krupp von Bohlen und Halbach Krankenhaus (R.R.D.), Department of Neurology, Essen, Germany.

Background and Purpose Cerebral emboli can be identified bythe presence of typical microembolic signals (MES) in transcranialDoppler (TCD) spectral curves. The usefulness of this techniquewas studied by evaluating the prevalence and time course ofMES in patients with acute stroke. In addition, we examinedthe influence of anticoagulation therapy on the occurrence ofMES. Another study objective was to identify the value of MESin elucidation of the underlying pathology of cerebral ischemiain patients with acute stroke.

Methods We used bilateral TCD monitoring of the middle cerebralartery to search for microemboli in 100 patients with acutenonhemorrhagic stroke in the anterior circulation. Monitoringtime was for 30 minutes at admission (examination I), after24 hours (examination II), and again after 48 hours (examinationIII).

Results Twenty-two of the 100 patients had to be excluded fromthe study after examination I because retrospectively they didnot fulfill the inclusion criterion or because they had an insufficientbone window. Forty of the patients (51%) showed MES during atleast one of the three TCD examinations. In 9 of the 47 patientswithout MES during examination I (19%), MES could be recordedsubsequently during examinations II and III. A statisticallysignificant decrease in the prevalence of MES occurred betweenexaminations I and III (P=.01). The frequency of MES in a singlepatient decreased between examinations I and II but increasedagain in examination III, although it did not reach the initiallevel. Prevalence of MES was the highest during the period upto 6 hours after the onset of symptoms. However, even at >72hours after the onset of symptoms, a substantial number of MEScould be recorded. In 18 of the 21 patients with carotid arterystenosis or occlusion who showed MES (86%), these signals occurredipsilateral to the affected carotid artery. In 5 of the 13 patientswith MES and a potential cardiac source of embolism (38%), MESwere observed bilaterally. Forty-one patients were without anticoagulationtreatment at the time of examination; 19 of these patients (46%)presented with MES. In contrast, of the 37 patients receivinganticoagulation treatment at the time of the first examination,MES could be recorded in only 12 (32%).

Conclusions Microemboli are a frequent phenomenon in patientswith acute stroke arising from a variety of causes, both inthe very early stages and several days after the onset of symptoms.The prevalence of MES decreases significantly over time. MESoccur more frequently in patients with carotid artery diseasethan in patients with a potential cardiac source of embolism.Ipsilateral MES are frequent in patients with carotid arterydisease, whereas bilateral MES are suggestive of a cardioembolicorigin. Anticoagulation treatment appears to decrease the prevalenceof MES, but microemboli still occur in patients receiving intravenoustherapy with heparin. Because MES occur intermittently, TCDexaminations should be repeated several times, even in patientswithout MES in the first examination, and long-term monitoringequipment is necessary.

Key Words: embolism • ultrasonics • cerebral infarction

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