Journal of Neuro-Ophthalmology, December 1991, Volume 11, Issue 4

Bilateral internuclear ophthalmoplegia after smoking "crack" cocaine.

A previously healthy 35-year-old man developed sudden diplopia after smoking "crack" cocaine. Neuroophthalmologic examination revealed findings consistent with a tegmental mesencephalic lesion which correlated closely with the computed tomographic documentation of a small midbrain hemorrhage. Cocaine abuse is a recognized cause of intracranial hemorrhage. In most patients, however, the bleeding is localized in the subarachnoid space or the subcortical white matter. To our knowledge, this is the first case of isolated midbrain hemorrhage secondary to cocaine abuse.

Journal of Clinical Neuro- ophlhalnrology 11( 4): 297- 299, 1991. © 1991 Raven Press, Ltd., New York Bilateral Internuclear Ophthalmoplegia After Smoking " Crack" Cocaine Enrique Diaz- Calderon, M. D., Oscar H. Del Brutto, M. D., Rafael Aguirre, M. D., and Tomas A. Alarcon, M. D. A previously healthy 35- year- old man developed sud­den diplopia after smoking " crack" cocaine. Neuro­ophthalmologic examination revealed findings consis­tent with a tegmental mesencephalic lesion which cor­related closely with the computed tomographic documentation of a small midbrain hemorrhage. Co­caine abuse is a recognized cause of intracranial hemor­rhage. In most patients, however, the bleeding is local­ized in the subarachnoid space or the subcortical white matter. To our knowledge, this is the first case of iso­lated midbrain hemorrhage secondary to cocaine abuse. Key Words: Cocaine-" Crack" cocaine- Brain stem­Midbrain- Hemorrhage- Diplopia- Internuclear oph­thalmoplegia. From the Neurologic Service, Hospital Regional del Instituto Ecuatoriano de Seguridad Social, Guayaquil, Ecuador. Address correspondence and reprint requests to Dr. Oscar H. Del Brutto at P. O. Box ( 09- 01) 3734, Guayaquil, Ecuador. 297 The use of cocaine as a recreational drug has increased over recent years, Associated with this increase has been an increased recognition of neu­rologic complications related to cocaine abuse ( 1,2). Cerebrovascular disease, either ischemic or hemorrhagic, ranks first among such complica­tions ( 3), and cocaine abuse is now considered a major risk factor for stroke in young adults ( 4). Moreover, the recent increase in popularity of " crack," a highly purified free- base form of co­caine, has created concern because " crack" is as­sociated with a greater incidence of cerebrovascu­lar disease ( 5,6). Proposed mechanisms of stroke induced by cocaine include acute elevation of blood pressure, cerebral vasospasm, increased thrombotic activity, rupture of an occult aneurysm or arteriovenous malformation, immuno- allergic vasculitis, and cardiogenic emboli ( 7- 10). Cocaine- related strokes are most often hemor­rhagic rather than ischemic ( 3). Hemorrhages are usually located in the subarachnoid space or the subcortical white matter ( 11- 13). In addition, a few patients with deep thalamic hemorrhages have been reported ( 3,14,15). We describe a patient with an isolated midbrain hemorrhage who presented with prominent neuro- ophthalmologic signs after smoking " crack" cocaine. CASE REPORT A 35- year- old right- handed man was evaluated because of the sudden onset of diplopia, vertigo, and incoordination of his right limbs. A few hours before admission, he had been at a party and had smoked several vials of " crack" cocaine. There was no history of arterial hypertension or any medical illness, but he admitted to the sporadic use of co­caine for the previous 3 years. In the emergency room the blood pressure was 110/ 80 mm Hg, and 298 E. DfAZ- CALDER6N ET AL. the general physical examination was unremark­able. Neurologic examination showed an alert and oriented patient with normal speech and compren­hension. Visual acuity was 20/ 20 in each eye and the appearance of the fundi was normal. Visual fields were normal. Pupils were 4 mm in diameter and showed no response to direct or consensual light, but accomodation was spared ( light- near dis­sociation). There was bilateral ptosis. Upward movements of the eyes were limited to 30° and induced convergence- retraction nystagmus. Ab­duction of the right eye was full, but adduction was absent. Abduction of the left eye was re­stricted to 30° and adduction was absent. Conver­gence was absent. In addition to the neuro­ophthalmologic findings, the patient had a discrete right hemiparesis and truncal ataxia. The rest of the examination was normal. Complete blood and platelet counts, prothrombin and partial thrombo­plastin times, serum glucose and cholesterol lev­els/ liver and renal function tests, and urinalysis were all normal. Rheumatoid factor and VORL were negative. Electrocardiogram and chest roent­genogram were normal. Computed tomography showed a small hemorrhage confined to the mid­brain tegmentum ( Fig. 1). The patient's hospital course was uneventful and he was discharged with diplopia on vertical gaze and lateral veering to the right. Two months later, the unsteadiness of gait had resolved and the only deficit remaining FIG. 1. Plain compult d lomo9ra,. ohic llr. Rn showino a small hemorrhage in the midbrain tegmentum. JClin Neuro- op/ ltilJUmol. \/ 0;. J;. ;'[". · 1. 1991 was limitation of upward gaze. Computed tomog­raphy done at this time showed complete resolu­tion of the hematoma. DISCUSSION Isolated midbrain hemorrhages are rare and ac­count for 1% of all intracranial hemorrhages ( 16). The clinical picture of this condition is usually dominated by neuro- ophthalmologic findings. At least 5 clinical syndromes, which have correlated closely with the location of bleeding, have been recognized. Peduncular hemorrhages are charac­terized by partial or complete fascicular third nerve lesions ( 17,18) that mayor may not be associated with crossed motor signs ( Weber's syndrome) ( 19,20). Tegmental hemorrhages also produce third nerve lesions associated with cerebellar signs ( Claude's syndrome) and corticospinal tract signs ( syndrome of Benedikt) ( 21,22). Tectal hemor­rhages at the level of the inferior colliculus produce trochlear nerve lesions, contralateral sensory defi­cit, or both ( 23,24). More rostral tectal hemor­rhages cause vertical gaze paresis, pupillary abnor­malities, internuclear ophthalmoplegia, and con­vergence- retraction nystagmus ( 20,25). In addition, mixed clinical syndromes may be ob­served when the bleeding trespasses these ana­tomic boundaries, when the perilesional edema compresses neighboring structures, or when su­pratentorial hydrocephalus ensues as the result of aqueductal obstruction ( 26- 29). Neuro- ophthal­mologic findings in our patient resembled those described in the anterior type of bilateral internu­clear ophthalmoplegia, in which paresis of ocular adduction upon attempted lateral gaze is associ­ated with loss of convergence ( 30). Such findings, together with bilateral ptosis, pupillary abnormal­ities showing light- near dissociation, and conver­gence- retraction nystagmus on attempted upward gaze, suggested a tegmental periaqueductal mes­encephalic lesion ( 31). This clinical assumption was confirmed by CT findings of a small midbrain hemorrhage ( Fig. 1), stressing the value of neuro­ophthalmologic examination in patients with sus­pected brainstem lesions. Unlike patients with pontine, thalamic, or putaminal hemorrhages, most patients with mid­brain hemorrhages have been normotensive mid­dle- aged adults in whom a through neuroradiolog­ical investigation has failed to detect the primary cause of bleeding ( 17/ 20,22,23/ 25). On the other hand, data from patients in whom the hematoma has been surgically removed suggest that the most likely etiology of midbrain hemorrhage is a cryptic OPHTHALMOPLEGIA AND " CRACK" COCAINE 299 vascular malformation ( 27,28,32). Such lesions are usually destroyed after the bleeding episode and escape angiographic detection ( 22). Widespread use of magnetic resonance imaging will permit preoperative recognition of these angiographically occult vascular malformations by showing the characteristic hemosiderin deposits from recurrent bleeding ( 33) and will increase our knowledge of the etiology of midbrain hemorrhage. Our patient, a previously healthy man, devel­oped a midbrain hemorrhage after smoking " crack" cocaine. We believe that this event was caused by the rupture of a cryptic arteriovenous malformation in the midbrain. As previously noted, cocaine enhances sympathetic activity, causing acute elevation of blood pressure which, in tum, causes rupture of an occult aneurysm or arteriovenous malformation ( 1,3,7). This report re­inforces our knowledge on the hazards of cocaine abuse and describes, for the first time, an isolated midbrain hemorrhage after smoking " crack" co­caine. REFERENCES 1. Cregler LL, Mark H. Medical complications of cocaine abuse. N Engl I Med 1986; 315: 1495-- 500. 2. 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