Thomas J. Callender scite author profile

A case in which SPECT brain imaging was used in the diagnosis and treatment of chronic effects from acute acetylcholinesterase inhibitor poisoning is presented. The patient was exposed to an insecticide mixture containing phosphorothiate, pyrethrin, piperonyl butoxide, and petroleum distillates, which produced symptoms consistent with acute acetylcholinesterase inhibitor poisoning as well as an upper respiratory tract irritant. Delayed sequelae of gross neurologic symptoms followed, that is, coarse tremor, intermittent hemiballistic movements of the right arm and leg, flaccid muscular tone, fasciculations of muscle groups, muscle cramps, and sensory disturbances. A brain single-photon emission computerized tomography (SPECT) scan was performed 34 mo postexposure, revealing significantly decreased blood flow to the left temporal lobe and to the right and left basal ganglia. The patient's paresthesias were treated with phenytoin, which resulted in worsening of her movement disorder. A trial of amantadine and selegiline (Deprenyl) resulted in a dramatic reduction in dysfunctional movements and ataxia. Post amantadine and selegiline therapy, brain SPECT images revealed significantly improved blood flow with minimally decreased blood flow to the right and left basal ganglia. The use of SPECT scan techniques helped to elucidate objective chronic central nervous system effects subsequent to an acute insecticide exposure and also assisted in the evaluation of the effectiveness of therapeutic intervention.

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PET and neurobehavioral evidence of tetrabromoethane encephalopathy

Callender²,

Lottenberg³

et al. 1990

JNP

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Organic solvents have been implicated in a number of neuropsychiatric disturbances, though physical and neurological exams are frequently negative. An individual with acute tetrabromoethane exposure was evaluated with positron emission tomography (PET), topographical electroencephalogram (EEG), and neurobehavioral assessment. Results suggest widespread central nervous system (CNS) dysfunction consistent with a solvent-induced encephalopathy.

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Tomographic Brain Imaging as an Index of Neurophysiological Functioning in Toxic Substance Exposure

Subramanion¹,

Callender²,

Butler³

et al. 1994

Clinical Nuclear Medicine

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