Neurosurgery
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The authors report their experience with low doses (0.007-0.015 mg/kg), moderate doses (0.016-0.025 mg/kg), and high doses (0.026-0.035 mg/kg) of intrathecal morphine for postoperative analgesia after selective dorsal root rhizotomy surgery in 50 children, aged 3 to 12 years. After closure of the dura, a single dose of preservative-free morphine was injected into the subarachnoid space, and patients were assessed for 48 hours for level of comfort and side effects. The three doses of morphine provided equivalent analgesia and similar side effects. ⋯ No patient experienced late respiratory depression or generalized pruritus. The authors conclude that low doses of intrathecal morphine is as effective as moderate or high doses of morphine for reducing pain in the immediate postoperative period. Intrathecal morphine provides excellent analgesia after selective dorsal rhizotomy.
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Case Reports
Intracranial arteriovenous fistula manifesting as progressive neurological deterioration in an infant: case report.
This 1-year-old male infant had been diagnosed with cerebral degenerative disease because he developed psychomotor regression, and brain atrophy was demonstrated on computed tomography. He underwent magnetic resonance imaging, which suggested a cerebrovascular malformation. ⋯ The occlusion of the feeding artery was followed by a satisfactory recovery. The mechanism of the neurological symptoms in this patient is thought to be caused by a steal phenomenon and compression of the brain stem by venous engorgement in the posterior fossa.
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This study investigated the spinal evoked response to focal electrical stimulation of the sensorimotor cortex in 32 rats. The results demonstrate a long-latency response (beginning at 8 milliseconds) elicited by electrical stimulation, which is distinct from the short-latency motor evoked potential previously reported. The conduction velocity of this later response is similar to that reported for the pyramidal tract in the rat. ⋯ Experimental lesions of the pyramidal tract or ablating the sensorimotor cortex eliminated the spinal cord evoked response. The results demonstrate that focal stimulation of the sensorimotor cortex results in a spinal cord evoked response that represents activity within the pyramidal system. The utility of this response in the rat model for assessing experimental cord injury is discussed.