Journal of neurosurgical anesthesiology
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J Neurosurg Anesthesiol · Oct 2000
Randomized Controlled Trial Clinical Trial Controlled Clinical TrialCisatracurium-induced neuromuscular blockade in anticonvulsant treated neurosurgical patients.
Patients treated with the anticonvulsants phenytoin or carbamazepine are resistant to steroidal neuromuscular blocking agents. We studied the effect of cisatracurium on onset, duration, and speed of recovery from neuromuscular blockade (NMB) in acutely anticonvulsant treated patients ([< 2 weeks] [AA]), chronically anticonvulsant treated patients ([> 2 weeks] [CA]) and patients not on anticonvulsants ([controls] [C]). After Internal Review Board approval, 10 AA, 14 CA, and 14 C neurosurgical patients were studied. ⋯ Speed of recovery was significantly faster in both AA (6 +/- 2 minutes) and CA (6 +/- 3 minutes) than in C (12 +/- 9 minutes) patients (P < .05). (Data = mean +/- SD). Onset and duration of cisatracurium-induced neuromuscular relaxation was not affected by acute or chronic anticonvulsant treatment, but speed of recovery was significantly faster. Frequent NMB monitoring is necessary to detect the greater speed of recovery in anticonvulsant-treated patients during cisatracurium muscle relaxation.
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J Neurosurg Anesthesiol · Oct 2000
Randomized Controlled Trial Clinical TrialNeurophysiological consequences of three tracheostomy techniques: a randomized study in neurosurgical patients.
We describe the effects of different tracheostomy techniques on intracranial pressure (ICP), cerebral perfusion pressure (CPP), and cerebral extraction of oxygen. We attempted to identify the main mechanisms affecting intracranial pressure during tracheostomy. To do so we conducted a prospective, block-randomized, clinical study which took place in a neurosurgical intensive care unit in a teaching hospital. ⋯ No other major complications were recorded during the procedures. At follow-up no severe anatomic or functional damage was detected. We conclude that the three tracheostomy techniques, performed in selected patients where the risk of intracranial hypertension was reduced to the minimum, were reasonably tolerated but caused an intracranial pressure rise and cerebral perfusion pressure reduction in some cases.
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J Neurosurg Anesthesiol · Jan 2000
Randomized Controlled Trial Comparative Study Clinical TrialEvaluation of acute normovolemic hemodilution for surgical repair of craniosynostosis.
This clinical report investigated the potential benefit of acute normovolemic hemodilution (ANH) as a blood-saving technique in the surgical repair of craniosynostosis. Over a 4-year period, 34 healthy children undergoing surgical repair of scaphocephaly or pachycephaly were randomly assigned to two groups of 17 patients each. Patients of the first group (ANH group) were submitted to ANH (target Ht: 25%) immediately before surgery and patients of the second group (Control group) were not. ⋯ Both groups were comparable regarding age, weight, type of craniosynostosis, duration of surgery, EBV, and preoperative Ht value. No difference was observed between ANH and Control groups in the number of patients who received homologous blood (15/17 and 14/17, respectively), in the amount of homologous blood transfused (17+/-4.7% and 19.6+/-6.3% of the EBV, respectively), and in the Ht value before hospital discharge (29.4+/-5.0% and 30.7+/-4.9%, respectively). In conclusion, this report suggests that ANH reduces neither the incidence of homologous transfusion nor the amount of homologous blood transfused in this series of children undergoing surgical repair of craniosynostosis.
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J Neurosurg Anesthesiol · Jan 2000
Randomized Controlled Trial Clinical TrialCerebrovenous blood temperature-influence of cerebral perfusion pressure changes and hyperventilation: evaluation in a porcine study and in man.
The objective of the first part of this study was to use an animal model to investigate the relationship between temperature in the cerebrovenous compartment and cerebral perfusion pressure. In the second part of the study, the objective was to examine the influence of hyperventilation and hypothermia on jugular bulb temperature and body temperature in patients undergoing elective neurosurgery. Intracranial pressure was increased artificially by inflating an infratentorial supracerebellar placed balloon catheter in nine pigs under general anesthesia. ⋯ Before hyperventilation, cerebrovenous blood temperature was higher in 19 patients (+/- difference: 0.34 degrees C +/- 0.27) and equal or lower in five patients (difference: -0.08 degrees C +/- 0.11), than core body temperature. At the end of hyperventilation, the difference between cerebrovenous blood temperature and core body temperature increased (+0.42 degrees C +/- 0.24) in those 19 patients who had started with a higher cerebrovenous blood temperature and decreased (-0.10 degrees C +/- 0. 18) in the other five patients. Both studies demonstrated that the temperature of cerebrovenous blood is influenced by maneuvers which are supposed to decrease cerebral blood flow.
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J Neurosurg Anesthesiol · Jan 2000
Randomized Controlled Trial Clinical TrialEffects of neck position and head elevation on intracranial pressure in anaesthetized neurosurgical patients: preliminary results.
This study reports the collective effect of the positions of the operating table, head, and neck on intracranial pressure (ICP) of 15 adult patients scheduled for elective intracerebral surgery. Patients were anesthetized with propofol, fentanyl, and maintained with a propofol infusion and fentanyl. Intracranial pressure was recorded following 20 minutes of stabilization after induction at different table positions (neutral, 30 degrees head up, 30 degrees head down) with the patient's neck either 1) straight in the axis of the body, 2) flexed, or 3) extended, and in the five following head positions: a) head straight, b) head angled at 45 degrees to the right, c) head angled at 45 degrees to the left, d) head rotated to the right, or e) head rotated the left. ⋯ Intracranial pressure increased every time the head was in a nonneutral position. The most important and statistically significant increases in ICP were recorded when the table was in a 30 degree Trendelenburg position with the head straight or rotated to the right or left, or every time the head was flexed and rotated to the right or left-whatever the position of the table was. These observations suggest that patients with known compromised cerebral compliance would benefit from monitoring ICP during positioning, if the use of a lumbar drainage is planed to improve venous return, cerebral blood volume, ICP, and overall operating conditions.