We have investigated the interaction between magnesium sulphate 40 mg kg-1 i.v. and vecuronium. First, we determined the effect of pretreatment with magnesium on the potency of vecuronium using a single bolus dose-response technique. In addition, we compared the time course of vecuronium-induced neuromuscular block (vecuronium 100 micrograms kg-1) with and without magnesium pretreatment. For both parts, neuromuscular block was assessed by electromyography. In addition, the effect of magnesium pretreatment on vecuronium-induced neuromuscular block was investigated in the context of rapid sequence induction of anaesthesia. We found that the neuromuscular potency of vecuronium was increased by pretreatment with magnesium sulphate. The ED50 and ED90 of vecuronium with MgSO4 were 25% lower than without MgSO4 (ED50: 21.3 vs 26.9 micrograms kg-1; ED90: 34.2 vs 45.7 micrograms kg-1; P < 0.05 for both). Mean onset time was 147.3 (SD 22.2) s in the MgSO4-vecuronium group vs 297.3 (122) s for controls (P < 0.05). Clinical duration was prolonged (MgSO4-vecuronium 43.3 (9) min vs 25.2 (5.1) min for controls; P < 0.05). This was also true for the recovery index (20.1 (6.6) min vs 10.6 (3.4) min; P < 0.05) and duration to 75% recovery (63.4 (9.9) min vs 35.8 (6.9) min; P < 0.05). In the context of rapid sequence induction, pretreatment with MgSO4 improved the intubating score of vecuronium compared with vecuronium without MgSO4, reaching the same quality as that with suxamethonium 1 mg kg-1. We conclude that magnesium pretreatment increased the neuromuscular potency of vecuronium, in addition to modifying the time course of its neuromuscular block.
Neural damage is a possible consequence of general anesthesia, central nervous system blockade, and regional anesthesia. Dainage may be caused by ischaemic and mechanical or chemical factors, which may occur either alone or in combination. Neural damage may be secondary to prolonged and severe arterial hypotension compromising blood supply to the cord, a spinal haematoma whose main etiological factor is a coagulation abnormality, an intraneural injection, and peripheral neuropathy related to perioperative positioning. Mechanical trauma by the needle bevel is an important factor contributing to neuropathy. Neurological complications may also result from a direct neurotoxic effect of local anesthetic agents which is concentration and dose-dependent. A better understanding of these mechanisms will provide a reliable basis for the development of improved pharmaceutical therapy.
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