S. S. Liu scite author profile

SummaryIntravenous magnesium has been reported to improve postoperative pain; however, the evidence is inconsistent. The objective of this quantitative systematic review is to evaluate whether or not the peri-operative administration of intravenous magnesium can reduce postoperative pain. Twenty-five trials comparing magnesium with placebo were identified. Independent of the mode of administration (bolus or continuous infusion), peri-operative magnesium reduced cumulative intravenous morphine consumption by 24.4% (mean difference: 7.6 mg, 95% CI )9.5 to )5.8 mg; p < 0.00001) at 24 h postoperatively. Numeric pain scores at rest and on movement at 24 h postoperatively were reduced by 4.2 (95% CI )6.3 to )2.1; p < 0.0001) and 9.2 (95% CI )16.1 to )2.3; p = 0.009) out of 100, respectively. We conclude that peri-operative intravenous magnesium reduces opioid consumption, and to a lesser extent, pain scores, in the first 24 h postoperatively, without any reported serious adverse effects. Magnesium has been reported to produce important analgesic effects including the suppression of neuropathic pain [1], potentiation of morphine analgesia, and attenuation of morphine tolerance [2]. Although the exact mechanism is not yet fully understood, the analgesic properties of magnesium are believed to stem from regulation of calcium influx into the cell [3] and antagonism of N-methyl-D-aspartate (NMDA) receptors in the central nervous system [1,4]. Since the completion of the first positive randomised controlled trial investigating magnesium as an analgesic adjuvant in 1996 [5], several additional trials have been published, with conflicting results [6][7][8]. Two narrative review articles [9,10] recently concluded that peri-operative magnesium does not confer any important analgesic benefit, but these conclusions were drawn from a small number of trials [9] and subject to inaccuracies in data reporting [10]. The administration of intravenous magnesium in the peri-operative setting is not without risk and should be based on evidence, as it may prolong neuromuscular blockade after administration of neuromuscular blocking drugs [11,12], increase sedation [13] and contribute to serious cardiac morbidity [14]. Consequently, the aim of this review is to define quantitatively the effect of peri-operative intravenous magnesium on acute postoperative pain.

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The analgesic efficacy and safety of neuraxial magnesium sulphate: a quantitative review

Albrecht

Kirkham

Liu

et al. 2012

Anaesthesia

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SummaryEighteen published trials have examined the use of neuraxial magnesium as a peri-operative adjunctive analgesic since 2002, with encouraging results. However, concurrent animal studies have reported clinical and histological evidence of neurological complications with similar weight-adjusted doses. The objectives of this quantitative systematic review were to assess both the analgesic efficacy and the safety of neuraxial magnesium. Eighteen trials comparing magnesium with placebo were identified. The time to first analgesic request increased by 11.1% after intrathecal magnesium administration (mean difference: 39.6 min; 95% CI 16.3-63.0 min; p = 0.0009), and by 72.2% after epidural administration (mean difference: 109.5 min; 95% CI 19.6-199.3 min; p = 0.02) with doses of between 50 and 100 mg. Four trials monitored for neurological complications: of the 140 patients included, only a 4-day persistent headache was recorded. Despite promising peri-operative analgesic effect, the risk of neurological complications resulting from neuraxial magnesium has not yet been adequately defined. Magnesium has analgesic properties, primarily related to the regulation of calcium influx into cells [1] and antagonism of N-methyl-D-aspartate (NMDA) receptors in the central nervous system [2,3]. This analgesic effect was first demonstrated in humans in 1996 when magnesium was administered intravenously in the peri-operative period [4]. Since then, a number of additional trials investigating the analgesic efficacy of peri-operative intravenous magnesium have been published, with conflicting results [5][6][7]. One possible explanation for the reported variability in analgesic efficacy of magnesium administered intravenously may be limited passage of this molecule across the blood-brain barrier, which has been demonstrated even in the presence of induced systemic hypermagnesaemia [8][9][10]. Consequently, it has been suggested that an intrathecal injection would allow more effective magnesium activity at spinal cord NMDA receptors. Indeed, rat models reveal that direct intrathecal administration of magnesium enhances the antinociceptive effect of opioids for acute incisional pain [11], and suppresses nociceptive responses in neuropathic pain models [12]. The earliest clinical trials investigating intrathecal and epidural magnesium reported an increase in the median duration of analgesia [13] and decrease in opioid consumption by 25% [14], respectively.

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S. S. Liu

Peri‐operative intravenous administration of magnesium sulphate and postoperative pain: a meta‐analysis

The analgesic efficacy and safety of neuraxial magnesium sulphate: a quantitative review

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