Biomaterial Database

Does magnesium sulfate have a role in the management of severe traumatic brain injury in civilian and military populations? A systematic review and meta-analysis. 2018

Marc W H Lyons, and W J Blackshaw

Department of Anaesthesia, The Walton Centre NHS Trust, Liverpool, UK.

BACKGROUND Traumatic brain injury (TBI) is a significant cause of combat morbidity. Currently, the medical management of TBI is limited to supportive critical care. Magnesium sulfate has been studied as a potentially beneficial therapeutic agent. METHODS A systematic review and meta-analysis was undertaken, examining the role of magnesium in the management of severe TBI in adults. The primary outcome of the study was all-cause mortality, with secondary outcomes of Glasgow Outcome Score (GOS) and GCS. EMBASE, MEDLINE, CINAHL, WHO Trial Registry and the Cochrane Library database were systematically searched, with data included until 1 February 2017. Inclusion criteria were: human study; aged >13 years; randomised controlled trial; severe TBI. Exclusion criteria were: data collected prior to 1 January 2002; magnesium commenced >24 hours postinjury; magnesium therapy for <24 hours. Statistical analysis was conducted using Stata (V.13.1). RESULTS The pooled results of six studies found all-cause mortality not to be significantly different in the treatment group (RR 0.84, 95% CI 0.54 to 1.33; P=0.46) with an I2 value of >70%. With regard to the secondary outcomes, no significant difference in GOS scores between treatment and control was demonstrated. GCS showed a significant improvement in the treatment group. CONCLUSIONS The meta-analysis found a lack of evidence for magnesium pharmacotherapy in severe TBI, although the data were noted to be conflicting and significantly heterogeneous. Further study is recommended to ascertain whether a therapeutic window exists for magnesium in severe TBI.

UI	MeSH Term	Description	Entries
D008274	Magnesium	A metallic element that has the atomic symbol Mg, atomic number 12, and atomic weight 24.31. It is important for the activity of many enzymes, especially those involved in OXIDATIVE PHOSPHORYLATION.
D008278	Magnesium Sulfate	A small colorless crystal used as an anticonvulsant, a cathartic, and an electrolyte replenisher in the treatment of pre-eclampsia and eclampsia. It causes direct inhibition of action potentials in myometrial muscle cells. Excitation and contraction are uncoupled, which decreases the frequency and force of contractions. (From AMA Drug Evaluations Annual, 1992, p1083)	Magnesium Sulfate, Heptahydrate,Heptahydrate Magnesium Sulfate,Sulfate, Magnesium
D008887	Military Medicine	The practice of medicine as applied to special circumstances associated with military operations.	Medicine, Military
D006801	Humans	Members of the species Homo sapiens.	Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000070642	Brain Injuries, Traumatic	A form of acquired brain injury which occurs when a sudden trauma causes damage to the brain.	Trauma, Brain,Traumatic Brain Injury,Encephalopathy, Traumatic,Injury, Brain, Traumatic,TBI (Traumatic Brain Injury),TBIs (Traumatic Brain Injuries),Traumatic Encephalopathy,Brain Injury, Traumatic,Brain Trauma,Brain Traumas,Encephalopathies, Traumatic,TBI (Traumatic Brain Injuries),Traumas, Brain,Traumatic Brain Injuries,Traumatic Encephalopathies
D018696	Neuroprotective Agents	Drugs intended to prevent damage to the brain or spinal cord from ischemia, stroke, convulsions, or trauma. Some must be administered before the event, but others may be effective for some time after. They act by a variety of mechanisms, but often directly or indirectly minimize the damage produced by endogenous excitatory amino acids.	Neuroprotectant,Neuroprotective Agent,Neuroprotective Drug,Neuroprotectants,Neuroprotective Drugs,Neuroprotective Effect,Neuroprotective Effects,Agent, Neuroprotective,Agents, Neuroprotective,Drug, Neuroprotective,Drugs, Neuroprotective,Effect, Neuroprotective,Effects, Neuroprotective