References
- Berger R, Garnier Y. Pathophysiology of perinatal brain damage. Brain Res Brain Res Rev 1999;30:107–134.
- Mittendorf R, Pryde P, Khoshnood B, Lee KS. If tocolytic magnesium sulfate is associated with excess total pediatric mortality, what is its impact? Obstet Gynecol 1998;92:308–311.
- Pazaiti A, Soubasi V, Spandou E, Karkavelas G, Georgiou T, Karalis P, Guiba-Tziampiri O. Evaluation of long-lasting sensorimotor consequences following neonatal hypoxic-ischemic brain injury in rats: the neuroprotective role of MgSO4. Neonatology 2009;95:33–40.
- Cetinkaya M, Alkan T, Ozyener F, Kafa IM, Kurt MA, Koksal N. Possible neuroprotective effects of magnesium sulfate and melatonin as both pre- and post-treatment in a neonatal hypoxic-ischemic rat model. Neonatology 2010;99:302–310.
- Mittendorf R, Dambrosia J, Pryde PG, Lee KS, Gianopoulos JG, Besinger RE, Tomich PG. Association between the use of antenatal magnesium sulfate in preterm labor and adverse health outcomes in infants. Am J Obstet Gynecol 2002;186:1111–1118.
- Zhu HD, Martin R, Meloni B, Oltvolgyi C, Moore S, Majda B, Knuckey N. Magnesium sulfate fails to reduce infarct volume following transient focal cerebral ischemia in rats. Neurosci Res 2004;49:347–353.
- Harrison V, Fawcus S, Jordaan E. Magnesium supplementation and perinatal hypoxia: outcome of a parallel group randomised trial in pregnancy. BJOG 2007;114:994–1002.
- Mihara M, Uchiyama M. Determination of malonaldehyde precursor in tissues by thiobarbituric acid test. Anal Biochem 1978;86:271–278.
- Fellman V, Raivio KO. Reperfusion injury as the mechanism of brain damage after perinatal asphyxia. Pediatr Res 1997;41:599–606.
- Delivoria-Papadopoulos M, Mishra OP. Mechanisms of cerebral injury in perinatal asphyxia and strategies for prevention. J Pediatr 1998;132:S30– S34.
- Gumustas K, Meta Guzeyli FM, Atukeren P, Sanus GZ, Kemerdere R, Tanriverdi T, Kaynar MY. The effects of vitamin E on lipid peroxidation, nitric oxide production and superoxide dismutase expression in hyperglycemic rats with cerebral ischemia-reperfusion injury. Turk Neurosurg 2007;17:78–82.
- Solaroglu I, Solaroglu A, Kaptanoglu E, Dede S, Haberal A, Beskonakli E, Kilinc K. Erythropoietin prevents ischemia-reperfusion from inducing oxidative damage in fetal rat brain. Childs Nerv Syst 2003;19:19–22.
- Solaroglu I, Okutan O, Solaroglu A, Kaptanoglu E, Beskonakli E, Kilinc K. Maternal treatment with propofol attenuates lipid peroxidation after transient intrauterine ischemia in the neonatal rat brain. Biol Neonate 2004;85:221–224.
- Benveniste H, Drejer J, Schousboe A, Diemer NH. Elevation of the extracellular concentrations of glutamate and aspartate in rat hippocampus during transient cerebral ischemia monitored by intracerebral microdialysis. J Neurochem 1984;43:1369–1374.
- Sivakumar V, Ling EA, Lu J, Kaur C. Role of glutamate and its receptors and insulin-like growth factors in hypoxia induced periventricular white matter injury. Glia 2010;58:507–523.
- Hamada Y, Hayakawa T, Hattori H, Mikawa H. Inhibitor of nitric oxide synthesis reduces hypoxic-ischemic brain damage in the neonatal rat. Pediatr Res 1994;35:10–14.
- Kumar A, Mittal R, Khanna HD, Basu S. Free radical injury and blood-brain barrier permeability in hypoxic-ischemic encephalopathy. Pediatrics 2008;122:e722–e727.
- Beckman JS, Beckman TW, Chen J, Marshall PA, Freeman BA. Apparent hydroxyl radical production by peroxynitrite: implications for endothelial injury from nitric oxide and superoxide. Proc Natl Acad Sci U S A 1990;87:1620–1624.
- Wakatsuki A, Okatani Y, Shinohara K, Ikenoue N, Fukaya T. Melatonin protects against ischemia/reperfusion-induced oxidative damage to mitochondria in fetal rat brain. J Pineal Res 2001;31:167–172.
- Delivoria-Papadopoulos M, Ashraf QM, Mishra OP. Effect of hypoxia on expression of apoptotic proteins in nuclear, mitochondrial and cytosolic fractions of the cerebral cortex of newborn piglets: the role of nuclear Ca++ -influx. Neurochem Res 2008;33:1196–1204.
- Iseri LT, French JH. Magnesium: nature’s physiologic calcium blocker. Am Heart J 1984;108:188–193.
- Nowak L, Bregestovski P, Ascher P, Herbet A, Prochiantz A. Magnesium gates glutamate-activated channels in mouse central neurones. Nature 1984;307:462–465.
- Marinov MB, Harbaugh KS, Hoopes PJ, Pikus HJ, Harbaugh RE. Neuroprotective effects of preischemia intraarterial magnesium sulfate in reversible focal cerebral ischemia. J Neurosurg 1996;85:117–124.
- Kerz T, Victor A, Beyer C, Trapp I, Heid F, Reisch R. A case control study of statin and magnesium administration in patients after aneurysmal subarachnoid hemorrhage: incidence of delayed cerebral ischemia and mortality. Neurol Res 2008;30:893–897.
- Ma L, Liu WG, Zhang JM, Chen G, Fan J, Sheng HS. Magnesium sulphate in the management of patients with aneurysmal subarachnoid haemorrhage: a meta-analysis of prospective controlled trials. Brain Inj 2010;24:730–735.
- Imer M, Omay B, Uzunkol A, Erdem T, Sabanci PA, Karasu A, Albayrak SB, Sencer A, Hepgul K, Kaya M. Effect of magnesium, mk-801 and combination of magnesium and mk-801 on blood-brain barrier permeability and brain edema after experimental traumatic diffuse brain injury. Neurol Res 2009;31:977–981.
- Sen AP, Gulati A. Use of magnesium in traumatic brain injury. Neurotherapeutics 2010;7:91–99.
- Kaptanoglu E, Beskonakli E, Okutan O, Selcuk Surucu H, Taskin Y. Effect of magnesium sulphate in experimental spinal cord injury: evaluation with ultrastructural findings and early clinical results. J Clin Neurosci 2003;10:329–334.
- Kaptanoglu E, Beskonakli E, Solaroglu I, Kilinc A, Taskin Y. Magnesium sulfate treatment in experimental spinal cord injury: emphasis on vascular changes and early clinical results. Neurosurg Rev 2003;26:283–287.
- Maulik D, Zanelli S, Numagami Y, Ohnishi ST, Mishra OP, Delivoria-Papadopoulos M. Oxygen free radical generation during in-utero hypoxia in the fetal guinea pig brain: the effects of maturity and of magnesium sulfate administration. Brain Res 1999;817:117–122.
- Marret S, Gressens P, Gadisseux JF, Evrard P. Prevention by magnesium of excitotoxic neuronal death in the developing brain: an animal model for clinical intervention studies. Dev Med Child Neurol 1995;37:473–484.
- Sameshima H, Ota A, Ikenoue T. Pretreatment with magnesium sulfate protects against hypoxic-ischemic brain injury but postasphyxial treatment worsens brain damage in seven-day-old rats. Am J Obstet Gynecol 1999;180:725–730.
- Sameshima H, Ikenoue T. Long-term magnesium sulfate treatment as protection against hypoxic-ischemic brain injury in seven-day-old rats. Am J Obstet Gynecol 2001;184:185–190.
- Sameshima H, Ikenoue T. Effect of long-term, postasphyxial administration of magnesium sulfate on immunostaining of microtubule-associated protein-2 and activated caspase-3 in 7-day-old rat brain. J Soc Gynecol Investig 2002;9:203–209.
- Turkyilmaz C, Turkyilmaz Z, Atalay Y, Soylemezoglu F, Celasun B. Magnesium pre-treatment reduces neuronal apoptosis in newborn rats in hypoxia-ischemia. Brain Res 2002;955:133–137.