References

1. Penrice J, Cady E, Lorek A, Wylezinska M, Amess P, Aldridge R.et. al. Proton Magnetic Resonance Spectroscopy of the Brain in Normal Preterm and Term Infants, and Early Changes after Perinatal Hypoxia-Ischemia. Pediatr. Res. 1996; 40: 6-14.
2. Edwards A and Azzopardi D. Perinatal hypoxia-ischemia and brain injury. Pediatr. Res. 2000; 47: 431-432.
3. Toft P. Prenatal and perinatal striatal injury: a hypothetical cause of attention-deficit-hyperactivity disorder?. Pediatr. Neurol. 1999; 21: 602-610.
4. Barkovich A, Baranski K, Vigneron D, Partridge J, Hallam D, Latal B et. al. Proton MR Spectroscopy for the evaluation of brain injury in asphyxiated, term neonates. Am. J. Neuroradiol. 1999; 20: 1399-1405.
5. Zarifi M, Astrakas L, Poussaint T, du Plessis A, Zurakowski D and Tzika A. Prediction of adverse outcome with cerebral lactate level and apparent diffusion coefficient in infants with perinatal asphyxia. Radiology 2002; 225: 859-870.
6. Borowska-Matwiecjzuk K, Lemancewicz A, Tarasów E, Urban J, Urban R, Walecki W et. al. Assessment of fetal distress based on magnetic resonance examinations: preliminary report. Acad. Radiol. 2003;10:1274-1282.
7. Borowska-Matwiecjzuk K, Lemancewicz A, Tarasów E, Urban J, Urban R, Walecki W et. al. The assessment of fetus in distress using MRI and ¹HMRS based on performed observation. Pol. J. Radiol. 2003; 68:5-12.
8. Roelants-Van Rijn A, Van Der Grond J, De Vries L and Groenendaal F. Value of ¹HMRS using different echo times in neonates with cerebral hypoxia-ischemia. Pediatr. Res. 2001;49: 356-362.
9. Leth H, Toft P, Pryds O, Peitersen B, Lou H and Henriksen O. Brain lactate in preterm and growth-retarded neonates. Acta Paediatr. 1995; 84:495-499.
10. Heerschap A and van den Berg, P. Proton Magnetic Resonance Spectroscopy of Human Fetal Brain. Am. J. Obstet. Gynecol. 1994; 170: 1150-1151.
11. van Cappellen A, Heerschap A, Nijhuis J, Oeseburg H and Jongsma. Proton magnetic resonance spectroscopy of fetal lamb brain during hypoxia. Am. J. Obstet. Gynecol. 1998; 179: 756-757.
12. van Capellen A, Heerschap A, Nijhuis J, Oeseburg B and Jongsma H. Hypoxia, the subsequent systemic metabolic acidosis, and their relationship with cerebral metabolite concentrations: An in vivo study in fetal lambs with proton magnetic resonance spectroscopy. Am. J. Obstet. Gynecol 1999; 181:1537-1545.
13. Penrice J, Lorek A, Cady E, Amess P, Wylezinska M, Cooper C. et.al. Proton magnetic resonance spectroscopy of the brain during acute hypoxia-ischemia and delayed cerebral energy failure in the newborn piglet. Pediatr. Res. 1997; 41: 795-802.
14. Alvarado A, Ortega R, Mayobre F, Itriago P, Hernández N and Itriago S. ¹H Magnetic Resonance Spectroscopy (MRS) and Doppler Ultrasound (US) on the Brains of Human Fetuses in High-Risk Pregnancies. Radiology 2000; 217 (Suppl 1): 477.
15. Alvarado A, Ortega R, Mayobre F, Itriago P, Hernández N and Itriago S. Estudio Bioquímico del Cerebro Humano Fetal mediante Espectroscopia por Resonancia Magnética (ERM) y Ultrasonido Doppler. Acta Científica Venezolana 2000; 51: (Supl.2),160.
16. Alvarado A, Ortega R, Mayobre F, Hernández N, Martín M, Guevara F, Siurana S, Paseta F y Guitan J. Effect of verapamil administration on Human Brain Fetuses in High Risk Pregnancy after Lactate detection by 1H Magnetic Resonance Spectroscopy. Proc. Intl. Soc. Mag. Reson. Med.2002; (10): 2547.
17. Kreis R, Hofmann L, Kuhlmann B, Boesch C, Bossi E and Huppi P. Brain metabolite composition during early human brain development as measured by quantitative in vivo 1H magnetic resonance spectroscopy. Magn. Reson. Med. 2002; 48 : 949-958.
18. Kok R, van den Bergh A, Heerschap A, Nijland A and van den Berg P. Metabolic information from the human fetal brain obtained with proton magnetic resonance spectroscopy. Am. J. Obstet. Gynecol. 2001; 185: 1011-1015.
19. Kok R, van der Berg P, van den Bergh A, Nijland R and Heershap A. Maturation of the Human Fetal Brain as observed by 1H MR Spectroscopy. Magn. Reson. Med. 2002; 48: 611-616.
20. Heerschap A, van den Bergh, van den Boogert, Kok R and van den Berg P. Proton MR Spectroscopy of the Human Fetal Brain in utero. Proc. Intl. Soc. Magn. Reson. Med. 1999; (7): 337.
21. van den Berg A, Heerschap A, Kok R and van den Berg. Fetal Brain Development as reflected in metabolite ratio recorded by 1H MRS. Proc. Intl. Soc. Magn. Reson. Med. 2000;(8): 588.
22. Chin-Shoou L, Fenton B, Macedonia C, Schellinger D and Ascher S. In vivo Volume-selected Proton MR Spectroscopy of the Fetus in Utero- Initial Experience. Proc. Intl. Soc. Magn. Reson. Med. 2000; (8):1915.
23. van Cappellen A, Jongsma H, Wevers R, Nijhuis J, Crevels J, Engelke U et. al. Hypoxia in fetal lambs: a study with 1H-NMR spectroscopy of cerebrospinal fluid. Pediatr. Res. 2001; 49: 698-704.
24. van Cappellen A, Jongsma H, Wevers R, Nijhuis J, Crevels J, Engelke U et. al. 1H-NMR spectroscopy of cerebrospinal fluid of fetal sheep during hypoxia-induced acidemia and recovery. Pediatr. Res. 2002; 52: 56-63.
25. Ashwal S, Holshouser B, Tomasi L, Shu S, Perkin R, Nystrom G et.al. 1H-magnetic resonance spectroscopy-determined cerebral lactate and poor neurological outcomes in children with central nervous system disease. Ann. Neurol. 1997;41:470-481.
26. Delivoria-Papadopoulos M and Mishra O. Mechanisms of perinatal cerebral injury in fetus and newborn. Ann. N. Y. Acad. Sci. 2000; 900:159-168.
27. Cooper C and Wyatt J. NMR spectroscopy and imaging of the neonatal brain. Biochem. Soc. Trans. 2000; 28 :121-126.
28. Delivoria-Papadopoulos M and DiGiacomo J. ³¹P Nuclear magnetic resonance spectroscopy in the human neonatal brain.Semin. Perinatol 1990; 14:248-257.
29. Dilmen U, Mete E, Varoglu E, Akyüz M, Akin Y and Örs R. The effect of verapamil and magnesium sulfate on regional cerebral blood flow in a pup model of perinatal asphyxia. J.Islam. Acad. Sci. 1995; 8 : 1-7.
30. Ortega R, Clarembaux J, Hernandez C and Gil E. El verapamil en las resistencias fetales altas. Rev. Mex. Pueril. Ped. 1995; 3: 38-44.
31. Ortega R, Clarembaux J, Salazar E, Guevara F, Urbina D and Hernández A. Efectos de aspirina y verapamil sobre resistencias materno fetales en primigestas con riesgo de preeclampsia. Rev. Obstet. Ginecol. Venez. 1993; 53: 17-22.
32. Ortega R, Clarembaux J, Guevara F, Ortega J and Weisinger K. Resistencias fetales altas. Uso de vasodilatadores por vía materna. Rev. Obstet. Ginecol. Venez. 1992; 52: 35-41.
33. Isla M and Dyer D. Vasodilatory effects of nifedipine, methoxyverapamil and sodium nitropruside on contractile response of the ewe uterine artery at term pregnancy. Am. J. Obstet. Gynecol. 1990; 163: 1337-1344.
34. Dubiel M, Gunnarsson G and Gudmundsson S. Blood redistribution in the fetal brain during chronic hypoxia. Ultras. Obstet. Gynecol. 2002; 20:117
35. Saliba E, Barantin L, Akoka S, Tranquart F, Pourcelot L, Gold F et.al. Circulation and cerebral metabolism in neonatal hypoxia-ischemia. J. Gynecol. Obstet. Biol. Reprod. 1997; 26:465-469.
36. Kato T, Nishina M, Matsushita K, Hori E, Mito T and Takashima S. Neuronal maturation and N-acetyl-L-aspartic acid development in human fetal and child brains. Brain Dev. 1997;19:131-133.
37. Fenton B, Chin-Shoou L, Macedonia C, Schellinger D and Ascher S. The fetus at term: in utero volume-selected proton MR Spectroscopy with a breath-hold technique-A feasibility study. Radiology 2001; 219: 563-566.
38. van Cappellen A, Rijpkema M, Heerschap A, Oeseburg B, Nijhuis J and Jongsma H. Cerebral (31) P magnetic resonance spectroscopy and systemic acid-base balance during hypoxia in fetal sheep. Pediatr. Res. 2003;54:747-752.
39. Heerschap A, Kok R and van den Berg P. Antenatal proton MR spectroscopy of the human brain in vivo. Childs Nerv. Sys. 2003;19:418-421.