Efectos espinales de los gases halogenados |
Página 4 de 4 Bibliografía:1. García-Fernández J, Parodi E, García P, Matute E, Álvarez I, Cediel R, Gilsanz F. Clinical actions of subarachnoid sevoflurane administration in vivo: a study in dogs. British Journal Anaesthesia 2005; 95(4): 530-4. 2. Vilela H, García-Fernández J, Parodi E, Reinoso-Barbero F, Duran P, Gilsanz F. Anaesthetic management of a patient with MERFF syndrome. Paediatric Anaesthesia. 2005; 15: 77-79. 3. Antognini JF, Schwartz K. Exaggerated anesthetic requirements in the preferentially anesthetized brain. Anesthesiology 1993; 79: 1244-9. 4. Rampil IJ, Mason P, Singh H. Anesthetic potency (MAC) is independent of forebrain structures in the rat. Anesthesiology 1993; 78: 707-12. 5. Matute E, Lopez-Garcia JA. Characterisation of sevoflurane effects on spinal somato-motor nociceptive and non-nociceptive transmission in neonatal rat spinal cord: an electrophysiological study in vitro. Neuropharmacology 2003; 44: 811–816 6. Antognini JF, Atherley R, Carstens E. Isoflurane action in spinal cord indirectly depresses cortical activity associated with electrical stimulation of the reticular formation. Anesth Analg 2003; 96: 999-1003. 7. Antognini JF, Carstens E. In vivo characterizacion of clinical anaesthesia and its components. Br J Anaesth 2002; 89: 156-66.8. Matute E, Rivera-Arconada I, Lopez-Garcia JA. Effects of propofol and sevoflurane on the excitability of rat spinal motoneurones and nociceptive reflexes in vitro. Br J Anaesth 2004; 93: 422-7. 9. Matute E, Rojo P, Lopez-Garcia JA. Effects of sevoflurane and propofol at different concentrations on F-wave and H-Reflex in humans. Anesthesiology 2004; 101: A308. 10. Urban BW. Current assessment of targets and theories of anaesthesia. Br J Anaesth 2002; 89: 167-83.11. Rampil IJ, King BS. Volatile anesthetics depress spinal motor neurons. Anesthesiology 1996; 85: 129-34. |
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