Нейромониторинг у больных с внутричерепными кровоизлияниями
Нейромониторинг у больных с внутричерепными кровоизлияниями
С.С.Петриков, В.В.Крылов, Л.Т.Хамидова. Нейромониторинг у больных с внутричерепными кровоизлияниями. Consilium Medicum. Неврология (Прил.). 2008; 1: 9-13.
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Список литературы
1. Лебедев В.В., Куксова Н.С., Крылов В.В., Мятчин М.Ю. Информативность ЭЭГ в остром периоде субарахноидального кровоизлияния вследствие разрыва внутричерепных церебральных аневризм. Вопр. нейрохир. 1989; 5: 44–9.
2. Goodman JC, Gopinath SP, Valadka AB et al. Lactic acid and amino acid fluctuations measured using microdialysis reflect physiological derangements in head injury. Acta Neurochir Suppl 1996; 67: 37–9.
3. Nordstrom CH. Assessment of critical thresholds for cerebral perfusion pressure by performing bedside monitoring of cerebral energy metabolism. Neurosurg Focus 2003; 15 (6): E5.
4. Гайдар Б.В., Парфенов В.Е., Свистов Д.В. Практическое руководство по транскраниальной допплерографии. СПб.: ВМедА, 1994; с. 18.
5. Шахнович А.Р., Шахнович В.А. Диагностика нарушений мозгового кровообращения. Транскраниальная допплерография. М., 1996; с. 446.
6. Kety SS, Shmidt CF. The nitrous oxide method for the quantitative determination of cerebral blood flow in man: Theory, procedure, and normal values. J Clin Invest 1948; 476–83.
7. Latronico N, Beindorf AE, Rasulo FA et al. Limits of the intermittent jugular bulb oxygen saturation monitoring in the management of severe head trauma patients. Neurosurgery 2000; 46: 1131–8.
8. Nylin G, Helund S, Regnstrom O. Cerebral circulation studied with labeled red cells in healthy males. Acta Radiol 1961; 55: 281–304.
9. Robertson CS, Narayan RK, Gokaslan ZL et al. Cerebral arteriovenous oxygen difference as an estimate of cerebral blood flow in comatose patients. J Neurosurg 1989; 70: 222–30.
10. Stocchetti N, Paparella A, Bridelli F et al. Cerebral venous oxygen saturation studied with bilateral samples in the internal jugular veins. Neurosurgery 1994; 34: 38–43.
11. Dearden NM. Jugular bulb venous oxygen saturation in the management of severe head injury. Curr Opi Anaesth 1991; 4: 279–86.
12. Valadka AB, Gopinath SP, Contant CF et al. Relationship of brain tissue pO2 to outcome after severe head injury. Crit Care Med 1998; 26: 1576–81.
13. Hillman J, Åneman O, Andersson C et al. A microdialysis technique for routine measurement of macromolecules in the injured human brain. Neurosurgery 2005; 56: 1264–70.
14. Engström M, Polito A, Reinstrup et al. Intracerebral microdialysis in severe brain trauma – the importance of catheter location. J Neurosurg 2005; 102: 460–9.
15. Hlatky R, Valadka AB, Goodman JC et al. Patterns of energy substrates during ischemia measured in the brain by microdialysis. J Neurotrauma 2004; 21 (7): 894–906.
16. Hillered L, Valtysson J, Enblad P, Persson L. Interstitial glycerol as a marker for membrane phospholipid degradation in the acutely injured human brain. J Neurol Neurosurg Psychiat 1998; 64 (4): 486–91.
17. Reinstrup P, Stahl N, Mellergard P et al. Intracerebral microdialysis in clinical practice: baseline values for chemical markers during wakefulness, anesthesia, and neurosurgery. Neurosurgery 2000; 47 (3): 701–9.
2. Goodman JC, Gopinath SP, Valadka AB et al. Lactic acid and amino acid fluctuations measured using microdialysis reflect physiological derangements in head injury. Acta Neurochir Suppl 1996; 67: 37–9.
3. Nordstrom CH. Assessment of critical thresholds for cerebral perfusion pressure by performing bedside monitoring of cerebral energy metabolism. Neurosurg Focus 2003; 15 (6): E5.
4. Гайдар Б.В., Парфенов В.Е., Свистов Д.В. Практическое руководство по транскраниальной допплерографии. СПб.: ВМедА, 1994; с. 18.
5. Шахнович А.Р., Шахнович В.А. Диагностика нарушений мозгового кровообращения. Транскраниальная допплерография. М., 1996; с. 446.
6. Kety SS, Shmidt CF. The nitrous oxide method for the quantitative determination of cerebral blood flow in man: Theory, procedure, and normal values. J Clin Invest 1948; 476–83.
7. Latronico N, Beindorf AE, Rasulo FA et al. Limits of the intermittent jugular bulb oxygen saturation monitoring in the management of severe head trauma patients. Neurosurgery 2000; 46: 1131–8.
8. Nylin G, Helund S, Regnstrom O. Cerebral circulation studied with labeled red cells in healthy males. Acta Radiol 1961; 55: 281–304.
9. Robertson CS, Narayan RK, Gokaslan ZL et al. Cerebral arteriovenous oxygen difference as an estimate of cerebral blood flow in comatose patients. J Neurosurg 1989; 70: 222–30.
10. Stocchetti N, Paparella A, Bridelli F et al. Cerebral venous oxygen saturation studied with bilateral samples in the internal jugular veins. Neurosurgery 1994; 34: 38–43.
11. Dearden NM. Jugular bulb venous oxygen saturation in the management of severe head injury. Curr Opi Anaesth 1991; 4: 279–86.
12. Valadka AB, Gopinath SP, Contant CF et al. Relationship of brain tissue pO2 to outcome after severe head injury. Crit Care Med 1998; 26: 1576–81.
13. Hillman J, Åneman O, Andersson C et al. A microdialysis technique for routine measurement of macromolecules in the injured human brain. Neurosurgery 2005; 56: 1264–70.
14. Engström M, Polito A, Reinstrup et al. Intracerebral microdialysis in severe brain trauma – the importance of catheter location. J Neurosurg 2005; 102: 460–9.
15. Hlatky R, Valadka AB, Goodman JC et al. Patterns of energy substrates during ischemia measured in the brain by microdialysis. J Neurotrauma 2004; 21 (7): 894–906.
16. Hillered L, Valtysson J, Enblad P, Persson L. Interstitial glycerol as a marker for membrane phospholipid degradation in the acutely injured human brain. J Neurol Neurosurg Psychiat 1998; 64 (4): 486–91.
17. Reinstrup P, Stahl N, Mellergard P et al. Intracerebral microdialysis in clinical practice: baseline values for chemical markers during wakefulness, anesthesia, and neurosurgery. Neurosurgery 2000; 47 (3): 701–9.
Авторы
С.С.Петриков, В.В.Крылов, Л.Т.Хамидова
НИИ скорой помощи им. Н.В.Склифосовского, Москва
НИИ скорой помощи им. Н.В.Склифосовского, Москва
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