• Aucun résultat trouvé

Patient décédé? * Dérivation Ventriculaire Péritonéale

 Patient décédé? * Dérivation Ventriculaire Externe.

Tableau croisé

Effectif

Dérivation Ventriculaire Externe Total

non Oui Patient décédé? Non 18 5 23 Oui 3 6 9 Total 21 11 32

 Patient décédé? * Craniotomie.

Tableau croisé Effectif Craniotomie Total non Oui Patient décédé? Non 7 16 23 Oui 6 3 9 Total 13 19 32

 Patient décédé? * Dérivation Ventriculaire Péritonéale

Tableau croisé

Effectif

Dérivation Ventriculaire Péritonéale Total

non Oui

Patient décédé?

Non 21 2 23

Oui 9 0 9

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

95

Tests du Khi-deux (résumé)

Khi-deux de Pearson (Valeurs) ddl Signification asymptotique (bilatérale) Patient décédé? * Dérivation Ventriculaire Externe. 5,788 a 1 0,016 Patient décédé? * Craniotomie. 3,521 a 1 0,061 Patient décédé? * Dérivation Ventriculaire Péritonéale 0,835 a 1 0,361 Nombre d'observations valides 32

a. 1 cellules (25,0%) ont un effectif théorique inférieur à 5. L'effectif théorique minimum est de 3,09. b. Calculé uniquement pour un tableau 2x2

Récapitulatif

Dimension Valeur singulière Inertie Khi-deux Sig. Proportion d'inertie Valeur singulière de confiance

Expliqué Cumulé Ecart-type

1 ,425 ,181 1,000 1,000 ,170

Total ,181 5,788 ,016a 1,000 1,000

a. 1 degrés de liberté

Caractéristiques des points lignesa

Dérivation Ventriculaire Externe

Masse Score dans la dimension Inertie Contribution 1 De point à inertie de dimension De dimension à inertie de point 1 1 Total non ,656 ,472 ,062 ,344 1,000 1,000 Oui ,344 -,901 ,119 ,656 1,000 1,000 Total actif 1,000 ,181 1,000

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

96

Caractéristiques des points colonnesa

Patient décédé? Masse Score dans la

dimension

Inertie Contribution

1 De point à inertie

de dimension

De dimension à inertie de point

1 1 Total

Non ,719 ,408 ,051 ,281 1,000 1,000

Oui ,281 -1,043 ,130 ,719 1,000 1,000

Total actif 1,000 ,181 1,000

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

97

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

98

8 REFERENCES

1. Leclerc, X., et al., [Imaging of non-traumatic intracerebral hematoma]. J Neuroradiol, 2003. 30(5): p. 303-16.

2. Wakai, S., N. Kumakura, and M. Nagai, Lobar intracerebral hemorrhage. A

clinical, radiographic, and pathological study of 29 consecutive operated cases with negative angiography. J Neurosurg, 1992. 76(2): p. 231-8.

3. Qureshi, A.I., W.H. Giles, and J.B. Croft, Racial differences in the incidence of

intracerebral hemorrhage: effects of blood pressure and education. Neurology,

1999. 52(8): p. 1617-21.

4. L. Velly, N.B., L. Pellegrini, HÉMATOMES INTRACRÂNIENS NON

TRAUMATIQUES. Neurochirurgie, 2012. 20: p. 9.

5. van Asch, C.J., et al., Incidence, case fatality, and functional outcome of

intracerebral haemorrhage over time, according to age, sex, and ethnic origin: a systematic review and meta-analysis. Lancet Neurol, 2010. 9(2): p. 167-76.

6. Godoy, D.A., G. Pinero, and M. Di Napoli, Predicting mortality in spontaneous

intracerebral hemorrhage: can modification to original score improve the prediction? Stroke, 2006. 37(4): p. 1038-44.

7. Zis, P., et al., Predicting 30-day case fatality of primary inoperable

intracerebral hemorrhage based on findings at the emergency department. J

Stroke Cerebrovasc Dis, 2014. 23(7): p. 1928-33.

8. Skidmore, C.T. and J. Andrefsky, Spontaneous intracerebral hemorrhage:

epidemiology, pathophysiology, and medical management. Neurosurg Clin N

Am, 2002. 13(3): p. 281-8, v.

9. Ronning, O.M., B. Guldvog, and K. Stavem, The benefit of an acute stroke unit

in patients with intracranial haemorrhage: a controlled trial. J Neurol

Neurosurg Psychiatry, 2001. 70(5): p. 631-4.

10. Gebel, J.M. and J.P. Broderick, Intracerebral hemorrhage. Neurol Clin, 2000.

18(2): p. 419-38.

11. Anderson, C.S., et al., Spectrum of primary intracerebral haemorrhage in

Perth, Western Australia, 1989-90: incidence and outcome. J Neurol

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

99

12. Feigin, V.L., et al., Stroke epidemiology: a review of population-based studies

of incidence, prevalence, and case-fatality in the late 20th century. Lancet

Neurol, 2003. 2(1): p. 43-53.

13. Qureshi, A.I., et al., Spontaneous intracerebral hemorrhage. N Engl J Med, 2001. 344(19): p. 1450-60.

14. Feldmann, E., et al., Major risk factors for intracerebral hemorrhage in the

young are modifiable. Stroke, 2005. 36(9): p. 1881-5.

15. Brott, T., K. Thalinger, and V. Hertzberg, Hypertension as a risk factor for

spontaneous intracerebral hemorrhage. Stroke, 1986. 17(6): p. 1078-83.

16. Ziyyat, A., et al., Epidemiology of hypertension and its relationship with type 2

diabetes and obesity in eastern Morocco. Springerplus, 2014. 3: p. 644.

17. Broderick, J.P., et al., Intracerebral hemorrhage more than twice as common

as subarachnoid hemorrhage. J Neurosurg, 1993. 78(2): p. 188-91.

18. Stead, L.G., et al., Emergency Department hyperglycemia as a predictor of

early mortality and worse functional outcome after intracerebral hemorrhage.

Neurocrit Care, 2010. 13(1): p. 67-74.

19. Ho, C.L., et al., Effects of glycaemic control on cerebral neurochemistry in

primary intracerebral haemorrhage. J Clin Neurosci, 2008. 15(4): p. 428-33.

20. Yildiz, O.K., et al., Previous antiplatelet use is associated with hematoma

expansion in patients with spontaneous intracerebral hemorrhage. J Stroke

Cerebrovasc Dis, 2012. 21(8): p. 760-6.

21. Arauz, A., et al., [Aspirin versus anticoagulation in young patients with cerebral

infarction secondary to primary antiphospholipid syndrome]. Rev Neurol, 2011.

53(10): p. 584-90.

22. Fogelholm, R., et al., Anticoagulant treatment as a risk factor for primary

intracerebral haemorrhage. J Neurol Neurosurg Psychiatry, 1992. 55(12): p.

1121-4.

23. M. Arnold, B., A. Barth, Berne; et al Hémorragies intracérébrales

non-traumatiques

1re partie: épidémiologie, physiopathologie et causes. Bulletin des médecins suisses,

2000.

24. Vuillier F, T.L., Moulin T, Hématome intracérébra spontané, in Neurology. 1999. p. 7.

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

100

25. Hart, R.G., B.S. Boop, and D.C. Anderson, Oral anticoagulants and

intracranial hemorrhage. Facts and hypotheses. Stroke, 1995. 26(8): p.

1471-7.

26. Mendelow, A.D., Spontaneous intracerebral haemorrhage. J Neurol Neurosurg Psychiatry, 1991. 54(3): p. 193-5.

27. Kameyama, S., R. Tanaka, and T. Tsuchida, Pure motor hemiplegia due to

pontine hemorrhage. Stroke, 1989. 20(9): p. 1288.

28. Wan, W.H., B.T. Ang, and E. Wang, The Cushing Response: a case for a

review of its role as a physiological reflex. J Clin Neurosci, 2008. 15(3): p.

223-8.

29. Abelson, A.L., D. Faissler, and A.Z. Karas, Anesthesia case of the month.

Development of the Cushing reflex secondary to a dangerous increase in intracranial pressure. J Am Vet Med Assoc, 2008. 232(9): p. 1298-300.

30. Fodstad, H., P.J. Kelly, and M. Buchfelder, History of the cushing reflex. Neurosurgery, 2006. 59(5): p. 1132-7; discussion 1137.

31. Herweh, C., et al., Evidence against a perihemorrhagic penumbra provided by

perfusion computed tomography. Stroke, 2007. 38(11): p. 2941-7.

32. Schellinger, P.D., et al., Stroke MRI in intracerebral hemorrhage: is there a

perihemorrhagic penumbra? Stroke, 2003. 34(7): p. 1674-9.

33. Kazui, S., et al., Enlargement of spontaneous intracerebral hemorrhage.

Incidence and time course. Stroke, 1996. 27(10): p. 1783-7.

34. Robinson, M.T., et al., Safety of recombinant activated factor VII in patients

with warfarin-associated hemorrhages of the central nervous system. Stroke,

2010. 41(7): p. 1459-63.

35. Mayer, S.A., et al., Recombinant activated factor VII for acute intracerebral

hemorrhage. N Engl J Med, 2005. 352(8): p. 777-85.

36. Zhao, X., et al., Cleaning up after ICH: the role of Nrf2 in modulating microglia

function and hematoma clearance. J Neurochem, 2015. 133(1): p. 144-152.

37. Staitieh, B.S., et al., Nrf2 Regulates PU.1 Expression and Activity in the

Alveolar Macrophage. Am J Physiol Lung Cell Mol Physiol, 2015: p.

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

101

38. Liu, H. and P. Talalay, Relevance of anti-inflammatory and antioxidant

activities of exemestane and synergism with sulforaphane for disease prevention. Proc Natl Acad Sci U S A, 2013. 110(47): p. 19065-70.

39. Jakubovic, R. and R.I. Aviv, Intracerebral hemorrhage: toward physiological

imaging of hemorrhage risk in acute and chronic bleeding. Front Neurol, 2012.

3: p. 86.

40. Qureshi, A.I., et al., Prevalence of elevated blood pressure in 563,704 adult

patients with stroke presenting to the ED in the United States. Am J Emerg

Med, 2007. 25(1): p. 32-8.

41. Hiraga, A., et al., Putaminal hemorrhage disrupts thalamocortical projection to

secondary somatosensory cortex: case report. J Neurol Sci, 2005. 231(1-2): p.

81-3.

42. Kim, J.S., J.H. Lee, and M.C. Lee, Small primary intracerebral hemorrhage.

Clinical presentation of 28 cases. Stroke, 1994. 25(7): p. 1500-6.

43. Kilpatrick, C.J., et al., Epileptic seizures in acute stroke. Arch Neurol, 1990.

47(2): p. 157-60.

44. Su, C.Y., et al., Perceptual differences between stroke patients with cerebral

infarction and intracerebral hemorrhage. Arch Phys Med Rehabil, 2000. 81(6):

p. 706-14.

45. Barinagarrementeria, F. and C. Cantu, Primary medullary hemorrhage. Report

of four cases and review of the literature. Stroke, 1994. 25(8): p. 1684-7.

46. Dziedzic, T., et al., Management and neurological outcome of spontaneous

spinal epidural hematoma. J Clin Neurosci, 2015. 22(4): p. 726-9.

47. Nagakane, Y., et al., Primary intracerebral hemorrhage during asleep period. Am J Hypertens, 2006. 19(4): p. 403-6.

48. Du, F.Z., et al., The accuracy of spot sign in predicting hematoma expansion

after intracerebral hemorrhage: a systematic review and meta-analysis. PLoS

One, 2014. 9(12): p. e115777.

49. Dimigen, M., et al., Long-term visibility of primary intracerebral hemorrhage on

magnetic resonance imaging. J Stroke Cerebrovasc Dis, 2004. 13(3): p.

104-8.

50. Venkatasubramanian, C., et al., Natural history of perihematomal edema after

intracerebral hemorrhage measured by serial magnetic resonance imaging.

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

102

51. Yates, P.A., et al., Cerebral microbleeds: a review of clinical, genetic, and

neuroimaging associations. Front Neurol, 2014. 4: p. 205.

52. Schrag, M. and D.M. Greer, Clinical associations of cerebral microbleeds on

magnetic resonance neuroimaging. J Stroke Cerebrovasc Dis, 2014. 23(10):

p. 2489-97.

53. Cheng, A.L., et al., Susceptibility-weighted imaging is more reliable than

T2*-weighted gradient-recalled echo MRI for detecting microbleeds. Stroke, 2013.

44(10): p. 2782-6.

54. Xi, G., R.F. Keep, and J.T. Hoff, Mechanisms of brain injury after intracerebral

haemorrhage. Lancet Neurol, 2006. 5(1): p. 53-63.

55. P. Grillo, L.V., N. Bruder, Accident vasculaire cérébral hémorragique :

nouveautés sur la prise en charge. 2006.

56. Misra, U.K., et al., A randomized placebo controlled trial of ranitidine versus

sucralfate in patients with spontaneous intracerebral hemorrhage for prevention of gastric hemorrhage. J Neurol Sci, 2005. 239(1): p. 5-10.

57. Diringer, M.N., Intracerebral hemorrhage: pathophysiology and management. Crit Care Med, 1993. 21(10): p. 1591-603.

58. Wang, J. and S. Dore, Heme oxygenase 2 deficiency increases brain swelling

and inflammation after intracerebral hemorrhage. Neuroscience, 2008. 155(4):

p. 1133-41.

59. Wang, J., H. Zhuang, and S. Dore, Heme oxygenase 2 is neuroprotective

against intracerebral hemorrhage. Neurobiol Dis, 2006. 22(3): p. 473-6.

60. Maslehaty, H., et al., Treatment of 817 patients with spontaneous

supratentorial intracerebral hemorrhage: characteristics, predictive factors and outcome. Clin Pract, 2012. 2(3): p. e56.

61. Sato, S., et al., [Antihypertensive Treatment of Acute Cerebral Hemorrhage

(ATACH)-II at Japan site: study design and advance construction of domestic research network]. Rinsho Shinkeigaku, 2012. 52(9): p. 642-50.

62. Shah, Q.A., M.A. Ezzeddine, and A.I. Qureshi, Acute hypertension in

intracerebral hemorrhage: pathophysiology and treatment. J Neurol Sci, 2007.

261(1-2): p. 74-9.

63. Messe, S.R., et al., Prophylactic antiepileptic drug use is associated with poor

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

103

64. Goldstein, J.N., et al., Timing of fresh frozen plasma administration and rapid

correction of coagulopathy in warfarin-related intracerebral hemorrhage.

Stroke, 2006. 37(1): p. 151-5.

65. Towfighi, A., S.M. Greenberg, and J. Rosand, Treatment and prevention of

primary intracerebral hemorrhage. Semin Neurol, 2005. 25(4): p. 445-52.

66. Potts, M.B. and H.A. Riina, Refining the role for evacuation of spontaneous

intracerebral hematomas: results of STICH II. World Neurosurg, 2014. 82(5):

p. 549-50.

67. Mendelow, A.D., et al., Early surgery versus initial conservative treatment in

patients with spontaneous supratentorial lobar intracerebral haematomas (STICH II): a randomised trial. Lancet, 2013. 382(9890): p. 397-408.

68. Mendelow, A.D., et al., Surgical trial in lobar intracerebral haemorrhage

(STICH II) protocol. Trials, 2011. 12: p. 124.

69. Mendelow, A.D. and A. Unterberg, Surgical treatment of intracerebral

haemorrhage. Curr Opin Crit Care, 2007. 13(2): p. 169-74.

70. Mendelow, A.D., et al., Early surgery versus initial conservative treatment in

patients with spontaneous supratentorial intracerebral haematomas in the International Surgical Trial in Intracerebral Haemorrhage (STICH): a randomised trial. Lancet, 2005. 365(9457): p. 387-97.

71. Zheng, J., et al., Minimally invasive surgery treatment for the patients with

spontaneous supratentorial intracerebral hemorrhage (MISTICH): protocol of a multi-center randomized controlled trial. BMC Neurol, 2014. 14: p. 206.

72. Jimenez-Leon, J.C. and C.S. Jimenez-Betancourt, [Indications for neuroendoscopy]. Rev Neurol, 2003. 36(3): p. 274-81.

73. Proust, F., et al., [Spontaneous supratentorial cerebral hemorrhage: role of

surgical treatment]. Neurochirurgie, 2007. 53(2-3 Pt 1): p. 58-65.

74. Morioka, J., et al., Surgery for spontaneous intracerebral hemorrhage has

greater remedial value than conservative therapy. Surg Neurol, 2006. 65(1): p.

67-72; discussion 72-3.

75. Qureshi, A.I., et al., Timing of neurologic deterioration in massive middle

cerebral artery infarction: a multicenter review. Crit Care Med, 2003. 31(1): p.

272-7.

76. Huang, P.X., Y. Huang, and M. Lu, [Treatment of acute intracerebral

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

104

Western medicine]. Zhongguo Zhong Xi Yi Jie He Za Zhi, 2006. 26(7): p.

590-3.

77. Lannoo, E., et al., Early predictors of mortality and morbidity after severe

closed head injury. J Neurotrauma, 2000. 17(5): p. 403-14.

78. Hemphill, J.C., 3rd, et al., The ICH score: a simple, reliable grading scale for

intracerebral hemorrhage. Stroke, 2001. 32(4): p. 891-7.

79. Rost, N.S., et al., Prediction of functional outcome in patients with primary

intracerebral hemorrhage: the FUNC score. Stroke, 2008. 39(8): p. 2304-9.

80. Hallevy, C., et al., Spontaneous supratentorial intracerebral hemorrhage.

Criteria for short-term functional outcome prediction. J Neurol, 2002. 249(12):

p. 1704-9.

81. Creutzfeldt, C.J., et al., Do-not-attempt-resuscitation orders and prognostic

models for intraparenchymal hemorrhage. Crit Care Med, 2011. 39(1): p.

158-62.

82. Naidech, A.M., et al., How patients die after intracerebral hemorrhage. Neurocrit Care, 2009. 11(1): p. 45-9.

83. M. damak, I.f., M. mezganni, C. triki, N. rekik, C. mhiri., Facteurs pronostiques

de l'accident vasculaire cérébral artériel à la phase aiguë Stroke, 2006.

84. Bejot Y, G.M., Rouaud O, Benatru I, Moreau T, Freycz M, et al., Évolution sur

vingt ans des taux d'incidence et de mortalité des AVC au sein de la population de Dijon intra-muros : 1985-2004. [Trends in stroke incidence and case-fatality rates over a 20-year period (1985-2004) in Dijon, France]. 2007.

85. Jimenez Caballero, P.E., et al., Charlson comorbidity index in ischemic stroke

and intracerebral hemorrhage as predictor of mortality and functional outcome after 6 months. J Stroke Cerebrovasc Dis, 2013. 22(7): p. e214-8.

86. Wang, W.J., et al., Clinical characteristics, management, and functional

outcomes in Chinese patients within the first year after intracerebral hemorrhage: analysis from China National Stroke Registry. CNS Neurosci

Ther, 2012. 18(9): p. 773-80.

87. M. grira, et al., Recommandations sur la prise en charge de l'accident

vasculaire cérébral à la phase aiguë. Stroke, 2008: p. 5.

88. Sun, J., et al., The relationship between nocturnal blood pressure and

hemorrhagic stroke in Chinese hypertensive patients. J Clin Hypertens

Les hématomes intracérébraux spontanés, expérience du Service de Neurochirurgie du Centre Hospitalier Ibn Sina de

Rabat-2015

105

89. Risch, O., et al., Severe non-traumatic bleeding events detected by computed

tomography: do anticoagulants and antiplatelet agents have a role? J

Cardiothorac Surg, 2014. 9: p. 166.

90. Kirkman, M.A., et al., The effect of the results of the STICH trial on the

management of spontaneous supratentorial intracerebral haemorrhage in Newcastle. Br J Neurosurg, 2008. 22(6): p. 739-46; discussion 747.

91. Jang, J.H., Y.G. Song, and Y.Z. Kim, Predictors of 30-day mortality and

90-day functional recovery after primary pontine hemorrhage. J Korean Med Sci,

2011. 26(1): p. 100-7.

92. Kim, K.H., Predictors of 30-day mortality and 90-day functional recovery after

primary intracerebral hemorrhage : hospital based multivariate analysis in 585 patients. J Korean Neurosurg Soc, 2009. 45(6): p. 341-9.

93. Becker, K.J., et al., Withdrawal of support in intracerebral hemorrhage may

Télécharger maintenant "Les hématomes intracér..."

Outline

Documents relatifs