2019, Number 3
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Cir Cir 2019; 87 (3)
Refractory traumatic intracranial hypertension: the role of decompressive craniectomy
Moscote-Salazar LR, Alvis-Miranda HRI, Ramos-Villegas Y, Quintana-Pajaro L, Rubiano AM, Alcalá-Cerra G, González-Torres JB, Narváez-Rojas AR
Language: Spanish
References: 38
Page: 258-264
PDF size: 190.54 Kb.
ABSTRACT
Traumatic brain injury according to the World Health Organization estimates that by 2020 will be the third leading cause of
morbidity and mortality worldwide. Intracranial hypertension refractory to medical management is the cause of increased mortality
in neurotrauma. There are various measures to control intracranial hypertension, including surgical. Decompressive
craniectomy has been routinely used to treat intracranial hypertension secondary to cerebral infarction, subarachnoid hemorrhage,
intracerebral hemorrhage and trauma. We review the literature to describe the mechanisms, types and indications for
this procedure.
REFERENCES
Murray CJ, Lopez AD. Alternative projections of mortality and disability by cause 1990–2020: Global Burden of Disease Study. Lancet. 1997;349:1498-504.
Centers for Disease Control and Prevention. Report to Congress on Traumatic Brain Injury in the United States: Epidemiology and Rehabilitation. National Center for Injury Prevention and Control; Division of Unintentional Injury Prevention. Atlanta, GA. 2015. Disponible en: https:// www.cdc.gov/traumaticbraininjury/pdf/TBI_Report_to_Congress_Epi_ and_Rehab-a.pdf
Honeybul S. Decompressive craniectomy for severe traumatic brain injury: a review of its current status. J Neurol Neurophysiol S9. 2012. Disponible en: https://www.omicsonline.org/decompressive-craniectomy- for-severe-traumatic-brain-injury-a-review-of-its-current-status- 2155-9562.S9-001.php?aid=5204
Moreno Lozada SL. Comportamiento de muertes y lesiones accidentales. Colombia, 2013. Bogota; 2013. Disponible en: http://www.medicinalegal. gov.co/documents/20143/49517/Muertes+y+lesiones+accidentales.pdf. Ultimo acceso: 10 de marzo de 2018
Guidelines for minor head injured patients’ management in adult age. The Study Group on Head Injury of the Italian Society for Neurosurgery. J Neurosurg Sci. 1996;40:11-5.
Coronado VG, McGuire LC, Sarmiento K, Bell J, Lionbarger MR, Jones CD, et al. Trends in traumatic brain injury in the U.S. and the public health response: 1995–2009. J Safety Res. 2012;43:299-307.
Mokri B. The Monro-Kellie hypothesis: applications in CSF volume depletion. Neurology. 2001;56:1746-8.
Rangel-Castilla L, Rangel-Castillo L, Gopinath S, Robertson CS. Management of intracranial hypertension. Neurol Clin. 2008;26:521-41.
Rohlwink UK, Zwane E, Graham Fieggen A, Argent AC, Le Roux PD, Figaji AA. The relationship between intracranial pressure and brain oxygenation in children with severe traumatic brain injury. Neurosurgery. 2012;70:1220-31.
Nekludov M, Bellander B-M, Mure M. Oxygenation and cerebral perfusion pressure improved in the prone position. Acta Anaesthesiol Scand. 2006;50:932-6.
Egea-Guerrero JJ, Gordillo-Escobar E, Revuelto-Rey J, Enamorado-Enamorado J, Vilches-Arenas A, Pacheco-Sánchez M, et al. Clinical variables and neuromonitoring information (intracranial pressure and brain tissue oxygenation) as predictors of brain-death development after severe traumatic brain injury. Transplant Proc. 2012;44:2050-2.
Maghool F, Khaksari M, Siahposht Khachki A. Differences in brain edema and intracranial pressure following traumatic brain injury across the estrous cycle: involvement of female sex steroid hormones. Brain Res. 2013;1497:61-72.
Abdalla Mohamed A, Ahmed Ibrahim W, Fayez Safan T. Hemodynamic and intracranial pressure changes in children with severe traumatic brain injury. Egypt J Anaesth. 2011;27:273-8.
Geeraerts T, Menon DK. Le monitorage de la pression intracrânienne améliore-t-il le devenir des traumatisés crâniens graves? Ann Fr Anesth Reanim. 2010;29 e171-5.
Cianfoni A, Cha S, Bradley WG, Dillon WP, Wintermark M. Quantitative measurement of blood-brain barrier permeability using perfusion-CT in extra-axial brain tumors. J Neuroradiol. 2006;33:164-8.
Kan PKY, Chu MHM, Koo EGY, Chan MTV. Brain herniation. En: Complications in Neuroanesthesia. London: Academic Press - Elsevier; 2016. p. 3-13.
Hou K, Zhu X, Zhao J, Zhang Y, Gao X, Jiang K, et al. Efficacy of reinforced restriction of physical activity on chronic subdural hematoma: prospective pilot study. World Neurosurg. 2018;110:e1011-6.
Patil AA, Hahn FJ, Leibrock LG. Axial herniation with brain stem deformity as a cause of sleep apnea. Clin Neurol Neurosurg. 1991;93:65-7.
Nguyen JP, Djindjian M, Brugičres P, Badiane S, Melon E, Poirier J. Anatomy-computerized tomography correlations in transtentorial brain herniation. J Neuroradiol. 1989;16:181-96.
Timofeev I, Czosnyka M, Nortje J, Smielewski P, Kirkpatrick P, Gupta A, et al. Effect of decompressive craniectomy on intracranial pressure and cerebrospinal compensation following traumatic brain injury. J Neurosurg. 2008;108 66-73.
Ragel BT, Klimo P, Martin JE, Teff RJ, Bakken HE, Armonda RA. Wartime decompressive craniectomy: technique and lessons learned. Neurosurg Focus. 2010;28 E2.
Quinn TM, Taylor JJ, Magarik JA, Vought E, Kindy MS, Ellegala DB. Decompressive craniectomy: technical note. Acta Neurol Scand. 2011;123:239-44.
Holland M, Nakaji P. Craniectomy: surgical indications and technique. Oper Tech Neurosurg. 2004;7:10-5.
Timofeev I, Santarius T, Kolias AG, Hutchinson PJA. Decompressive craniectomy — operative technique and perioperative care. Vienna: Springer; 2012. p. 115-36.
Huang X, Wen L. Technical considerations in decompressive craniectomy in the treatment of traumatic brain injury. Int J Med Sci. 2010; 7:385-90.
Sekhar LN, Mai JC. Dural repair after craniotomy and the use of dural substitutes and dural sealants. World Neurosurg. 2013;79:440-2.
Mumert ML, Altay T, Couldwell WT. Technique for decompressive craniectomy using Seprafilm as a dural substitute and anti-adhesion barrier. J Clin Neurosci. 2012;19:455-7.
Bao Y-H, Liang Y-M, Gao G-Y, Pan Y-H, Luo Q-Z, Jiang J-Y. Bilateral decompressive craniectomy for patients with malignant diffuse brain swelling after severe traumatic brain injury: a 37-case study. J Neurotrauma. 2010;27:341-7.
Gerl A, Tavan S. Bilateral craniectomy in the treatment of severe traumatic brain edema. Zentralbl Neurochir. 1980;41:125-38.
Mitchell P, Gregson BA, Vindlacheruvu RR, Mendelow AD. Surgical options in ICH including decompressive craniectomy. J Neurol Sci. 2007;261:89-98.
Senapati SB, Sekhar Mishra S, Das S, Chandra Satpathy P. Cranioplasty after decompressive craniectomy. Indian J Neurotrauma. 2012; 9:136-9.
Alvis-Miranda H, Castellar-Leones SM, Moscote-Salazar LR. Decompressive Craniectomy and Traumatic Brain Injury: A Review. Bull Emerg Trauma. 2013;1(2):60-8.
Pereyra C, Benito Mori L, Schoon P, Violi D, Jacintho P, Segui G, et al. Decompressive craniectomy and brain death prevalence and mortality: 8-year retrospective review. Transplant Proc. 2012;44:2181-4.
Schwarz F, Dünisch P, Walter J, Sakr Y, Kalff R, Ewald C. Cranioplasty after decompressive craniectomy: is there a rationale for an initial artificial bone-substitute implant? A single-center experience after 631 procedures. J Neurosurg. 2016;124:710-5.
Taylor A, Butt W, Rosenfeld J, Shann F, Ditchfield M, Lewis E, et al. A randomized trial of very early decompressive craniectomy in children with traumatic brain injury and sustained intracranial hypertension. Child’s Nerv Syst. 2001;17:154-62.
Qiu W, Guo C, Shen H, Chen K, Wen L, Huang H, et al. Effects of unilateral decompressive craniectomy on patients with unilateral acute post-traumatic brain swelling after severe traumatic brain injury. Crit Care. 2009;13 R185.
Cooper DJ, Rosenfeld JV, Murray L, Arabi YM, Davies AR, D’Urso P, et al. Decompressive craniectomy in diffuse traumatic brain injury. N Engl J Med. 2011;364:1493-502.
Hutchinson PJ, Kolias AG, Timofeev IS, Corteen EA, Czosnyka M, Timothy J, et al. Trial of decompressive craniectomy for traumatic intracranial hypertension. N Engl J Med. 2016;375:1119-30.