LITERATURE REVIEW
Neurocritical care monitoring of encephalopathic children with acute liver failure: A systematic review
Adam Hunt, Robert C. Tasker,
Akash Deep,
Robert C. Tasker
Harvard Medical School, Chair in Neurocritical Care, Boston Children's Hospital, Boston, MA
Search for more papers by this authorCorresponding Author
Akash Deep
Paediatric Intensive Care, King's College Hospital, London, UK
Correspondence
Akash Deep, Paediatric Intensive Care, King's College Hospital, London, UK.
Email: [email protected]
Search for more papers by this authorAdam Hunt, Robert C. Tasker,
Akash Deep,
Robert C. Tasker
Harvard Medical School, Chair in Neurocritical Care, Boston Children's Hospital, Boston, MA
Search for more papers by this authorCorresponding Author
Akash Deep
Paediatric Intensive Care, King's College Hospital, London, UK
Correspondence
Akash Deep, Paediatric Intensive Care, King's College Hospital, London, UK.
Email: [email protected]
Search for more papers by this authorAbstract
Research on non-invasive neuromonitoring specific to PALF is limited. This systematic review identifies and synthesis the existing literature on non-invasive approaches to monitoring for neurological sequelae in patients with PALF. A series of literature searches were performed to identify all publications pertaining to five different non-invasive neuromonitoring modalities, in line with PRISMA guidelines. Each modality was selected on the basis of its potential for direct or indirect measurement of cerebral perfusion; studies on electroencephalographic monitoring were therefore not sought. Data were recorded on study design, patient population, comparator groups, and outcomes. A preponderance of observational studies was observed, most with a small sample size. Few incorporated direct comparisons of different modalities; in particular, comparison to invasive intracranial pressure monitoring was largely lacking. The integration of current evidence is considered in the context of the clinically significant distinctions between pediatric and adult ALF, as well as the implications for planning of future investigations to best support the evidence-based clinical care of these patients.
CONFLICT OF INTEREST
The authors do not disclose any potential sources of conflict of interest.
Supporting Information
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REFERENCES
- 1Devictor D, Desplanques L, Debray D, et al. Emergency liver transplantation for fulminant liver failure in infants and children. Hepatology. 1992; 16(5): 1156-1162.
- 2Rivera-Penera T, Moreno J, Skaff C, McDiarmid S, Vargas J, Ament ME. Delayed encephalopathy in fulminant hepatic failure in the pediatric population and the role of liver transplantation. J Pediatr Gastroenterol Nutr. 1997; 24(2): 128-134.
- 3Squires RH, Shneider BL, Bucuvalas J, et al. Acute liver failure in children: the first 348 patients in the pediatric acute liver failure study group. J Pediatr. 2006; 148(5): 652-658.
- 4Taylor SA, Whitington PF. Neonatal acute liver failure. Liver Transplant. 2016; 22(5): 677-685.
- 5Durand P, Debray D, Mandel R, et al. Acute liver failure in infancy: A 14-year experience of a pediatric liver transplantation center. J Pediatr. 2001; 139(6): 871-876.
- 6Sundaram SS, Alonso EM, Narkewicz MR, Zhang S, Squires RH, Pediatric Acute Liver Failure Study Group. Characterization and outcomes of young infants with acute liver failure. J Pediatr. 2011; 159(5): 813-818.e1.
- 7Samyn M. Acute-on-chronic liver failure in children. J Pediatr Gastroenterol Nutr. 2016; 63(4): 387-388.
- 8Gregorio GV, Portmann B, Reid F, et al. Autoimmune hepatitis in childhood: a 20-year experience. Hepatology. 1997; 25(3): 541-547.
- 9Dhawan A, Taylor RM, Cheeseman P, De Silva P, Katsiyiannakis L, Mieli-Vergani G. Wilson's disease in children: 37-Year experience and revised King's score for liver transplantation. Liver Transplant. 2005; 11(4): 441-448.
- 10Vilstrup H, Amodio P, Bajaj J, et al. Hepatic Encephalopathy in Chronic Liver Disease: 2014 Practice Guideline by AASLD and EASL. 2014.
- 11Dhawan A, Mieli-Vergani G. Acute liver failure in neonates. Early Hum Dev. 2005; 81(12): 1005-1010.
- 12Keays RT, Alexander GJ, Williams R. The safety and value of extradural intracranial pressure monitors in fulminant hepatic failure. J Hepatol. 1993; 18(2): 205-209.
- 13Vaquero J, Fontana RJ, Larson AM, et al. Complications and use of intracranial pressure monitoring in patients with acute liver failure and severe encephalopathy. Liver Transplant. 2005; 11(12): 1581-1589.
- 14Bernuau J, Durand F. Intracranial pressure monitoring in patients with acute liver failure: a questionable invasive surveillance. Hepatology. 2006; 44(2): 502-504.
- 15Helmke K, Burdelski M, Hansen HC. Detection and monitoring of intracranial pressure dysregulation in liver failure by ultrasound. Transplantation. 2000; 70(2): 392-395.
- 16Krishnamoorthy V, Beckmann K, Mueller M, Sharma D, Vavilala MS. Perioperative estimation of the intracranial pressure using the optic nerve sheath diameter during liver transplantation. Liver Transplant. 2013; 19(3): 246-249.
- 17Seo H, Kim Y-K, Shin WJ, Hwang GS. Ultrasonographic optic nerve sheath diameter is correlated with arterial carbon dioxide concentration during reperfusion in liver transplant recipients. Transplant Proc. 2013; 45(6): 2272-2276.
- 18Nielsen HB, Tofteng F, Wang LP, Larsen FS. Cerebral oxygenation determined by near-infrared spectrophotometry in patients with fulminant hepatic failure. J Hepatol. 2003; 38(2): 188-192.
- 19Zheng Y, Villamayor AJ, Merritt W, et al. Continuous cerebral blood flow autoregulation monitoring in patients undergoing liver transplantation. Neurocrit Care. 2012; 17(1): 77-84.
- 20Jun I-G, Shin W-J, Park Y-S, Song J-G, Kim Y-K, Hwang G-S. Factors affecting intraoperative changes in regional cerebral oxygen saturation in patients undergoing liver transplantation. Transplant Proc. 2013; 45(1): 245-250.
- 21Larsen FS, Ejlersen E, Hansen BA, Knudsen GM, Tygstrup N, Secher NH. Functional loss of cerebral blood flow autoregulation in patients with fulminant hepatic failure. J Hepatol. 1995; 23(2): 212-217.
- 22Philips BJ, Armstrong IR, Pollock A, Lee A. Cerebral blood flow and metabolism in patients with chronic liver disease undergoing orthotopic liver transplantation. Hepatology. 1998; 27(2): 369-376.
- 23Pere P, Höckerstedt K, Isoniemi H, Lindgren L. Cerebral blood flow and oxygenation in liver transplantation for acute or chronic hepatic disease without venovenous bypass. Liver Transplant. 2000; 6(4): 471-479.
- 24Ellis AJ, Wendon JA, Williams R. Subclinical seizure activity and prophylactic phenytoin infusion in acute liver failure: a controlled clinical trial. Hepatology. 2000; 32(3): 536-541.
- 25Larsen FS, Strauss G, Møller K, Hansen BA. Regional cerebral blood flow autoregulation in patients with fulminant hepatic failure. Liver Transplant. 2000; 6(6): 795-800.
- 26Sorkine P, Ben Abraham R, Szold O, et al. Role of the molecular adsorbent recycling system (MARS) in the treatment of patients with acute exacerbation of chronic liver failure. Crit Care Med. 2001; 29(7): 1332-1336.
- 27Tofteng F, Larsen FS. The effect of indomethacin on intracranial pressure, cerebral perfusion and extracellular lactate and glutamate concentrations in patients with fulminant hepatic failure. J Cereb Blood Flow Metab. 2004; 24(7): 798-804.
- 28Brusilow SW, Traystman R. Hepatic encephalopathy. N Engl J Med. 1986; 314(12): 786-787; author reply 787.
- 29Michalak A, Rose C, Butterworth J, Butterworth RF. Neuroactive amino acids and glutamate (NMDA) receptors in frontal cortex of rats with experimental acute liver failure. Hepatology. 1996; 24(4): 908-913.
- 30Clemmesen JO, Larsen FS, Kondrup J, Hansen BA, Ott P. Cerebral herniation in patients with acute liver failure is correlated with arterial ammonia concentration. Hepatology. 1999; 29(3): 648-653.
- 31Bernal W, Hall C, Karvellas CJ, Auzinger G, Sizer E, Wendon J. Arterial ammonia and clinical risk factors for encephalopathy and intracranial hypertension in acute liver failure. Hepatology. 2007; 46(6): 1844-1852.
- 32Tofteng F, Hauerberg J, Hansen BA, Pedersen CB, Jørgensen L, Larsen FS. Persistent arterial hyperammonemia increases the concentration of glutamine and alanine in the brain and correlates with intracranial pressure in patients with fulminant hepatic failure. J Cereb Blood Flow Metab. 2006; 26(1): 21-27.
- 33Huizenga JR, van Dam GM, Gips CH. Arterial ammonia with Blood Ammonia Checker II and with indophenol reaction to assess presence of hepatic encephalopathy. Clin Chim Acta. 1996; 252(1): 73-82.
- 34Joshi D, O’Grady J, Patel A, et al. Cerebral oedema is rare in acute-on-chronic liver failure patients presenting with high-grade hepatic encephalopathy. Liver Int. 2014; 34(3): 362-366.
- 35Devictor D, Tissieres P, Durand P, Chevret L, Debray D. Acute liver failure in neonates, infants and children. Expert Rev Gastroenterol Hepatol. 2011; 5(6): 717-729.
- 36 Pediatric Gastroenterology Chapter of Indian Academy of Pediatrics, Bhatia V, Bavdekar A, Yachha SK, Indian Academy of Pediatrics. Management of acute liver failure in infants and children: consensus statement of the pediatric gastroenterology chapter, Indian academy of pediatrics. Indian Pediatr. 2013; 50(5): 477-482.
- 37Ciancio A, Marchet A, Saracco G, et al. Spectral electroencephalogram analysis in hepatic encephalopathy and liver transplantation. Liver Transplant. 2002; 8(7): 630-635.
- 38Hussain E, Grimason M, Goldstein J, et al. EEG abnormalities are associated with increased risk of transplant or poor outcome in children with acute liver failure. J Pediatr Gastroenterol Nutr. 2014; 58(4): 449-456.
- 39Liberati A, Altman DG, Tetzlaff J, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate healthcare interventions: explanation and elaboration. BMJ. 2009; 21(339): b2700.
10.1136/bmj.b2700 Google Scholar
- 40Larsen FS, Ejlersen E, Clemmesen JO, Kirkegaard P, Hansen BA. Preservation of cerebral oxidative metabolism in fulminant hepatic failure: an autoregulation study. Liver Transplant Surg. 1996; 2(5): 348-353.
- 41Kast R. A new method for noninvasive measurement of short-term cerebrospinal fluid pressure changes in humans. J Neurol. 1985; 232(4): 260-261.
- 42Hansen HC, Helmke K. The subarachnoid space surrounding the optic nerves. an ultrasound study of the optic nerve sheath. Surg Radiol Anat. 1996; 18(4): 323-328.
- 43Marchbanks RJ, Reid A, Martin AM, Brightwell AP, Bateman D. The effect of raised intracranial pressure on intracochlear fluid pressure: three case studies. Br J Audiol. 1987; 21(2): 127-130.
- 44Reid A, Marchbanks RJ, Burge DM, et al. The relationship between intracranial pressure and tympanic membrane displacement. Br J Audiol. 1990; 24(2): 123-129.
- 45Moss S, Marchbanks R, Reid A, Burge D, Martin A. Comparison of intracranial pressure between spina bifida patients and normal subjects using a non-invasive pressure assessment technique. Eur J Pediatr Surg. 1989; 44(S 1): 29-31.
10.1055/s-2008-1043288 Google Scholar
- 46Shimbles S, Dodd C, Banister K, Mendelow AD, Chambers IR. Clinical comparison of tympanic membrane displacement with invasive intracranial pressure measurements. Physiol Meas. 2005; 26(6): 1085-1092.
- 47Samuel M, Burge DM, Marchbanks RJ. Tympanic membrane displacement testing in regular assessment of intracranial pressure in eight children with shunted hydrocephalus. J Neurosurg. 1998; 88(6): 983-995.
- 48Włodyka J. Studies on cochlear aqueduct patency. Ann Otol Rhinol Laryngol. 1978; 87(1): 22-28.
- 49Gwer S, Chengo E, Newton C, Kirkham FJ. Unexpected relationship between tympanometry and mortality in children with nontraumatic coma. Pediatrics. 2013; 132(3): e713-e717.
- 50Gwer S, Kazungu M, Chengo E, et al. Abnormal intra-aural pressure waves associated with death in African children with acute nontraumatic coma. Pediatr Res. 2015; 78(1): 38-43.
- 51Peyster R, Hoover E, Hershey B, Haskin M. High-resolution CT of lesions of the optic nerve. Am J Roentgenol. 1983; 140(5): 869-874.
- 52Cennamo G, Rosa N, De Palma L, Pastena B. Echographic and ophthalmodynamometric study in the empty sella syndrome. Ophthalmologica. 1993; 206(1): 29-32.
- 53Blaivas M, Theodoro D, Sierzenski PR. Elevated intracranial pressure detected by bedside emergency ultrasonography of the optic nerve sheath. Acad Emerg Med. 2003; 10(4): 376-381.
- 54Shuper A, Snir M, Barash D, Yassur Y, Mimouni M. Ultrasonography of the optic nerves: clinical application in children with pseudotumor cerebri. J Pediatr. 1997; 131(5): 734-740.
- 55Malayeri AA, Bavarian S, Mehdizadeh M. Sonographic evaluation of optic nerve diameter in children with raised intracranial pressure. J Ultrasound Med. 2005; 24(2): 143-147.
- 56Tsung JW, Blaivas M, Cooper A, Levick NR. A rapid noninvasive method of detecting elevated intracranial pressure using bedside ocular ultrasound: application to 3 cases of head trauma in the pediatric emergency department. Pediatr Emerg Care. 2005; 21(2): 94-98.
- 57Beare N, Kampondeni S, Glover SJ, et al. Detection of raised intracranial pressure by ultrasound measurement of optic nerve sheath diameter in African children. Trop Med Int Heal. 2008; 13(11): 1400-1404.
- 58Dubourg J, Javouhey E, Geeraerts T, Messerer M, Kassai B. Ultrasonography of optic nerve sheath diameter for detection of raised intracranial pressure: a systematic review and meta-analysis. Intensive Care Med. 2011; 37(7): 1059-1068.
- 59Launey Y, Nesseler N, Le Maguet P, Mallédant Y, Seguin P. Effect of osmotherapy on optic nerve sheath diameter in patients with increased intracranial pressure. J Neurotrauma. 2014; 31(10): 984-988.
- 60Sekhon MS, McBeth P, Zou J, et al. Association between optic nerve sheath diameter and mortality in patients with severe traumatic brain injury. Neurocrit Care. 2014; 21(2): 245-252.
- 61Moretti R, Pizzi B. Ultrasonography of the optic nerve in neurocritically ill patients. Acta Anaesthesiol Scand. 2011; 55(6): 644-652.
- 62Le A, Hoehn ME, Smith ME, Spentzas T, Schlappy D, Pershad J. Bedside sonographic measurement of optic nerve sheath diameter as a predictor of increased intracranial pressure in children. Ann Emerg Med. 2009; 53(6): 785-791.
- 63Padayachy LC, Padayachy V, Galal U, Pollock T, Fieggen AG. The relationship between transorbital ultrasound measurement of the optic nerve sheath diameter (ONSD) and invasively measured ICP in children. Child's Nerv Syst. 2016; 32(10): 1779-1785.
- 64Geeraerts T, Launey Y, Martin L, et al. Ultrasonography of the optic nerve sheath may be useful for detecting raised intracranial pressure after severe brain injury. Intensive Care Med. 2007; 33(10): 1704-1711.
- 65Kane I, Abramo T, Meredith M, et al. Cerebral oxygen saturation monitoring in pediatric altered mental status patients. Am J Emerg Med. 2014; 32(4): 356-362.
- 66Salonia R, Bell MJ, Kochanek PM, Berger RP. The utility of near infrared spectroscopy in detecting intracranial hemorrhage in children. J Neurotrauma. 2012; 29(6): 1047-1053.
- 67Zuluaga MT, Esch ME, Cvijanovich NZ, Gupta N, McQuillen PS. Diagnosis influences response of cerebral near infrared spectroscopy to intracranial hypertension in children. Pediatr Crit Care Med. 2010; 11(4): 514-522.
- 68Shawcross DL, Davies NA, Williams R, Jalan R. Systemic inflammatory response exacerbates the neuropsychological effects of induced hyperammonemia in cirrhosis. J Hepatol. 2004; 40(2): 247-254.
- 69Gibbs EL, Gibbs FA. The cross section areas of the vessels that form the torcular and the manner in which flow is distributed to the right and to the left lateral sinus. Anat Rec. 1934; 59(4): 419-426.
10.1002/ar.1090590404 Google Scholar
- 70Shenkin HA, Harmel MH, Kety SS. Dynamic anatomy of the cerebral circulation. Arch Neurol Psychiatry. 1948; 60(3): 240-252.
- 71Macmillan CS, Andrews PJ. Cerebrovenous oxygen saturation monitoring: practical considerations and clinical relevance. Intensive Care Med. 2000; 26(8): 1028-1036.
- 72Coplin WM, O’Keefe GE, Grady MS, et al. Thrombotic, infectious, and procedural complications of the jugular bulb catheter in the intensive care unit. Neurosurgery. 1997; 41(1): 101-109.
- 73Kawakami M, Koda M, Murawaki Y. Cerebral pulsatility index by transcranial Doppler sonography predicts the prognosis of patients with fulminant hepatic failure. Clin Imaging. 2010; 34(5): 327-331.
- 74Sidi A, Mahla ME. Noninvasive monitoring of cerebral perfusion by transcranial Doppler during fulminant hepatic failure and liver transplantation. Anesth Analg. 1995; 80(1): 194-200.
- 75Abdo A, López O, Fernández A, et al. Transcranial Doppler sonography in fulminant hepatic failure. Transplant Proc. 2003; 35(5): 1859-1860.
- 76Eefsen M, Dethloff T, Frederiksen H-J, Hauerberg J, Hansen BA, Larsen FS. Comparison of terlipressin and noradrenalin on cerebral perfusion, intracranial pressure and cerebral extracellular concentrations of lactate and pyruvate in patients with acute liver failure in need of inotropic support. J Hepatol. 2007; 47(3): 381-386.
- 77Larsen FS, Adel Hansen B, Pott F, et al. Dissociated cerebral vasoparalysis in acute liver failure. A hypothesis of gradual cerebral hyperaemia. J Hepatol. 1996; 25(2): 145-151.
- 78Strauss G, Hansen BA, Knudsen GM, Larsen FS. Hyperventilation restores cerebral blood flow autoregulation in patients with acute liver failure. J Hepatol. 1998; 28(2): 199-203.
- 79Larsen FS, Hansen BA, Ejlersen E, et al. Cerebral blood flow, oxygen metabolism and transcranial Doppler sonography during high-volume plasmapheresis in fulminant hepatic failure. Eur J Gastroenterol Hepatol. 1996; 8(3): 261-265.
- 80Schmidt EA, Czosnyka M, Gooskens I, et al. Preliminary experience of the estimation of cerebral perfusion pressure using transcranial Doppler ultrasonography. J Neurol Neurosurg Psychiatry. 2001; 70(2): 198-204.
- 81Pott F, Larsen FS, Ejlersen E, Linkis P, Jørgensen LG, Secher NH. Cerebral perfusion during human liver transplantation. Clin Physiol. 1995; 15(2): 119-130.
- 82Larsen FS, Ejlersen E, Strauss G, et al. Cerebrovascular metabolic autoregulation is impaired during liver transplantation. Transplantation. 1999; 68(10): 1472-1476.
- 83Strauss G, Hansen BA, Kirkegaard P, Rasmussen A, Hjortrup A, Larsen FS. Liver function, cerebral blood flow autoregulation, and hepatic encephalopathy in fulminant hepatic failure. Hepatology. 1997; 25(4): 837-839.
- 84Ardizzone G, Arrigo A, Panaro F, et al. Cerebral hemodynamic and metabolic changes in patients with fulminant hepatic failure during liver transplantation. Transplant Proc. 2004; 36(10): 3060-3064.
- 85Bindi ML, Biancofiore G, Esposito M, et al. Transcranial doppler sonography is useful for the decision-making at the point of care in patients with acute hepatic failure: a single centre's experience. J Clin Monit Comput. 2008; 22(6): 449-452.
- 86Stewart J, Särkelä M, Koivusalo A-M, et al. Frontal electroencephalogram variables are associated with the outcome and stage of hepatic encephalopathy in acute liver failure. Liver Transplant. 2014; 20(10): 1256-1265.
- 87Abdo A, Pérez-Bernal J, Hinojosa R, et al. Cerebral hemodynamics patterns by transcranial Doppler in patients with acute liver failure. Transplant Proc. 2015; 47(9): 2647-2649.
- 88Bosoi CR, Rose CF. Brain edema in acute liver failure and chronic liver disease: similarities and differences. Neurochem Int. 2013; 62(4): 446-457.
- 89Tarter R, Sandford S, Hays A, Van Thiel D. Cerebral morphological abnormalities associated with non-alcoholic cirrhosis. Lancet. 1986; 328(8512): 893-895.
10.1016/S0140-6736(86)90413-7 Google Scholar
- 90Bernthal P, Hays A, Tarter RE, Van Thiel D, Lecky J, Hegedus A. Cerebral CT scan abnormalities in cholestatic and hepatocellular disease and their relationship to neuropsychologic test performance. Hepatology. 1987; 7(1): 107-114.
- 91Zeneroli ML, Cioni G, Vezzelli C, et al. Prevalence of brain atrophy in liver cirrhosis patients with chronic persistent encephalopathy. Evaluation by computed tomography. J Hepatol. 1987; 4(3): 283-292.
- 92Moore JW, Dunk AA, Crawford JR, et al. Neuropsychological deficits and morphological MRI brain scan abnormalities in apparently healthy non-encephalopathic patients with cirrhosis. A controlled study. J Hepatol. 1989; 9(3): 319-325.
- 93Zeneroli ML, Cioni G, Crisi G, Vezzelli C, Ventura E. Globus pallidus alterations and brain atrophy in liver cirrhosis patients with encephalopathy: an MR imaging study. Magn Reson Imaging. 1991; 9(3): 295-302.
- 94Dillon JF, Plevris JN, Wong FC, et al. Middle cerebral artery blood flow velocity in patients with cirrhosis. Eur J Gastroenterol Hepatol. 1995; 7(11): 1087-1091.
- 95Strauss GI, Hansen BA, Herzog T, Larsen FS. Cerebral autoregulation in patients with end-stage liver disease. Eur J Gastroenterol Hepatol. 2000; 12(7): 767-771.
- 96Macías-Rodríguez RU, Duarte-Rojo A, Cantú-Brito C, et al. Cerebral haemodynamics in cirrhotic patients with hepatic encephalopathy. Liver Int. 2015; 35(2): 344-352.
- 97Zhou Y, Dong Q, Zhang R, et al. Cerebral hemodynamics and cognitive function in cirrhotic patients with hepatic encephalopathy. Gastroenterol Res Pract. 2016; 2016: 8485032.
- 98Aggarwal S, Brooks DM, Kang Y, Linden PK, Patzer JF. Noninvasive monitoring of cerebral perfusion pressure in patients with acute liver failure using transcranial Doppler ultrasonography. Liver Transpl. 2008; 14(7): 1048-1057.
- 99Zweifel C, Czosnyka M, Carrera E, de Riva N, Pickard JD, Smielewski P. Reliability of the blood flow velocity pulsatility index for assessment of intracranial and cerebral perfusion pressures in head-injured patients. Neurosurgery. 2012; 71(4): 853-861.
- 100Kashif FM, Verghese GC, Novak V, Czosnyka M, Heldt T. Model-based noninvasive estimation of intracranial pressure from cerebral blood flow velocity and arterial pressure. Sci Transl Med. 2012; 4(129): 129ra44.
- 101Kamat P, Kunde S, Vos M, et al. Invasive intracranial pressure monitoring is a useful adjunct in the management of severe hepatic encephalopathy associated with pediatric acute liver failure. Pediatr Crit Care Med. 2012; 13(1): e33-e38.
- 102Kochanek PM, Tasker RC, Carney N, et al. Guidelines for the management of pediatric severe traumatic brain injury, third edition: update of the brain trauma foundation guidelines, executive summary. Neurosurgery. 2019; 20: S1-S82.
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