Traumatic Brain Injury
Title | Author | Year | Publication | ||||
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Feasibility of individualised severe traumatic brain injury management using an automated assessment of optimal cerebral perfusion pressure: the COGiTATE phase II study protocol. | Beqiri, E., Smielewski, P., Robba, Cet al. | 2019 | BMJ Open. | ||||
Continuous Assessment of “Optimal” Cerebral Perfusion Pressure in Traumatic Brain Injury: A Cohort Study of Feasibility, Reliability, and Relation to Outcome | Kramer A.H, P.L. Couillard, D.A. Zygun, et al. | 2019 | Neurocrit Care | ||||
Temporal neurophysiological dynamics in traumatic brain injury – the role of pressure reactivity and optimal cerebral perfusion pressure for predicting outcome | Wettervik TS, Howells T, Enblad P, et al. | 2018 | J. Neurotrauma | ||||
Traumatic Brain Injury, Fact sheets and Policy brief | 2018 | Link: http://edition.pagesuite-professional.co.uk/html5/reader/production/default.aspx?pubname=&edid=544e3933-a708-46ca-944d-378df5fda842 | |||||
Optimal cerebral perfusion pressure via transcranial Doppler in TBI: application of robotic technology | Zeiler FA, Czosnyka M, Smielewski P | 2018 | Acta Neurochir. | ||||
Quantitative cerebral blood flow using xenon-enhanced CT after decompressive craniectomy in traumatic brain injury | Vedantam A., Robertson C.S. S.P. Gopinath | 2018 | J Neurosurg | ||||
Time spent with impaired autoregulation is linked with outcome in severe infant/paediatric traumatic brain injury | Hockel K, Diedler J, Neunhoeffer F, et al. | 2017 | Acta Neurochir. | ||||
Continuous Assessment of ‘Optimal’ Cerebral Perfusion Pressure in Traumatic Brain Injury: A Cohort Study of Feasibility, Reliability, and Relation to Outcome | A. H. Kramer, P. L. Couillard, D. A. Zygun, et al. | 2018 | Neurocrit. Care. | ||||
Determining the Upper and Lower Limits of Cerebral Autoregulation With Cerebral Oximetry Autoregulation Curves: A Case Series. | Rivera-Lara L, Zorrilla-Vaca A, Healy RJ, et al. | 2017 | Crit Care Med. | ||||
Optimal Cerebral Perfusion Pressure in Centers With Different Treatment Protocols | Howells T, Smielewski P, Donnelly J, Czosnyka M, et al. | 2018 | Crit Care Med. | ||||
Traumatic brain injury: a priority for public health policy | Quaglio G, Gallucci M, Brand H, et al. | 2017 | The Lancet Neurology | ||||
Traumatic brain injury: a global challenge | Johnson WD, & Griswold DP | 2017 | The Lancet Neurology | ||||
Andrew Maas (and the bird on his shoulder) | Burton A. | 2017 | The Lancet Neurology | ||||
David Menon: the incredible, incurable, clinical rationalist | Morgan J | 2017 | The Lancet Neurology | ||||
The CENTER-TBI core study: The making-of | Burton A. | 2017 | The Lancet Neurology | ||||
Traumatic brain injury: integrated approaches to improve prevention, clinical care, and research | Maas AIR, Menon DK., Adelson PD, et al. | 2017 | The Lancet Neurology | ||||
Pressure Autoregulation Measurement Techniques in Adult TBI, Part I: A Scoping Review of Intermittent/Semi-Intermittent Methods. | Zeiler FA, Donnelly J, Calviello L et al. | 2017 | Neurotrauma. [Epub ahead of print] | ||||
Pressure Autoregulation Measurement Techniques in Adult TBI, Part II: A Scoping Review of Continuous Methods. | Zeiler FA, Donnelly J, Calviello L., et al | 2017 | Neurotrauma. [Epub ahead of print] | ||||
Individualizing threshold of cerebral perfusion pressure using estimated limits of autoregulation. | Donnelly J, Czosnyka M, Adams H, et al. | 2017 | Crit Care Med. 45:1464-1471. | ||||
Temporal profile of intracranial pressure and cerebrovascular reactivity in severe traumatic brain injury and association with fatal outcome: an observational study. | Adams H, Donnelly J, Czosnyka M, et al. | 2017 | PLoS Med 25;14(7):e1002353. | ||||
Cerebrovascular pressure reactivity monitoring using wavelet analysis in traumatic brain injury patients : A retrospective study | Liu X, Donnelly J, Czosnyka M. et al. 2017. | 2017 | PLoS Med 14(7): e1002348 | ||||
Survey in expert clinicians on validity of automated calculation of optimal cerebral perfusion pressure. | Steijn R, Stewart R, Czosnyka M, et al. | 2017 | Minerva Anestesiol. 2017 Jun 22.[Epub ahead of print] | ||||
Cerebral Perfusion Pressure Insults and Associations with Outcome in Adult Traumatic Brain Injury | Güiza F, Meyfroidt G, Piper I, et al. | 2017 | Neurotrauma. 15;34:2425-2431 | ||||
Cerebral autoregulation monitoring in acute traumatic brain injury: what’s the evidence? | Calviello LA, Donnelly J, Zeiler, et al. | 2017 | Minerva Anestesiol. [Epub ahead of Print]. | ||||
Monitoring of optimal cerebral perfusion pressure using a multi-window weighting algorithm in traumatic brain injured patients. | Liu X, Czosnyka M, Aries M.J.H., et al. | 2017 | Neurotrauma. [Ahead of print] | ||||
Predictors of Outcome With Cerebral Autoregulation Monitoring: A Systematic Review and Meta-Analysis. | Rivera-Lara L, Zorrilla-Vaca A, Geocadin R, et al. | 2017 | Crit Care Med. 45:695-704. | ||||
Enhanced visualization of optimal cerebral perfusion pressure over time to support clinical decision making | Aries MJH, Wesselink R, Elting JW, et al. | 2016 | Crit Care Med. 44(10):e996-9. | ||||
Clinical decision support for cerebral perfusion optimization after traumatic brain injury. | Schmidt J and Kummer BR. | 2016 | Crit Care Med. 44: 10: 1958-1960 | ||||
Improvements to the optimal cerebral perfusion pressure calculation | Hawthorne C, Shaw M, Moss L al. | 2016 | Crit Care Med. 44:266. | ||||
Cerebral perfusion pressure targets individualized to pressure-reactivity index in moderate to severe traumatic brain injury: a systematic review. | Needham E, McFadyen C, Newcombe V, et al. | 2016 | J of Neurotrauma. | ||||
Can optimal cerebral perfusion pressure in patients with severe traumatic brain injury be calculated based on minute-by-minute data monitoring? | Depreitere B, Güiza F, Van den Berghe G, et al. | 2016 | Neurochir Suppl. 2016;122:245-8. | ||||
Outcome, pressure reactivity and optimal cerebral perfusion pressure calculation in traumatic brain injury: a comparison of two variants. | Lang EW, Kasprowicz M, Smielewski P, et al. | 2016 | Acta Neurochir Suppl. 122:221-3. | ||||
Brain oxygen relationship to cerebral perfusion pressure depends on tip location and time window: can brain o2 be an adjunctive modality for determining optimal CPP? | Park S, Czosnyka M, Smielewski P. | 2016; | Acta Neurochir Suppl. 122:133-5. | ||||
Continuous multimodality monitoring in children after traumatic brain injury-preliminary experience. | Young AM, Donnelly J, Czosnyka M, et al. Fernandes HM, Garnett MR, Smielewski P, Hutchinson PJ, Agrawal S. | 2016 | PLoS One. 11(3):e0148817. | ||||
Optimal cerebral perfusion pressure management at bedside: a single-center pilot study | Dias, C, Silva MJ, Pereira E, et al. | 2015 | Neurocritical Care. 23, 92–102. | ||||
Visualizing the pressure and time burden of intracranial hypertension in adult and paediatric traumatic brain injury. | Güiza F, Depreitere B, Piper I, et al. | 2015 | Intensive Care Med. 41:1067-76 | ||||
Assessment of cerebrovascular autoregulation using regional cerebral blood flow in surgically managed brain trauma patients. | Tackla R, Hinzman JM, Foreman B, et al. | 2015 | Neurocrit Care. 23:339-346. | ||||
Clinical and physiological events that contribute to the success rate of finding “optimal” cerebral perfusion pressure in severe brain trauma patients. | Weersink CS, Aries MJ, Dias C et al. | 2015 | Crit Care Med. 43:1952-1963. | ||||
Continuous determination of optimal cerebral perfusion pressure -in search of the holy grail? | Nordström CH and Nielsen TH | 2013 | Crit Care Med. 41(1):e4-5. | ||||
Low-frequency autoregulation index for calculation of optimal cerebral perfusion pressure in severe traumatic brain injury | Guiza F, Meyfroidt G, Schuhmann, et al. | 2013 | Crit Care.17, 327. | ||||
Continuous determination of optimal cerebral perfusion pressure in traumatic brain injury. | Aries MJH, Czosnyka M, Budohoski KP, et al. | 2012 | Crit Care Med. 40, 2456–2463. | ||||
Are optimal cerebral perfusion pressure and cerebrovascular autoregulation related to long-term outcome in patients with aneurysmal subarachnoid hemorrhage? | Rasulo FA, Girardini A, Lavinio A, et al. | 2012 | Neurosurg Anesthesiol. 24:3-8. | ||||
Continuous monitoring of cerebrovascular reactivity using pulse waveform of intracranial pressure. | Aries MJH, Czosnyka M, Budohoski, et al. | 2012 | Crit Care Med. 17:67-76 | ||||
Pulsatile intracranial pressure and cerebral autoregulation after traumatic brain injury. | Radolovich DK, Aries, MJ, Castellani, et al. | 2011 | Neurocrit Care. 15, 379–386. | ||||
Short-term moderate hypocapnia augments detection of optimal cerebral perfusion pressure. | Haubrich C, Steiner L, Kasprowicz M, et al. | 2011 | Neurotrauma 28:1133-1137. | ||||
Comparison Of the outcomes in two similar groups of tbi patients treated on the base ICP/CPP protocol versus patients treated on the base of autoregulation protocol with the support of evaluation of vascular autoregulation using PRx index. | Oshorov A, Savin I, Popugaev K, et al. | 2011 | Intensive Care med. 37; 1:s46-s46. | ||||
Effects of cerebrovascular pressure reactivity-guided optimization of cerebral perfusion pressure on brain tissue oxygenation after traumatic brain injury. | Jaeger M, Dengl M, Meixensberger J et al. | 2010 | Crit Care Med. 1343–1347. | ||||
Defining optimal cerebral perfusion pressures in acute brain injury: A step toward individualization of care? | Kolls, Brad J, Laskowitz, et al. | 2010 | Crit Care Med. 38;5:1385-1386. | ||||
Continuous monitoring of cerebrovascular pressure reactivity in patients with head injury. | Zweifel C, Lavinio A, Steiner LA, et al. | 2008 | Neurosurg Focus. 25:E2. | ||||
Continuous assessment of cerebrovascular autoregulation after traumatic brain injury using brain tissue oxygen pressure reactivity. | Jaeger M, Schuhmann MU, Soehle M et al. | 2006 | Crit Care Med. 34, 1783–1788. | ||||
Impact of intracranial pressure and cerebral perfusion pressure on severe disability and mortality after head injury. | Balestreri M, Czosnyka M, Hutchinson P, et al. | 2006 | Neurocrit Care. 4; 8-13. | ||||
Assessment of the optimal cerebral perfusion pressure in head-injured patients. Anesth Analg. | Nordström CH. | 2005 | Anesth Analg. 101:299-300. | ||||
Pressure reactivity as a guide in the treatment of cerebral perfusion pressure in patients with brain trauma. | Owells T, Elf K, Jones PA, et al. | 2005 | Neurosurg. 102; 2: 311-317. | ||||
Cerebral hemodynamic responses to blood pressure manipulation in severely head-injured patients in the presence or absence of intracranial hypertension. | Cremer OL, van Dijk GW, Amelink GJ, et al. | 2004 | Anesth Analg. 99:1211-1217. | ||||
Continuous monitoring of cerebrovascular pressure reactivity allows determination of optimal cerebral perfusion pressure in patients with traumatic brain injury | Steiner LA, Czosnyka M, Piechnik SK et al. | 2002 | Crit Care Med. 30, 733–738. | ||||