Your search keyword '"Varsos, Vassilis"' showing total 2 results

1. A noninvasive estimation of cerebral perfusion pressure using critical closing pressure

Author

Varsos, Georgios V, Kolias, Angelos G, Smielewski, Peter, Brady, Ken M, Varsos, Vassilis G, Hutchinson, Peter J, Pickard, John D, Czosnyka, Marek, Kolias, Angelos [0000-0003-3992-0587], Smielewski, Peter [0000-0001-5096-3938], Hutchinson, Peter [0000-0002-2796-1835], Pickard, John [0000-0002-5762-6667], Czosnyka, Marek [0000-0003-2446-8006], and Apollo - University of Cambridge Repository

Subjects

MCA = middle cerebral artery, Adult, Male, FV = flow velocity, noninvasive model, AUC = area under the curve, Adolescent, Intracranial Pressure, Ultrasonography, Doppler, Transcranial, Blood Pressure, nICP = noninvasive estimator of ICP, vascular disorders, Sensitivity and Specificity, Young Adult, Craniocerebral Trauma, Humans, eCPP = noninvasive estimator of CPP, GOS = Glasgow Outcome Scale, CrCP = critical closing pressure, Monitoring, Physiologic, Retrospective Studies, cerebral perfusion pressure, CBF = cerebral blood flow, ICP = intracranial pressure, TAU = time constant of the cerebrovascular arterial bed, CVR = cerebrovascular resistance, TCD = transcranial Doppler, GCS = Glasgow Coma Scale, Middle Aged, critical closing pressure, ROC = receiver operating characteristic, ABP = arterial blood pressure, CPP = cerebral perfusion pressure, Cerebrovascular Circulation, transcranial Doppler ultrasonography, Female, TBI = traumatic brain injury, Blood Flow Velocity, IQR = interquartile range

Abstract

OBJECT: Cerebral blood flow is associated with cerebral perfusion pressure (CPP), which is clinically monitored through arterial blood pressure (ABP) and invasive measurements of intracranial pressure (ICP). Based on critical closing pressure (CrCP), the authors introduce a novel method for a noninvasive estimator of CPP (eCPP). METHODS: Data from 280 head-injured patients with ABP, ICP, and transcranial Doppler ultrasonography measurements were retrospectively examined. CrCP was calculated with a noninvasive version of the cerebrovascular impedance method. The eCPP was refined with a predictive regression model of CrCP-based estimation of ICP from known ICP using data from 232 patients, and validated with data from the remaining 48 patients. RESULTS: Cohort analysis showed eCPP to be correlated with measured CPP (R = 0.851, p < 0.001), with a mean ± SD difference of 4.02 ± 6.01 mm Hg, and 83.3% of the cases with an estimation error below 10 mm Hg. eCPP accurately predicted low CPP (< 70 mm Hg) with an area under the curve of 0.913 (95% CI 0.883-0.944). When each recording session of a patient was assessed individually, eCPP could predict CPP with a 95% CI of the SD for estimating CPP between multiple recording sessions of 1.89-5.01 mm Hg. CONCLUSIONS: Overall, CrCP-based eCPP was strongly correlated with invasive CPP, with sensitivity and specificity for detection of low CPP that show promise for clinical use.

Published

2015

2. Cerebral vasospasm affects arterial critical closing pressure.

Author

Varsos, Georgios V, Budohoski, Karol P, Czosnyka, Marek, Kolias, Angelos G, Nasr, Nathalie, Donnelly, Joseph, Liu, Xiuyun, Kim, Dong-Joo, Hutchinson, Peter J, Kirkpatrick, Peter J, Varsos, Vassilis G, and Smielewski, Peter

Subjects

CEREBRAL vasospasm, BLOOD pressure, SUBARACHNOID hemorrhage, BLOOD-vessel physiology, HEALTH outcome assessment, RETROSPECTIVE studies

Abstract

The effect of cerebral vasospasm (CVS) after aneurysmal subarachnoid hemorrhage (SAH) on critical closing pressure (CrCP) has not been fully delineated. Using cerebral impedance methodology, we sought to assess the behavior of CrCP during CVS. As CrCP expresses the sum of intracranial pressure (ICP) and vascular wall tension, we also explored its role in reflecting changes in vascular tone occurring in small vessels distal to spasm. This retrospective analysis was performed using recordings from 52 patients, diagnosed with CVS through transcranial Doppler measurements. Critical closing pressure was calculated noninvasively using arterial blood pressure and blood flow velocity. Outcome was assessed at both discharge and 3 months after ictus with the Glasgow Outcome Scale. The onset of CVS caused significant decreases in CrCP (P=0.025), without any observed significant changes in ICP (P=0.134). Vasospasm induced asymmetry, with CrCP ipsilateral to CVS becoming significantly lower than contralateral (P=0.025). Unfavorable outcomes were associated with a significantly lower CrCP after the onset of CVS (discharge: P=0.014; 3 months after SAH: P=0.020). Critical closing pressure is reduced in the presence of CVS in both temporal and spatial assessments. As ICP remained unchanged during CVS, reduced CrCP most probably reflects a lower wall tension in dilated small vessels distal to spasm. [ABSTRACT FROM AUTHOR]

Published

2015