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Journal of Clinical Monitoring and Computing
Published in: Journal of Clinical Monitoring and Computing 3/2020

Open Access 01-06-2020 | Intracranial Hypertension | Review Paper

Journal of Clinical Monitoring and Computing 2019 end of year summary: monitoring tissue oxygenation and perfusion and its autoregulation

Authors: M. M. Sahinovic, J. J. Vos, T. W. L. Scheeren

Published in: Journal of Clinical Monitoring and Computing | Issue 3/2020

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Abstract

Tissue perfusion monitoring is increasingly being employed clinically in a non-invasive fashion. In this end-of-year summary of the Journal of Clinical Monitoring and Computing, we take a closer look at the papers published recently on this subject in the journal. Most of these papers focus on monitoring cerebral perfusion (and associated hemodynamics), using either transcranial doppler measurements or near-infrared spectroscopy. Given the importance of cerebral autoregulation in the analyses performed in most of the studies discussed here, this end-of-year summary also includes a short description of cerebral hemodynamic physiology and its autoregulation. Finally, we review articles on somatic tissue oxygenation and its possible association with outcome.
Literature
1.
Venema AM, Uyttenboogaart M, Absalom AR. Land of confusion: anaesthetic management during thrombectomy for acute ischaemic stroke. Br. J. Anaesth. 2019;122:300–4.CrossRef
2.
Lassen NA. Cerebral blood flow and oxygen consumption in man. Physiol Rev. 1959;39:183–238.CrossRef
3.
Rivera-Lara L, Zorrilla-Vaca A, Geocadin RG, Healy RJ, Ziai W, Mirski MA. Cerebral autoregulation-oriented therapy at the bedside. Anesthesiology. 2017;126:1187–99.CrossRef
4.
Czosnyka M, Miller C. Monitoring of Cerebral Autoregulation. Neurocrit Care. 2014;21:95–102.CrossRef
5.
Vos JJ, Ellermann SF, Scheeren TWL. Journal of Clinical Monitoring and Computing 2017/2018 end of year summary: monitoring—and provocation—of the microcirculation and tissue oxygenation. J. Clin. Monit. Comput. 2019;33:201–9.CrossRef
6.
Panerai RB. Transcranial Doppler for evaluation of cerebral autoregulation. Clin Auton Res. 2009;19:197–21111.CrossRef
7.
Panerai RB. The critical closing pressure of the cerebral circulation. Med Eng Phys. 2003;25:621–32.CrossRef
8.
Kasprowicz M, Diedler J, Reinhard M, Carrera E, Smielewski P, Budohoski KP, et al. Time constant of the cerebral arterial bed. In: Schuhmann MU, Czosnyka M, editors. Vienna: Springer 2012. pp. 17–21.
9.
Kasprowicz M, Czosnyka M, Soehle M, Smielewski P, Kirkpatrick PJ, Pickard JD, et al. Vasospasm shortens cerebral arterial time constant. Neurocrit Care. 2012;16:213–8.CrossRef
10.
Kasprowicz M, Diedler J, Reinhard M, Carrera E, Steiner LA, Smielewski P, et al. Time constant of the cerebral arterial bed in normal subjects. Ultrasound Med Biol. 2012;38:1129–37.CrossRef
11.
Uryga A, Kasprowicz M, Calviello L, Diehl RR, Kaczmarska K, Czosnyka M. Assessment of cerebral hemodynamic parameters using pulsatile versus non-pulsatile cerebral blood outflow models. J. Clin. Monit. Comput. 2019;33:85–94.CrossRef
12.
Uryga A, Kasprowicz M, Burzyńska M, Calviello L, Kaczmarska K, Czosnyka M. Cerebral arterial time constant calculated from the middle and posterior cerebral arteries in healthy subjects. J. Clin. Monit. Comput. 2019;33:605–13.CrossRef
13.
Carney N, Totten AM, O’Reilly C, Ullman JS, Hawryluk GWJ, Bell MJ, et al. Guidelines for the management of severe traumatic brain injury. Fourth Edit Neurosurg. 2017;80:6–15.CrossRef
14.
Unnerbäck M, Bloomfield EL, Söderström S, Reinstrup P. The intracranial pressure curve correlates to the pulsatile component of cerebral blood flow. J. Clin. Monit. Comput. 2019;33:77–83.CrossRef
15.
Cardim D, Robba C, Matta B, Tytherleigh-Strong G, Kang N, Schmidt B, et al. Cerebrovascular assessment of patients undergoing shoulder surgery in beach chair position using a multiparameter transcranial Doppler approach. J. Clin. Monit. Comput. 2019;33:615–25.CrossRef
16.
Schmidt B, Klingelhöfer J, Schwarze JJ, Sander D, Wittich I. Noninvasive prediction of intracranial pressure curves using transcranial doppler ultrasonography and blood pressure curves. Stroke. 1997;28:2465–72.CrossRef
17.
Friedman DJ, Parnes NZ, Zimmer Z, Higgins LD, Warner JJP. Prevalence of cerebrovascular events during shoulder surgery and association with patient position. Orthopedics. 2009;32:256.CrossRef
18.
Sahinovic MM, Struys MMRF, Absalom AR. Clinical Pharmacokinetics and pharmacodynamics of propofol. Clin Pharmacokinet Springer Int Publish. 2018;57:1539–58.CrossRef
19.
Ishibashi T, Toyama S, Miki K, Karakama J, Yoshino Y, Ishibashi S, et al. Effects of propofol versus sevoflurane on cerebral circulation time in patients undergoing coiling for cerebral artery aneurysm: a prospective randomized crossover study. J. Clin. Monit. Comput. 2019;33:987–98.CrossRef
20.
Park S, Megjhani M, Frey H-P, Grave E, Wiggins C, Terilli KL, et al. Predicting delayed cerebral ischemia after subarachnoid hemorrhage using physiological time series data. J. Clin. Monit. Comput. 2019;33:95–105.CrossRef
21.
Karademir A, Erdogan KG. Cerebral oxygen saturation monitoring in preeclamptic pregnant women undergoing cesarean section with spinal anesthesia: a prospective, observational study. J. Clin. Monit. Comput. 2019;33:833–41.CrossRef
22.
Belfort MA, Clark SL, Sibai B. Cerebral Hemodynamics in preeclampsia: cerebral perfusion and the rationale for an alternative to magnesium sulfate. Obstet Gynecol Surv. 2006;61:655–65.CrossRef
23.
Saito J, Nakai K, Kawaguchi J, Takekawa D, Hirota K. Patent ductus arteriosus closure and somatic regional oxyhemoglobin saturation. J. Clin. Monit. Comput. 2019;33:403–5.CrossRef
24.
Saito J, Takekawa D, Kawaguchi J, Suganuma T, Konno M, Noguchi S, et al. Preoperative cerebral and renal oxygen saturation and clinical outcomes in pediatric patients with congenital heart disease. J. Clin. Monit. Comput. 2019;33:1015–22.CrossRef
25.
Momeni M, Meyer S, Docquier M-A, Lemaire G, Kahn D, Khalifa C, et al. Predicting postoperative delirium and postoperative cognitive decline with combined intraoperative electroencephalogram monitoring and cerebral near-infrared spectroscopy in patients undergoing cardiac interventions. J. Clin. Monit. Comput. 2019;33:999–1009.CrossRef
26.
Evered L, Silbert B, Knopman DS, Scott DA, DeKosky ST, Rasmussen LS, et al. Recommendations for the nomenclature of cognitive change associated with anaesthesia and surgery-2018. Anesthesiology. 2018;129:872–9.CrossRef
27.
Li G, Lin L, Dai F, Guo X, Meng L. Muscular tissue oxygen saturation during robotic hysterectomy and postoperative nausea and vomiting: exploring the potential therapeutic thresholds. J. Clin. Monit. Comput. 2019;33:597–604.CrossRef
28.
Magner JJ, McCaul C, Carton E, Gardiner J, Buggy D. Effect of intraoperative intravenous crystalloid infusion on postoperative nausea and vomiting after gynaecological laparoscopy: comparison of 30 and 10 ml kg −1. Br J Anaesth. 2004;93:381–5.CrossRef
29.
Pusch F, Berger A, Wildling E, Tiefenthaler W, Krafft P. The effects of systolic arterial blood pressure variations on postoperative nausea and vomiting. Anesth Analg. 2002;94:1652–5.PubMed
30.
van Beest PA, Vos JJ, Poterman M, Kalmar AF, Scheeren TWL. Tissue oxygenation as a target for goal-directed therapy in high-risk surgery: a pilot study. BMC Anesthesiol. 2014;14:122.CrossRef
Metadata
Title
Journal of Clinical Monitoring and Computing 2019 end of year summary: monitoring tissue oxygenation and perfusion and its autoregulation
Authors
M. M. Sahinovic
J. J. Vos
T. W. L. Scheeren
Publication date
01-06-2020
Publisher
Springer Netherlands
Published in
Journal of Clinical Monitoring and Computing / Issue 3/2020
Print ISSN: 1387-1307
Electronic ISSN: 1573-2614
DOI
https://doi.org/10.1007/s10877-020-00504-z

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