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Non-invasive arterial pressure monitoring revisited

Frederic Michard| Daniel I. Sessler| Bernd Saugel
What's New in Intensive Care
Volume 44, Issue 12 / December , 2018

Pages 2213 - 2215

No abstract available.

References

  1. Smolle KH, Schmid M, Prettenthaler H, Weger C (2015) The accuracy of the CNAP device compared with invasive radial artery measurements for providing continuous noninvasive arterial blood pressure readings at a medical intensive care unit: a method-comparison study. Anesth Analg 121:1508–1516
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  2. Martina JR, Westerhof BE, van Goudoever J et al (2012) Noninvasive continuous arterial blood pressure monitoring with Nexfin. Anesthesiology 116:1092–1103
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  3. Bartels K, Esper SA, Thiele RH (2016) Blood pressure monitoring for the anesthesiologist: a practical review. Anesthesiology 122:1866–1879
  4. Weiss E, Gayat E, Duman-Nizard V, Le Guen M, Fischler M (2014) Use of the Nexfin device to detect acute arterial pressure variations during anaesthesia induction. Br J Anaesth 113:52–60
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  5. Kim SH, Lilot M, Sidhu KS et al (2014) Accuracy and precision of continuous noninvasive arterial pressure monitoring compared with invasive arterial pressure: a systematic review and meta-analysis. Anesthesiology 120:1080–1097
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  6. Gratz I, Deal E, Spitz F et al (2017) Continuous non-invasive finger cuff CareTaker comparable to invasive intra-arteiral pressure in patients undergoing major intra-abdominal surgery. BMC Anesthesiol 17:48
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  7. Dueck R, Goedje O, Clopton P (2012) Noninvasive continuous beat-to-beat radial artery pressure via TL-200 applanation tonometry. J Clin Monit Comput 26:75–83
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  8. Saugel B, Meidert AS, Hapfelmeier A et al (2013) Non-invasive continuous arterial pressure measurement based on radial artery tonometry in the intensive care unit: a method comparison study using the T-Line TL-200pro device. Br J Anaesth 111:185–190
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  9. Foldi S, Horvath T, Zieger F et al (2017) A novel non-invasive blood pressure waveform measuring system compared to Millar applanation tonometry. J Clin Monit Comput. https://doi.org/10.1007/s10877-017-0070-7(epub ahead of print)
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  10. Bilo G, Zorzi C, Ochoa Munera JE et al (2015) Validation of the Somnotouch-NIBP noninvasive continuous blood pressure monitor according to the European Society of Hypertension International Protocol revision 2010. Blood Press Monit 20:291–294
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  11. Weenk M, van Goor H, Frietman B et al (2017) Continuous monitoring of vital signs using wearable devices on the general ward: pilot study. JMIR Mhealth Uhealth 5:e91
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  12. Sessler DI, Meyhoff CS, Zimmerman NM et al (2017) Period-dependent associations between hypotension during and for 4 days after noncardiac surgery and a composite of myocardial infarction and death: a substudy of the POISE-2 trial. Anesthesiology. https://doi.org/10.1097/aln.0000000000001985(epub ahead of print)
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  13. Saugel B, Grothe O, Nicklas JY (2017) Error grid analysis for arterial pressure method comparison studies. Anesth Analg. https://doi.org/10.1213/ane.0000000000002585(epub ahead of print)
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  14. Dagdeviren C, Su Y, Joe P et al (2014) Conformable amplified lead zirconate titanate sensors with enhanced piezoelectric response for cutaneous pressure monitoring. Nat Commun 5:4496
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  15. Khan Y, Ostfeld AE, Lochner CM et al (2016) Monitoring of vital signs with flexible and wearable medical devices. Adv Mater 28:4373–4395
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  16. Boland CS, Khan U, Ryan G et al (2016) Sensitive electromechanical sensors using viscoelastic graphene-polymer nanocomposites. Science 354:1257–1260
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  17. Michard F, Gan TJ, Kehlet H (2017) Digital innovations and emerging technologies for enhanced recovery programmes. Br J Anaesth 119:31–39
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