Journal of clinical monitoring and computing
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J Clin Monit Comput · Oct 2020
Editorial CommentNon-invasive monitoring is coming the full circle, making our patients safer!
Non-invasive monitoring is becoming more accurate, more available and mobile. The clinical advantage that this developing technology provides is that the data may be monitored continuously; relatively unobtrusively, and transmitted directly to the caregiver. The downside of being non-invasive has been the potential loss of accuracy in the data displayed. ⋯ The study by Applegate et al. [1] confirms the trend accuracy of SpHb as an indication to perform a laboratory confirmation of hemoglobin level. This will lead to earlier laboratory screening, so that developing adverse conditions, such as postoperative bleeding, may be identified at a time that major events, such as failure to rescue can be avoided. This increased availability of non-invasive technology will make patients safer both in our hospitals and at home.
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J Clin Monit Comput · Oct 2020
Agreement between different non-invasive methods of ventricular elastance assessment for the monitoring of ventricular-arterial coupling in intensive care.
Ventricular-arterial coupling is calculated as the arterial elastance to end systolic elastance ratio (EA/Ees). Although the gold standard is invasive pressure volume loop analysis, Chen method is the clinical reference non-invasive method for estimating end systolic elastance (Ees). Several simplified methods calculate Ees from the end systolic pressure to volume ratio (ESP/ESV). ⋯ When used to follow variations in EA/Ees following therapeutic interventions, only 65% (for EA/Ees1) and 70% (for EA/Ees2) of measures followed the same trend as EA/EesChen. Our results do not support the use of ESP/ESV based method as substitute for Chen method to measure and assess changes in ventriculo-arterial coupling (EA/Ees) in cardiac intensive care patients. Further investigations are needed to establish the most reliable non-invasive method.
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J Clin Monit Comput · Oct 2020
Pre-apneic capnography waveform abnormalities during procedural sedation and analgesia.
Capnography monitoring is recommended for use during procedural sedation. This study examined associations between capnography waveform abnormalities and the onset of apnea. Capnography waveforms from a sample of 102 participants undergoing moderate procedural sedation with bolus doses of midazolam and fentanyl were analyzed using a mixed effects Cox model. ⋯ These estimates were similar when apneic episodes were defined as only those that lasted more than 20 s duration. Deciphering which capnography waveform abnormalities should promote intervention (and therefore alarms to signal the event to clinicians) from those that do not is an essential step towards successful implementation of this technology into practice. Our results indicate that using information about the history of previous capnography waveform abnormalities may be a promising solution to assist prediction of apneic episodes.