Journal of clinical monitoring and computing
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J Clin Monit Comput · Jul 1999
High fidelity correction of pressure signals from fluid-filled systems by harmonic analysis.
Fluid-filled systems are generally used for invasive pressure measurements in cardiology, anesthesiology and intensive care medicine. Wave reflection and attenuation cause considerable signal distortion. ⋯ High fidelity correction of pressure signals from fluid-filled systems by harmonic analysis is feasible.
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J Clin Monit Comput · Jul 1999
Evaluation of a new fibre-optical monitor for respiratory rate monitoring.
To present further development of a fibre-optical respiratory rate monitor and evaluate the function in the final version. ⋯ The fibre-optical monitor has sufficient accuracy for clinical monitoring. It is easy to use and inexpensive. Combinations with pulse oximetry seem attractive, to use especially for application outside "high tech areas," for example when respiratory depressant drugs are used or in ambulances.
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The increasing focus on health care costs requires that all physicians evaluate practice behaviors. The primary emphasis in anesthesia has been limiting the use of expensive medications and interventions. Reducing waste is another approach, and volatile anesthetics are an appropriate target in that simple reduction of fresh gas-flow (FGF) rates is effective. A monitor that measures and displays the cost of wasted volatile anesthetic was developed and used to determine if real-time display of the cost would result in decreased FGF rates, which, in turn, would decrease wasted anesthetic. ⋯ Nine residents were initially enrolled, but due to scheduling difficulties only five residents completed the protocol. Data from cases using the WGM demonstrated a 50% decrease (3.58 +/- 1.34 l/min vs. 1.78 +/- 0.51 l/min (p = 0.009)) in the scavenger flow rates, which resulted in a 48% ($5.28 +/- 0.68 vs. $2.72 +/- 0.80 (p = 0.002)) decrease in hourly cost of wasted volatile anesthetic. There was no difference between the Baseline and Visible phases with regard to use of nitrous oxide or intravenous anesthetic agents. CONCLUSIONS. The WGM decreased wasted volatile anesthetic by encouraging decreased FGF rates.
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Inhaled nitric oxide (NO) was found to cause selective pulmonary vasodilation in the late 1980's and since then there has been a huge interest in studying its clinical benefits. The equipment used to deliver and monitor inhaled NO has gone through a dramatic evolution from simple flow meters and industrial monitors to to-days purpose built, fully integrated, NO delivery and monitoring systems that were designed specifically for the demanding area of the intensive care unit. This paper explores the evolution of inhaled NO delivery systems and identifies the design challenges, the safety and regulatory requirements and the ease of use issues that had to be solved to bring this new exciting new class of medical device in to clinical use.