Pulse oximeter probe-off detector
First Claim
1. An improvement to a probe-off detector having a signal input, a signal quality input and a probe off output, said signal quality input dependent on a comparison between a sensor output and a physiological signal model, said probe off output providing an indication that said sensor may not be properly attached to a tissue site, said improvement comprising:
- a signal strength calculator having an input in communications with said signal and providing a signal strength output that is dependent on the time-varying component of said signal;
a stored relationship between said signal strength and said signal quality that defines an acceptable operating region for said sensor; and
a comparator having as inputs said signal strength and said signal quality and providing said probe off output based on a comparison of said signal strength and said signal quality with said stored relationship.
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Abstract
An intelligent, rule-based processor provides signal quality based limits to the signal strength operating region of a pulse oximeter. These limits are superimposed on the typical gain dependent signal strength limits. If a sensor signal appears physiologically generated, the pulse oximeter is allowed to operate with minimal signal strength, maximizing low perfusion performance. If a sensor signal is potentially due to a signal induced by a dislodged sensor, signal strength requirements are raised. Thus, signal quality limitations enhance probe off detection without significantly impacting low perfusion performance. One signal quality measure used is pulse rate density, which defines the percentage of time physiologically acceptable pulses are occurring. If the detected signal contains a significant percentage of unacceptable pulses, the minimum required signal strength is raised proportionately. Another signal quality measure used in conjunction with pulse rate density is energy ratio, computed as the percentage of total energy contained in the pulse rate fundamental and associated harmonics.
1228 Citations
2 Claims
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1. An improvement to a probe-off detector having a signal input, a signal quality input and a probe off output, said signal quality input dependent on a comparison between a sensor output and a physiological signal model, said probe off output providing an indication that said sensor may not be properly attached to a tissue site, said improvement comprising:
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a signal strength calculator having an input in communications with said signal and providing a signal strength output that is dependent on the time-varying component of said signal;
a stored relationship between said signal strength and said signal quality that defines an acceptable operating region for said sensor; and
a comparator having as inputs said signal strength and said signal quality and providing said probe off output based on a comparison of said signal strength and said signal quality with said stored relationship.
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2. An improved method of detecting that a pulse oximetry sensor may not be properly attached to a tissue site by processing a sensor signal, said method comprising the steps of:
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setting a signal strength limit that is dependent on signal quality;
calculating a signal strength value from said sensor signal;
calculating a signal quality value from said sensor signal; and
indicating a probe off condition if said signal strength is below said limit for said signal quality value determined in said calculating step.
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Specification
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- Resources
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Current AssigneeMasimo Corporation
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Original AssigneeMasimo Corporation
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InventorsDiab, Mohamed K., Ali, Ammar Al
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Primary Examiner(s)WINAKUR, ERIC FRANK
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Application NumberUS09/531,820Time in Patent Office728 DaysField of Search600/336, 600/310, 600/322, 600/323, 600/330, 600/331US Class Current600/336CPC Class CodesA61B 2560/0276 Determining malfunctionA61B 5/14551 for measuring blood gasesA61B 5/6843 Monitoring or controlling s...A61B 5/7221 Determining signal validity...
