Alarm suspend system
Abstract
An alarm suspend system utilizes an alarm trigger responsive to physiological parameters and corresponding limits on those parameters. The parameters are associated with both fast and slow treatment times corresponding to length of time it takes for a person to respond to medical treatment for out-of-limit parameter measurements. Audible and visual alarms respond to the alarm trigger. An alarm silence button is pressed to silence the audible alarm for a predetermined suspend time. The audible alarm is activated after the suspend time has lapsed. Longer suspend times are associated with slow treatment parameters and shorter suspend times are associated with fast treatment parameters.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A physiological measurement system comprising:
a noninvasive physiological sensor including: a plurality of light emitting diodes configured to transmit wavelengths of light onto a tissue site of a patient; and at least one detector configured to measure an indication of the wavelengths of light after attenuation by tissue of the patient and be positioned on a patient and output a signal responsive of the attenuated light to a physiological condition of the patient; and
one or more processors in communication with the noninvasive physiological sensor, the one or more processors configured to electronically:
process the signal to determine a measurement of a physiological parameter based at least in part upon the signal;
determine that an alarm should be activated in response to the measurement of the physiological parameter satisfying an alarm activation threshold;
receive, from a user,determine that an indication ofalarm suspension should be initiated for a parameter-specific alarm suspension period of time corresponding to the physiological parameter, the parameter-specific alarm suspension period of time being selected fromone of at least a plurality of parameter-specific alarm suspension periods of time, the parameter-specific alarm suspension period of time being different from at least one other parameter-specific alarm suspension period of time corresponding to at least one other physiological parameter for which the one or more processors are configured to determine at least one measurement; activate an alarm in response to determining that an alarm activation threshold has been satisfied by the physiological parameter measurement; receive an alarm suspension indication; and in response to receiving the alarm suspension indication,
suspend the alarm for the indicated parameter-specific alarm suspension period of time; and
activate the alarm when the measurement of the physiological parameter satisfies the alarm activation threshold after the parameter-specific alarm suspension period of time has passed.
2. The physiological measurement system of claim 1 , wherein the one or more processors are further configured to:
provide a user interface to the user including at least a plurality of user-selectable elements, each of the selectable plurality of user-selectable elements corresponding to one of the plurality of parameter-specific alarm suspension periods of time.
3. The physiological measurement system of claim 2 , wherein providing the user interface further includes:
constructing a pop-up window for a display; and
displaying the plurality of user-selectable elements in the pop-up window.
4. The physiological measurement system of claim 3 , wherein the plurality of user-selectable elements are configured to allow a user to select a specific one of the plurality of parameter-specific alarm suspension periods of time.
5. The physiological measurement system of claim 4 , wherein the a selected parameter-specific alarm suspension period of time is selected by selection of one of the plurality of user-selectable elements.
6. The physiological measurement system of claim 1 , wherein the one or more processors are further configured to:
associate the a selected parameter-specific alarm suspension period of time is with the physiological parameter.
7. The physiological measurement system of claim 6 , wherein the selected parameter-specific period of time is stored in a memory device in communication with the one or more processors.
8. The physiological measurement system of claim 1 , wherein the one or more processors are further configured to:
process the signal to determine a measurement of a second physiological parameter measurement based at least in part upon the signal;
determine that a second alarm should be activated in response to the measurement of the second physiological parameter satisfying a second alarm activation threshold;
receive, from the user,determine that a second indication ofalarm suspension should be initiated for a second parameter-specific alarm suspension period of time corresponding to the second physiological parameter, the second parameter-specific alarm suspension period of time being selected fromone of a second plurality of parameter-specific alarm suspension periods of time; activate a second alarm in response to determining a second alarm activation threshold has been satisfied by the second physiological parameter measurement; and in response to receiving the alarm suspension indication,
suspend the second alarm for the indicated second parameter-specific alarm suspension period of time; and
activate the second alarm when the measurement of the second physiological parameter satisfies the second alarm activation threshold after the second parameter-specific alarm suspension period of time has passed.
9. The physiological measurement system of claim 8 , wherein the one or more processors are further configured to:
provide a user interface to the user including at least a first plurality of user-selectable elements and a second plurality of user-selectable elements, wherein each of the first plurality of user-selectable elements corresponds to one of the plurality of parameter-specific alarm suspension periods of time, and each of the second plurality of user-selectable element corresponds to one of the second plurality of parameter-specific alarm suspension periods of time.
10. The physiological measurement system of claim 9 , wherein the one or more processors are further configured to:
construct a pop-up window for a display; and
display both the first and second plurality of user-selectable elements in the pop-up window.
11. The physiological measurement system of claim 10 , wherein the a selected first parameter-specific alarm suspension period of time is selected by selection of one of the first plurality of user-selectable elements, and the a selected second parameter-specific alarm suspension period of time is selected by selection of one of the second plurality of user-selectable elements.
12. The physiological measurement system of claim 11 , wherein the at least one of the first plurality of parameter-specific alarm suspension periods of time is different from any of the second plurality of parameter-specific alarm suspension periods of time.
13. An A method of electronically delaying an alarm while an electronically calculated measurement of a physiological parameter satisfies an alarm activation threshold, the measurement of the physiological parameter responsive to a signal from a noninvasive sensor positioned at a monitored patient, the method comprising:
measuring electronically processing a signal from a noninvasive sensor to determine a first measurement of a first physiological parameter and a second measurement of a second physiological parameter using a patient monitoring device, the patient monitoring device including a processor and a memory device configured to store;
electronically storing, in the memory device, a first parameter-specific alarm suspension period of time corresponding to the first physiological parameter and a second parameter-specific alarm suspension period of time corresponding to the second physiological parameter, the first parameter-specific alarm suspension period of time being different from the second parameter-specific alarm suspension period of time;
electronically determining when the first measurement of the first physiological parameter satisfies a first alarm activation threshold;
receiving, from a user, an indication of a electronically determining that a first alarm suspension should be initiated for the first parameter-specific alarm suspension period of time corresponding to the physiological parameter, the parameter-specific alarm suspension period of time being selected from a plurality of parameter-specific alarm suspension period periods of time, the parameter-specific alarm suspension period of time being different from at least one other parameter-specific alarm suspension period of time corresponding to at least one other physiological parameter; activating an alarm in response to determining an alarm activation threshold has been satisfied by the physiological parameter measurement; receiving an alarm suspension indication;
and in response to receiving the alarm suspension indication,electronically suspending thea first alarm for the first physiological parameter for the indicatedfirst parameter-specific alarm suspension period of time; and
electronically activating the first alarm when the first measurement of the first physiological parameter satisfies the first alarm activation threshold subsequent to the first parameter-specific alarm suspension period of time passing.
14. The method of claim 13 , wherein the first alarm includes an audible component and a visual component, and wherein suspending the first alarm comprises suspending the audible component and not suspending the visual component.
15. The method of claim 13 further comprising:
providing a user interface to the user including at least a plurality of user-selectable elements, each of the selectable plurality of user-selectable elements corresponding to one of the a plurality of parameter-specific alarm suspension periods of time,
wherein the plurality of parameter-specific alarm suspension periods of time comprise the first parameter-specific alarm suspension period of time.
16. The method of claim 15 further comprising:
constructing a pop-up window for a display; and
displaying the plurality of user-selectable elements in the pop-up window.
17. The method of claim 16 , wherein the a selected parameter-specific alarm suspension period of time is selected by selection of one of the plurality of user-selectable elements.
18. A physiological measurement system comprising:
a noninvasive physiological sensor means for outputting configured to output a signal responsive to a noninvasive measurement of attenuated light transmitted through a tissue site a physiological condition of a patient;
a memory configured to store a first alarm activation threshold; and
a processing meansone or more processors in communication with the noninvasive physiological sensor means and configured to:
process the signal to determine a first measurement of athe first measured physiological parameter based at least in part upon the signal;
receive, from a user, an indication of adetermine that a first alarm suspension should be initiated for a first parameter-specific alarm suspension period of time corresponding to the physiological parameter, the first parameter-specific alarm suspension period of time corresponding to the first measured physiological parameter and being selected from a plurality of parameter-specific alarm suspension periods of time, the parameter-specific alarm suspension period of time being different from at least one other a second parameter-specific alarm suspension period of time corresponding to at least one other a second measured physiological parameter for which the one or more processors are configured to determine a second measurement;
activate an alarm in response to determining an determine that the first measurement satisfies the first alarm activation threshold has been satisfied by the physiological parameter measurement; receive an alarm suspension indication; and
in response to receiving the alarm suspension indication, suspend the activation of a first alarm for the indicated first parameter-specific alarm suspension period of time and then activate the first alarm.
19. The physiological measurement system of claim 18 , wherein the processing means is one or more processors are further configured to:
process the signal to determine athe second physiological parameter measurement based at least in part upon the signal;
receive, from the user,determine that a second indication of aalarm suspension should be initiated for the second parameter-specific alarm suspension period of time corresponding to the second physiological parameter, the second parameter-specific alarm suspension period of time being selected from a second plurality of parameter-specific alarm suspension periods of time;
activate a second alarm in response to determining adetermine that the second measurement satisfies a second alarm activation threshold has been satisfied by the second physiological parameter measurement; and
in response to receiving the alarm suspension indication, suspend activation of the second alarm for the indicated second parameter-specific alarm suspension period of time and then activate the second alarm.
20. The physiological measurement system of claim 19 , wherein the processing means is one or more processors are further configured to:
provide a user interface to the user including at least a first plurality of user-selectable elements and a second plurality of user-selectable elements, wherein each of the first plurality of user-selectable elements corresponds to one of the a first plurality of parameter-specific alarm suspension periods of time, and each of the second plurality of user-selectable element elements corresponds to one of the a second plurality of parameter-specific alarm suspension periods of time,
wherein the first plurality of parameter-specific alarm suspension periods of time comprise the first parameter-specific alarm suspension period of time, and the second plurality of parameter-specific alarm suspension periods of time comprise the second parameter-specific alarm suspension period of time.
21. The physiological measurement system of claim 20 , wherein the a selected first parameter-specific alarm suspension period of time is selected by selection of one of the first plurality of user-selectable elements, and the a selected second parameter-specific alarm suspension period of time is selected by selection of one of the second plurality of user-selectable elements.
22. The physiological measurement system of claim 21 , wherein at least one of the first plurality of parameter-specific alarm suspension periods of time is different from any of the second plurality of parameter-specific alarm suspension periods of time.
23. The physiological measurement system of claim 1, wherein the alarm comprises an audible alarm.
24. The physiological measurement system of claim 1, wherein the one or more processors are further configured to output a visual indicator with modification for the parameter-specific alarm suspension period of time and then output the visual indicator without modification.
25. The physiological measurement system of claim 1, wherein the physiological parameter is indicative of the physiological condition of a circulatory system of the patient.Cited by (0)
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