Respiratory early warning scoring systems and methods
Abstract
An early warning scoring system and method comprises a computing device, a plurality of sensors for acquiring physiological signals from a patient, wherein the sensors are functionally connected to the computing device, and at least one alarm adapted to output an alert upon an early warning score (EWS) exceeding a predetermined level. The computing device receives the physiological signals from the sensors, analyzes the physiological signals, and based on the analyzed signals, calculates the early warning score, and compares to the early warning score to predetermined limits and, if the score is outside the limits, triggers an alarm or actuates or modifies a treatment or medical intervention.
Claims
exact text as granted — not AI-modified1 . An early warning scoring system, the system comprising:
a computing device; a plurality of sensors for acquiring physiological signals from a patient, wherein the sensors are functionally connected to the computing device; and at least one alarm adapted to output an alert upon an early warning score (EWS) exceeding a predetermined level; wherein the computing device:
receives the physiological signals from the sensors;
analyzes the physiological signals; and
based on the analyzed signals, calculates the early warning score; and
compares to the early waring score to predetermined limits and, if the score is outside the limits, triggers an alarm or actuates or modifies a treatment or medical intervention.
2 . The early warning scoring system of claim 1 , wherein at least one sensor is a bioelectrical impedance sensor and the computing device provides an assessment of minute ventilation, tidal volume, and/or respiratory rate of the patient based on the bioelectrical impedance signal.
3 . The early warning scoring system of claim 2 , wherein the EWS calculation includes at least one of the minute ventilation, tidal volume, and/or respiratory rate of the patient.
4 . The early warning scoring system of claim 2 , wherein the EWS calculation includes minute ventilation and does not include respiratory rate.
5 . The early warning scoring system of claim 1 , wherein the EWS is indicative of at least one of respiratory failure, sepsis, cardiac failure, congestive heart failure, renal failure, over-hydration, pulmonary edema, hyper metabolic state, overexertion, traumatic brain injury, pulmonary embolus, opioid induced respiratory depression, over sedation.
6 . The early warning scoring system of claim 1 , wherein the sensors obtain patient data relating to at least one of minute ventilation, tidal volume, respiratory rate, oxygen saturation, temperature, blood pressure, pulse or heart rate, blood oxygen levels, and brain activity.
7 . The early warning scoring of claim 1 , wherein the at least one alarm is at least one of audible or visual.
8 . The early warning scoring system of claim 1 , wherein at least two sensors are placed on the torso of the patient and a physiological bioelectrical impedance signal is measured transthoracically.
9 . The early warning scoring system of claim 1 , wherein the computing device further:
obtains patient data comprising alertness, voice, pain, and unresponsiveness (AVPU) of the patient; and the EWS calculation includes the patient's AVPU data.
10 . The early warning scoring system of claim 1 , wherein the system is non-invasive.
11 . The early warning scoring system of claim 1 , wherein the EWS calculation includes the patient's disease state and/or circumstance.
12 . The early warning scoring system of claim 1 , wherein the EWS calculation includes the patient's age, demographics, condition, and/or data from the patient's electronic health records.
13 . The early warning scoring system of claim 1 , wherein the system is a triage system, a mobilization protocol system, a training protocol system, or an activity and/or nutrition regimen system.
14 . A method of calculating an early warning score (EWS), the method comprising the steps of:
coupling a plurality of sensors for acquiring physiological signals to a patient; receiving the physiological signals from the sensors; analyzing the physiological signals; based on the analyzed signals, calculating the EWS; and comparing the early waring score to predetermined limits and, if the score is outside the limits, triggering an alarm or actuating or modifying a treatment or medical intervention.
15 . The method of claim 14 , wherein at least one sensor is a bioelectrical impedance sensor and the method further provides an assessment of minute ventilation, tidal volume, and/or respiratory rate of the patient based on the bioelectrical impedance signal.
16 . The method of claim 15 , wherein the EWS calculation includes at least one of the minute ventilation, tidal volume, and/or respiratory rate of the patient.
17 . The method of claim 15 , wherein the EWS calculation includes minute ventilation and does not include respiratory rate.
18 . The method of claim 14 , wherein the EWS is indicative of at least one of respiratory failure, sepsis, cardiac failure, congestive heart failure, renal failure, over-hydration, pulmonary edema, hyper metabolic state, overexertion, traumatic brain injury, pulmonary embolus, opioid induced respiratory depression, over sedation.
19 . The method of claim 14 , wherein the sensors obtain patient data relating to at least one of minute ventilation, tidal volume, respiratory rate, oxygen saturation, temperature, blood pressure, pulse or heart rate, blood oxygen levels, and brain activity.
20 . The method of claim 14 , wherein the alert is at least one of audible or visual.Join the waitlist — get patent alerts
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