Automated external defibrillator (AED) system with multiple patient wireless monitoring capability for use in mass casualty incidents
First Claim
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1. An automated external defibrillator (AED) for applying a therapeutic bi-phasic shock pulse to a patient, said automated external defibrillator (AED) comprising:
- a battery;
a plurality of capacitors for storing charge from the battery;
a pair of defibrillation electrodes for positioning on the exterior of the chest of the patient;
patient monitor apparatus comprising a pair of monitoring sensors for positioning on the exterior of the patient; and
control circuitry interposed between (i) the battery and the plurality of capacitors, and (ii) the plurality of capacitors and the pair of defibrillation electrodes, the control circuitry being configured to;
(1) monitor patient parameters using the patient monitor apparatus;
(2) using the pair of monitoring sensors, determine if the patient is in a shockable condition;
(3) selectively charge the plurality of capacitors from the battery;
(4) measure the thoracic impedance of the patient by applying a non-therapeutic, assessment pre-pulse to the patient and then terminating the same, wherein the non-therapeutic, assessment pre-pulse comprises a brief discharge of selected ones of the plurality of capacitors, the non-therapeutic, assessment pre-pulse having (i) a sufficiently low voltage and a sufficiently low current, applied for a sufficiently short time duration, as to deliver a safe, non-therapeutic, assessment current to the patient, and (ii) a duration long enough to obtain an accurate reading of the patient'"'"'s thoracic impedance but short enough to avoid substantially depleting the capacitors;
(5) calculate the thoracic impedance of the patient from the non-therapeutic, assessment pre-pulse applied to the patient;
(6) determine the level of energy to be applied to the patient in the therapeutic bi-phasic shock pulse;
(7) determine the number of capacitors to be discharged into the patient, and the duration of the discharge, based upon the calculated thoracic impedance of the patient and the level of energy to be applied to the patient in the therapeutic bi-phasic shock pulse, so as to provide a therapeutic bi-phasic shock pulse to the patient; and
(8) provide a therapeutic bi-phasic shock pulse to the patient, by discharging the determined number of capacitors, for the determined duration, into the pair of defibrillation electrodes positioned on the exterior of the chest of the patient.
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Abstract
An Automated External Defibrillator (AED) with wireless patient monitoring capability. The AED is used in conjunction with a monitoring chest strap that transmits the patient'"'"'s ECG and other parameters over a wireless network to the AED. The AED is capable of monitoring several patients simultaneously for use in mass casualty incidents. The AED notifies and indicates to the operator when a patient requires defibrillation therapy. The device is ready to shock once the defibrillation electrodes are applied.
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Citations
24 Claims
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1. An automated external defibrillator (AED) for applying a therapeutic bi-phasic shock pulse to a patient, said automated external defibrillator (AED) comprising:
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a battery; a plurality of capacitors for storing charge from the battery; a pair of defibrillation electrodes for positioning on the exterior of the chest of the patient; patient monitor apparatus comprising a pair of monitoring sensors for positioning on the exterior of the patient; and control circuitry interposed between (i) the battery and the plurality of capacitors, and (ii) the plurality of capacitors and the pair of defibrillation electrodes, the control circuitry being configured to; (1) monitor patient parameters using the patient monitor apparatus; (2) using the pair of monitoring sensors, determine if the patient is in a shockable condition; (3) selectively charge the plurality of capacitors from the battery; (4) measure the thoracic impedance of the patient by applying a non-therapeutic, assessment pre-pulse to the patient and then terminating the same, wherein the non-therapeutic, assessment pre-pulse comprises a brief discharge of selected ones of the plurality of capacitors, the non-therapeutic, assessment pre-pulse having (i) a sufficiently low voltage and a sufficiently low current, applied for a sufficiently short time duration, as to deliver a safe, non-therapeutic, assessment current to the patient, and (ii) a duration long enough to obtain an accurate reading of the patient'"'"'s thoracic impedance but short enough to avoid substantially depleting the capacitors; (5) calculate the thoracic impedance of the patient from the non-therapeutic, assessment pre-pulse applied to the patient; (6) determine the level of energy to be applied to the patient in the therapeutic bi-phasic shock pulse; (7) determine the number of capacitors to be discharged into the patient, and the duration of the discharge, based upon the calculated thoracic impedance of the patient and the level of energy to be applied to the patient in the therapeutic bi-phasic shock pulse, so as to provide a therapeutic bi-phasic shock pulse to the patient; and (8) provide a therapeutic bi-phasic shock pulse to the patient, by discharging the determined number of capacitors, for the determined duration, into the pair of defibrillation electrodes positioned on the exterior of the chest of the patient. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. Patient monitor apparatus comprising:
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a strap; a pair of monitoring sensors secured to the strap for positioning on the exterior of the patient for monitoring patient parameters when the strap is secured to the patient; and data transmission apparatus for transmitting patient parameters to an AED. - View Dependent Claims (16, 17, 18)
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19. A method for treating a patient, wherein the method comprises:
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providing an automated external defibrillator (AED) for applying a therapeutic bi-phasic shock pulse to a patient, said automated external defibrillator (AED) comprising; a battery; a plurality of capacitors for storing charge from the battery; a pair of defibrillation electrodes for positioning on the exterior of the chest of the patient; patient monitor apparatus comprising a pair of monitoring sensors for positioning on the exterior of the patient; and control circuitry interposed between (i) the battery and the plurality of capacitors, and (ii) the plurality of capacitors and the pair of defibrillation electrodes, the control circuitry being configured to; (1) monitor patient parameters using the patient monitor apparatus; (2) using the pair of monitoring sensors, determine if the patient is in a shockable condition; (3) selectively charge the plurality of capacitors from the battery; (4) measure the thoracic impedance of the patient by applying a non-therapeutic, assessment pre-pulse to the patient and then terminating the same, wherein the non-therapeutic, assessment pre-pulse comprises a brief discharge of selected ones of the plurality of capacitors, the non-therapeutic, assessment pre-pulse having (i) a sufficiently low voltage and a sufficiently low current, applied for a sufficiently short time duration, as to deliver a safe, non-therapeutic, assessment current to the patient, and (ii) a duration long enough to obtain an accurate reading of the patient'"'"'s thoracic impedance but short enough to avoid substantially depleting the capacitors; (5) calculate the thoracic impedance of the patient from the non-therapeutic, assessment pre-pulse applied to the patient; (6) determine the level of energy to be applied to the patient in the therapeutic bi-phasic shock pulse; (7) determine the number of capacitors to be discharged into the patient, and the duration of the discharge, based upon the calculated thoracic impedance of the patient and the level of energy to be applied to the patient in the therapeutic bi-phasic shock pulse, so as to provide a therapeutic bi-phasic shock pulse to the patient; and (8) provide a therapeutic bi-phasic shock pulse to the patient, by discharging the determined number of capacitors, for the determined duration, into the pair of defibrillation electrodes positioned on the exterior of the chest of the patient; applying the patient monitor apparatus to the patient and connecting the patient monitor apparatus to the control circuitry; monitoring patient parameters using the patient monitor apparatus; if a shockable condition is detected in the patient, defibrillating the patient using the AED. - View Dependent Claims (20, 21, 22, 23, 24)
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Specification