Claims
- 1. A combined defibrillation and CPR pad, comprising:
a substrate; at least one first high-voltage defibrillation electrode connected to the substrate; at least one second high-voltage defibrillation electrode connected to the substrate; and a CPR pad comprising a portion of the substrate or a member interconnected with the substrate and configured to be located over a region of a patient's body appropriate for CPR chest compressions when the first and second electrodes are positioned over regions of the patient's body appropriate for defibrillation.
- 2. The combined defibrillation and CPR pad of claim 1, further comprising a compression-sensing element at the location of the CPR pad.
- 3. The combined defibrillation and CPR pad of claim 2, wherein the compression-sensing element comprises an accelerometer.
- 4. The combined defibrillation and CPR pad of claim 1, further comprising a force-sensing element at the location of the CPR pad.
- 5. The combined defibrillation and CPR pad of claim 4 wherein the force-sensing element comprises a force-sensing resistor that comprises two layers of material having a resistance therebetween that decreases with respect to increasing force therebetween.
- 6. The combined defibrillation and CPR pad of claim 5 wherein the two layers of material comprise carbon.
- 7. The combined defibrillation and CPR pad of claim 2 further comprising a resuscitation control system electrically connected to the compression-sensing element and configured to provide a rescuer with feedback as to compression applied by the rescuer to the CPR pad.
- 8. The combined defibrillation and CPR pad of claim 7 wherein the resuscitation control system is physically separate from the combined defibrillation and CPR pad.
- 9. The combined defibrillation and CPR pad of claim 7 wherein the resuscitation control system is configured to receive ECG signals from the electrodes for determining whether the patient is shockable.
- 10. The combined defibrillation and CPR pad of claim 2 further comprising a resuscitation control system electrically connected to the compression-sensing element and configured to provide a rescuer with feedback as to a rate at which the rescuer performs CPR.
- 11. The combined defibrillation and CPR pad of claim 2 further comprising a resuscitation control system electrically connected to the compression-sensing element and configured to provide a rescuer with feedback as to whether the rescuer should perform CPR.
- 12. The combined defibrillation and CPR pad of claim 11 wherein the resuscitation control system informs rescuer not to perform CPR when the system is about to cause a defibrillation shock to be applied to the patient through the first and second electrodes.
- 13. The combined defibrillation and CPR pad of claim 2 further comprising a resuscitation control system electrically connected to the compression-sensing element and to the electrodes and configured to perform ECG analysis during pauses between chest compressions.
- 14. The combined defibrillation and CPR pad of claim 11 wherein the resuscitation control system informs the user to suspend CPR while the system receives ECG signals and performs ECG analysis.
- 15. The combined defibrillation and CPR pad of claim 1 wherein the CPR pad is a semi-rigid member.
- 16. The combined defibrillation and CPR pad of claim 1 wherein the first electrode is a sternum electrode and the second electrode is an apex electrode.
- 17. A CPR system, comprising:
a CPR pad configured to be located over a region of a patient's body appropriate for CPR chest compressions; a compression-sensing element interconnected with the CPR pad; and a resuscitation control system electrically connected to the compression-sensing element and configured to receive compression information from the compression-sensing element.
- 18. The CPR system of claim 17 wherein the compression-sensing element comprises an accelerometer.
- 19. The CPR system of claim 17 wherein the resuscitation control system is configured to provide a rescuer with feedback as to chest compression achieved by the rescuer during CPR.
- 20. The CPR system of claim 17 wherein the resuscitation control system is configured to provide a rescuer with feedback as to a rate at which the rescuer performs CPR.
- 21. The CPR system of claim 17 wherein the resuscitation control system is configured to provide a rescuer with feedback as to whether the rescuer should perform CPR.
- 22. The CPR system of claim 21 wherein the resuscitation control system informs the rescuer not to perform CPR when the system is about to cause a defibrillation shock to be applied to the patient.
- 23. The CPR system of claim 17 wherein the resuscitation control system is electrically connected to the electrodes to receive ECG signals and is configured to perform ECG analysis during pauses between chest compressions.
- 24. The combined defibrillation and CPR pad of claim 17 wherein the resuscitation control system informs the user to suspend CPR while the system receives ECG signals and performs ECG analysis.
- 25. The combined defibrillation and CPR pad of claim 17 wherein the CPR pad is a semi-rigid member.
- 26. The CPR system of claim 17, further comprising at least one manually operatable control mechanically connected with the CPR pad, wherein the resuscitation control system is electrically connected to the at least one manually operatable control and is configured to provide resuscitation prompts to a rescuer based on use of the manually operatable control by the rescuer.
- 27. A resuscitation system, comprising:
at least one first high-voltage defibrillation electrode; at least one second high-voltage defibrillation electrode; and at least one manually operatable control mechanically connected with and in the vicinity of at least one of the first and second electrodes; and a resuscitation control system electrically connected to the first and second electrodes and the at least one manually operatable control and configured to provide resuscitation prompts to a rescuer based on use of the manually operatable control by the rescuer.
- 28. The resuscitation system of claim 27 wherein there are a plurality of manually operatable controls mechanically connected with at least one of the first and second electrodes.
- 29. The resuscitation system of claim 27 wherein the at least one manually operatable control comprises a pause control for pausing a resuscitation procedure.
- 30. The resuscitation system of claim 27 wherein the at least one manually operatable control comprises a help button for requesting prompts from the resuscitation control system with respect to a particular aspect of resuscitation.
- 31. The resuscitation system of claim 30 wherein the particular aspect of resuscitation comprises clearing a patient's airway.
- 32. The resuscitation system of claim 30 wherein the particular aspect of resuscitation comprises assisting a patient's breathing.
- 33. The resuscitation system of claim 30 wherein the particular aspect of resuscitation comprises assisting a patient's circulation.
- 34. The resuscitation system of claim 27 wherein the first electrode is a sternum electrode and the second electrode is an apex electrode.
- 35. A defibrillation system, comprising:
at least one first high-voltage defibrillation electrode; at least one second high-voltage defibrillation electrode; a control system electrically connected to the first and second electrodes and configured to cause a defibrillation shock to be applied to a patient through the first and second electrodes; and the control system being configured to pause at least about a second between activation of the defibrillation system and application of a shock to the patient.
- 36. The defibrillation system of claim 35 further comprising a control positioned on the control system that can be operated by a rescuer to indicate that the patient is ready for application of a defibrillation shock, the control system being configured to pause at least about a second between operation of the control by the rescuer and application of a shock to the patient.
- 37. The defibrillation system of claim 35 wherein the control system is configured to pause at least about two seconds between operation of the control by the rescuer and application of the shock to the patient.
- 38. The defibrillation system of claim 35 wherein the control system is configured to provide resuscitation prompts to a rescuer for non-defibrillation resuscitation of the patient.
- 39. The defibrillation system of claim 38 wherein the resuscitation prompts comprises CPR prompts.
- 40. The defibrillation system of claim 35 wherein the first electrode is a sternum electrode and the second electrode is an apex electrode.
- 41. A defibrillation system, comprising:
at least one first high-voltage defibrillation electrode; at least one second high-voltage defibrillation electrode; a control system electrically connected to the first and second electrodes and configured to cause a defibrillation shock to be applied to a patient through the first and second electrodes; and a pulse detection system affixed to a substrate to which at least one of the electrodes is affixed, the pulse detection system being configured to detect whether the patient has a pulse when the substrate is in contact with the patient; the control system being configured to permit or to cause the defibrillation shock to be applied to the patient when the pulse detection system determines that the patient has no pulse and to prevent the defibrillation shock from being applied to the patient when the pulse detection system determines that the patient has a pulse.
- 42. The defibrillation system of claim 41 wherein the pulse detection system comprises sensing light passed through a vascular bed of the patient.
- 43. The defibrillation system of claim 42 wherein the pulse detection system is a pulse oximetry system.
- 44. The defibrillation system of claim 41 wherein the pulse detection system is a phonocardiogram system.
- 45. The defibrillation system of claim 41 wherein the control system is configured to provide resuscitation prompts to a rescuer for non-defibrillation resuscitation of the patient.
- 46. The defibrillation system of claim 45 wherein the resuscitation prompts comprises CPR prompts.
- 47. The defibrillation system of claim 41 wherein the first electrode is a sternum electrode and the second electrode is an apex electrode.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation-in-part application of and claims priority to U.S. application Ser. No. 09/498,306, filed on Feb. 4, 2000, and PCT Application Serial No. PCT/US01/03781, filed on Feb. 5, 2001.
Continuation in Parts (2)
|
Number |
Date |
Country |
| Parent |
09498306 |
Feb 2000 |
US |
| Child |
09794320 |
Feb 2001 |
US |
| Parent |
PCT/US01/03781 |
Feb 2001 |
US |
| Child |
09498306 |
Feb 2000 |
US |