Apparatus and method for detecting cardiac events

The invention claimed is: 1. An implantable system for monitoring of cardiac conditions comprising: a plurality of sensors configured to collect physiological data associated with a subject of the implantable system at preset time intervals, wherein the collected physiological data includes real-time electrocardiac signal data, heart sound data, activity level data, and tissue perfusion data; and a processing circuitry configured to: compare the electrocardiac signal data with a threshold electrocardiac criteria for indicating a strong likelihood of a cardiac event; trigger an alarm state if the electrocardiac signal data is not within the threshold electrocardiac criteria; determine the current activity level of the subject from the activity level data if the electrocardiac signal data is within the threshold electrocardiac criteria; determine whether the current activity level is below a threshold activity level; compare the tissue perfusion data with a threshold tissue perfusion criteria for indicating a strong likelihood of a cardiac event if the current activity level is determined to be below a threshold activity level; trigger the alarm state if the threshold tissue perfusion data is not within the threshold tissue perfusion criteria; and trigger the alarm state if the threshold tissue perfusion data is within the threshold tissue perfusion criteria and the heart sound data indicates that S3 and S4 heart sounds are detected, wherein if the alarm state is not triggered, the processor collects the physiological data associated with the subject is at the expiration of the preset time interval. 2. The implantable system of claim 1 , wherein the threshold electrocardiac criteria relates to ST segment deviation from preset values. 3. The implantable system of claim 1 , wherein at least one of the plurality of sensors is configured to measure the current activity level as a state relating to at least one of physical exertion and body posture of the subject. 4. The implantable system of claim 1 , wherein the threshold tissue perfusion criteria relates to an acceptable level of oxygenation in adjacent body tissue of the subject. 5. The implantable system of claim 4 , wherein the acceptable level of oxygenation is determined based on the color of the adjacent body tissue of the subject. 6. The implantable system of claim 1 , wherein at least one of the plurality of sensors is configured to measure biomarker data relating to biochemical indicators of a cardiac event, and wherein the processing circuitry is configured to trigger the alarm state if the biochemical indicators are detected. 7. The implantable system of claim 1 , wherein the plurality of sensors is configured to: collect respiration data relating to the subject's respiration; wherein the processing circuitry is configured to compare the collected respiration data with a threshold respiration criteria for indicating a strong likelihood of a cardiac event in response to the current activity level being below a threshold activity level; and trigger the alarm state if the respiration data is not within the threshold respiration criteria. 8. The implantable system of claim 1 , wherein the plurality of sensors is configured to collect systolic pressure data from the subject; and wherein the processing circuitry is configured to trigger the alarm state in response to the current activity level being below the threshold activity level, the threshold tissue perfusion data being within the threshold tissue perfusion criteria, the heart sound data not indicating that S3 and S4 heart sounds are detected, and the systolic pressure data indicating a systolic pressure change greater than a threshold criteria for systolic pressure. 9. The implantable system of claim 1 , wherein the processing circuitry is configured to change one or more threshold values based on the determined current activity level of the subject. 10. A system for monitoring of cardiac conditions incorporating an implantable medical device in a subject, comprising: means for collecting physiological data associated with the subject from the implantable device at preset time intervals, wherein the collected data includes real-time electrocardiac signal data, heart sound data, activity level data and tissue perfusion data; means for comparing the electrocardiac signal data with a threshold electrocardiac criteria for indicating a strong likelihood of a cardiac event; means for triggering an alarm state if the electrocardiac signal data is not within the threshold electrocardiac criteria; means for determining the current activity level of the subject from the activity level data if the electrocardiac signal data is within the threshold electrocardiac criteria; means for determining whether the current activity level is below a threshold activity level; means for comparing the tissue perfusion data with a threshold tissue perfusion criteria for indicating a strong likelihood of a cardiac event if the current activity level is determined to be below a threshold activity level; means for triggering an alarm state if the threshold tissue perfusion data is not within the threshold tissue perfusion criteria; and means for triggering an alarm state if the threshold tissue perfusion data is within the threshold tissue perfusion criteria and the heart sound data indicates that S3 and S4 heart sounds are detected, wherein if an alarm state is not triggered, means for collecting the physiological data associated with the subject is at the expiration of the preset time interval. 11. A method for monitoring of cardiac conditions incorporating an implantable medical device in a subject, the method comprising: collecting physiological data associated with the subject from the implantable device at preset time intervals, wherein the collected data includes real-time electrocardiac signal data, heart sound data, activity level data, and tissue perfusion data; comparing the electrocardiac signal data with a threshold electrocardiac criteria for indicating a strong likelihood of a cardiac event; determining the electrocardiac signal is within the threshold electrocardiac criteria; determining the current activity level of the subject from the activity level data in response to the electrocardiac signal data being within the threshold electrocardiac criteria; determining the current activity level is below a threshold activity level; comparing the tissue perfusion data with a threshold tissue perfusion criteria for indicating a strong likelihood of a cardiac event in response to the current activity level being determined to be below the threshold activity level; triggering an alarm state if the threshold tissue perfusion data is not within the threshold tissue perfusion criteria; and triggering the alarm state if the threshold tissue perfusion data is within the threshold tissue perfusion criteria and the heart sound data indicates that S3 and S4 heart sounds are detected, wherein if the alarm state is not triggered, the physiological data associated with the subject is collected at the expiration of the preset time interval. 12. The method according to claim 11 , wherein the threshold electrocardiac criteria relates to ST segment deviation from preset values. 13. The method according to claim 11 , wherein the current activity level is measured as a state relating to at least one of physical exertion and body posture. 14. The method according to claim 11 , wherein the comparing the tissue perfusion data with the threshold tissue perfusion criteria includes comparing the tissue perfusion data with a threshold t