Abstract: A cardiography system and method using automated recognition of hemodynamic parameters and waveform attributes is provided. The cardiography system and method includes at least one sensor, a knowledge base and a processing device. The at least one sensor provides a waveform signal and a hemodynamic parameter input. The knowledge base includes data corresponding to various disease states. The processing device receives the waveform signal and hemodynamic parameter input from the sensor, identifies waveform attributes on the waveform signal, measures the waveform attributes, accesses the knowledge base, cross-references the waveform attributes and the hemodynamic parameters with data in the knowledge base, and outputs a suggested likelihood of a particular disease state.

Abstract: An improved method and system for measuring and reporting heart valve activity combines information obtained from independent signals with information obtained from ICG signals, such that signals derived from heart valve activity may be used as confirmation that the ICG system is accurately identifying heart valve activity. The method and system of the present invention also provide improved accuracy in reported values such as PEP, LVET, STR, SV, and CO. In addition, the method and system of the present invention provide improved accuracy of graphical representations of heart activity where the graphical representations include identifying heart valve activity.

Abstract: An improved method and system for measuring and reporting heart valve activity combines information obtained from independent signals with information obtained from ICG signals, such that signals derived from heart valve activity may be used as confirmation that the ICG system is accurately identifying heart valve activity. The method and system of the present invention also provide improved accuracy in reported values such as PEP, LVET, STR, SV, and CO. In addition, the method and system of the present invention provide improved accuracy of graphical representations of heart activity where the graphical representations include identifying heart valve activity.

Abstract: A cardiography system and method using automated recognition of hemodynamic parameters and waveform attributes is provided. The cardiography system and method includes at least one sensor, a knowledge base and a processing device. The at least one sensor provides a waveform signal and a hemodynamic parameter input. The knowledge base includes data corresponding to various disease states. The processing device receives the waveform signal and hemodynamic parameter input from the sensor, identifies waveform attributes on the waveform signal, measures the waveform attributes, accesses the knowledge base, cross-references the waveform attributes and the hemodynamic parameters with data in the knowledge base, and outputs a suggested likelihood of a particular disease state.

Abstract: An automatic skin perfusion measuring system including instrumentation that automatically analyzes perfusion measurements to identify motion artifact and SPP values and a sensor placement device is provided. The instrumentation is configured to ignore motion artifact. Perfusion measurements are designated as SPP values if various criteria are met. SPP value criteria pertain to factors including cuff pressure, perfusion, perfusion change percentages relative to previous and subsequent perfusion measurements, and whether perfusion measurements are increasing or decreasing relative to previous and subsequent perfusion measurements. The sensor placement device assures reliable data is produced when multiple measurements are desired.

Abstract: An automatic skin perfusion measuring device automatically analyzes perfusion measurements to identify motion artifact and SPP values. Motion artifact is ignored. Perfusion measurements are designated as SPP values if various criteria are met. SPP value criteria pertain to factors including cuff pressure, perfusion, perfusion change percentages relative to previous and subsequent perfusion measurements, and whether perfusion measurements are increasing or decreasing relative to previous and subsequent perfusion measurements.