Abstract: A system and a method for noninvasive ECG detection and diagnosis. The system comprises a multiplicity of electrodes applied to a patient, a data acquisition system for acquiring high-resolution ECG data from the patient; and a processor programmed to process the acquired data in accordance with two or more different ECG analysis algorithms, and then derive a prediction score for a particular clinical end point as a function of the respective results of those ECG analysis algorithms.

Abstract: A method for determining respiration rate in a patient can include various parts. The respiration rate can be determined by measuring the heart's S2 split. The S2 split can be identified by observing the timing of the heart sounds. Other respiration related information, such as respiration phase and the occurrence of apnea, can be identified as well. A respiration monitor of this type may be useful for monitoring sub-acute patients, and outpatients. A sensor for the respiration monitor and an electrode for an ECG monitor may be combined into a single probe.

Abstract: A patient monitoring system comprises a non-invasive cardiac output sensor and a patient monitor console. The non-invasive cardiac output sensor is capable of acquiring a signal from a patient indicative of blood flow through a heart of the patient. The patient monitor console includes an analysis module and a display. The analysis module is coupled to the non-invasive cardiac output sensor and processes the signal from the patient indicative of blood flow to produce a value pertaining to cardiac output. The display is coupled to the analysis module and displays the value pertaining to cardiac output.

Abstract: A patient monitoring system has a patient monitor with a screen and mainstream gas input connector configured to receive a mainstream gas concentration signal from a mainstream gas analyzer. A sidestream gas analyzer has an output connector and is configured to transmit a sidestream gas concentration signal via the output connector. The patient monitor receives the sidestream gas concentration signal via the mainstream gas input connector for display on the screen.

Abstract: Heater duty cycle (the active pressure control circuit) in recondensing superconducting magnet systems is monitored to determine total thermal system performance, to minimize non-zero boil-off operation, and to reduce maintenance costs. Undesirable conditions, such as a degrading cold head, plumbing leaks, and so forth, may be detected earlier by monitoring heater duty cycle. Appropriate service intervals may be determined and cryogen or helium losses may be reduced. The technique provides earliest possible identification of failures related to such variables, as well as, facilitates isolation of the root cause of the problem. Monitoring of heater duty cycle (energization time) offers advantages over the traditional approach of monitoring or alarming on low level in the cryogen (helium) vessel. The technique may provide for relying on observation of the effects of reduced cooling capacity, such as abnormal heater duty cycle, early enough in the failure cycle to prevent helium loss and equipment damage.

Abstract: A method for monitoring a subject can include acquiring data from the subject, and dynamically adjusting an alarm limit based on the data. The method can also comprise determining a first value that is typical for the subject for the characteristic being monitored, determining a second value for the characteristic being monitored, and generating a comparison based on the two values. The method could also comprise setting a threshold for a characteristic being monitored, and decreasing the alarm limit if the data crosses the threshold. The method could also include setting an extremity limit. The following methods can be applied to the monitoring of a healthcare patient, or other subjects of interest. Also, the values used in the monitoring of the subject can be configured to be transferable from one monitor to another.

Abstract: A method and apparatus for pneumatic control of a blood pressure determination are disclosed. The method and apparatus comprise an inflatable cuff for obtaining a blood pressure measurement from a patient, a hose configured to operate with a pressurizing apparatus for providing pressurization of the inflatable cuff, the hose including a patient end and a non-patient end. In addition the method and apparatus comprise a pneumatic switch coupled to the inflatable cuff near the patient end of the hose.

Abstract: A patient monitoring system has a patient monitor with a screen and mainstream gas input connector configured to receive a mainstream gas concentration signal from a mainstream gas analyzer. A sidestream gas analyzer has an output connector and is configured to transmit a sidestream gas concentration signal via the output connector. The patient monitor receives the sidestream gas concentration signal via the mainstream gas input connector for display on the screen.

Abstract: A system for selecting physiological data from a plurality of physiological data sources includes first and second physiological data sources and a selection algorithm. The first physiological data source is configured to provide first physiological data. The first physiological data includes a first measurement of a physiological trait. The second physiological data source is configured to provide second physiological data. The second physiological data includes a second measurement of the physiological trait. The first and second measurements are based on different physiological characteristics. The selection algorithm is configured to receive the first and second physiological data and to select one of the first and second measurements as the output data for the physiological trait based on at least one of the first physiological data and the second physiological data.

Abstract: A method and system for determining pulse rate of a patient are disclosed. The method and system include acquiring measured information for at least one pulse at a pressure step, determining and storing quality values for the at least one pulse at the pressure step, analyzing pulse matching criteria for the pressure step, and determining pulse rate based on the measured information, quality values, and pulse matching criteria.

Abstract: A method and system for making pulse rate and blood pressure determinations is disclosed. The method and system comprise collecting oscillometric blood pressure data from pulses, determining individual quality values for feature measurements of the pulses, obtaining an overall quality assessment based on the individual quality values, repeating the collecting step until overall quality level is satisfied, and determining blood pressure and pulse rate using the individual quality values.

Abstract: An interface device receives data from a plurality of sensors and transmits the data over a communication network to one or more of a plurality of monitors. The interface device is capable of operating in both a peripheral mode of operation and a stand-alone mode of operation for the plurality of monitors. In another embodiment, a monitor is connected to a plurality of interface devices by way of a communication network. A separate visible physical communication link or other identification link is used to visually identify which of the interface devices is serving as a peripheral device for the monitor.

Abstract: A wireless local area network (WLAN) system comprises multiple access points that are distributed throughout a medical facility to provide wireless access to a hardwired network. The access points implement multiple WLAN protocols, including a realtime protocol for realtime patient monitoring (telemetry) and a standard WLAN protocol (such as IEEE 802.11 within an ISM band) for providing general-purpose wireless access. Some or all of the access points preferably implement both WLAN protocols such that the different WLANs and wireless device types share network access resources. Some or all of the access points may also include RF location-tracking modules which may be used to track locations of patients, hospital personnel, capital equipment, and/or disposable medical supplies.

Abstract: A method and system for determining when to make a reversion to smaller cuff pressure steps during an oscillometric blood pressure measurement is disclosed. The method and system comprise comparing conformance of oscillometric envelope blood pressure data with previous blood pressure data, including measuring a shift between the oscillometric envelope blood pressure data and an oscillometric envelope derived from the previous blood pressure data. In addition, the method and system include making a reversion decision based on whether the shift exceeds an allowable threshold. Once a reversion decision is made a subsequent decision may be made as to the need for increasing the cuff pressure level.

Abstract: A method and apparatus of correcting a data signal sampled at a first rate to a data signal displayed on a video monitor at a second rate is claimed. A data signal is received at a first rate. The data signal is separated into data windows. The minimum and maximum values and positions of data points in data windows are identified relative to a reference, and displayed on a video monitor.

Abstract: A method and system for eliminating artifacts in an oscillation envelope are disclosed. The method and system comprise evaluating conformance of the oscillometric envelope blood pressure data with a predetermined expected pattern and excluding one or more data points of the oscillometric envelope blood pressure data based on non-conformance with the expected pattern. The expected pattern is based upon generally known physiological principles relating to oscillometric envelopes, a curve fit representing an oscillometric envelope from a previous determination, or other types of criteria.

Abstract: A patient monitoring system is disclosed. The patient monitoring system includes at least one monitoring cable, a plurality of connecting wires, and a plurality of connectors. The plurality of connecting wires are housed within an outer covering and each extend from a first end to a second end of the at least one monitoring cable. The plurality of connectors are arranged in an in-line sequence from the first end to the second end of the at least one monitoring cable and may include at least one ECG connector and at least one non-ECG connector. The patient monitoring system may also be configured to provide strain relief for the at least one cable.

Abstract: A method and system for improved measurement of T-wave alternans in an ECG signal is disclosed. The method and system comprise receiving digitized ECG data including a plurality of alternating consecutive odd and even beats, calculating a variability for at least one odd or even beat, and excluding certain beats from T-wave alternans measurements according to an exclusion procedure.

Abstract: A real time patient monitoring system uses a cellular architecture to monitor ECG signals and other physiologic data of patients, including ambulatory patients. The system includes wireless telemeters that attach to and transmit the physiologic data of respective patients. The telemeters communicate bi-directionally with ceiling-mounted RF transceivers, referred to as “VCELLs,” using a wireless TDMA protocol. The VCELLs forward packets of physiologic data received from the telemeters to patient monitoring stations on a LAN. The VCELLs are spatially distributed throughout the medical facility to provide multiple cells or zones of coverage. As a patient moves throughout the medical facility, the patient's telemeter connects to, and disconnects from, specific VCELLs to maintain connectivity to the LAN. The telemeters and VCELLs also implement a patient location tracking process for monitoring of the locations of individual patients.

Abstract: A method and apparatus for analyzing a physiological waveform. The apparatus comprising an input terminal for connection to a patient to acquire the physiological waveform from a patient, an instrumentation amplifier connected to the input terminal to filter the physiological waveform, and an analysis module including a processor and software for operating the processor to detect cyclic artifact in the physiological waveform. The method comprising the acts of obtaining the physiological waveform and determining whether there is more than one independent complex rhythm within the digital physiological waveform.