Surgery – Diagnostic testing – Via monitoring a plurality of physiological data – e.g.,...
Reexamination Certificate
1995-01-06
2001-04-24
Thomas, Joseph (Department: 2644)
Surgery
Diagnostic testing
Via monitoring a plurality of physiological data, e.g.,...
C600S509000, C600S485000, C705S003000
Reexamination Certificate
active
06221012
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to medical systems and in particular to patient monitoring systems for collecting, storing and displaying medical data.
BACKGROUND OF THE INVENTION
In hospitals and other health care environments, it is often necessary to continually collect and analyze a variety of medical data from a patient. These data may include electrocardiogram signals, body temperature, blood pressure, respiration, pulse and other parameters.
Monitoring systems in the related art have typically fallen into one of two general categories: multi-function monitoring, recording and displaying systems which process and collect all of the data desired, but are bulky and difficult to transport; and small, portable systems which are easy to transport, but process and collect fewer types of data and have limited storage capability. Initially (e.g., in an ambulance or an emergency room) a patient is connected to a simple, portable monitor to observe a limited number of medical attributes, such as EKG or non-invasive blood pressure. As the patient moves to higher care facilities (e.g., an intensive care unit or operating room) it is desirable to augment these simple monitors to observe additional parameters. Generally, this is accomplished by disconnecting the patient from the simple monitor and connecting the patient to a monitoring system having more robust capabilities.
The need for continuity of data collection and display is most pressing in emergency situations. Hospital personnel want to monitor additional parameters, change the selection of parameters viewed, or retrieve additional data from the patient's history. At the same time, the patient may have to move to a different care unit. During an emergency, the speed at which a patient is transferred from a bed to an operating room or intensive care unit may substantially impact the patient's chance of survival. Hospital personnel need to be able to quickly add functionality and go.
Two major considerations in the design of monitoring systems have been ease and speed of system reconfiguration. It is particularly undesirable to connect sensors to a patient or disconnect them immediately prior to transportation or administration of critical procedures. U.S. Pat. Nos. 4,715,385 and 4,895,385 to Cudahy et al. discuss a monitoring system which includes a fixed location display unit and a portable display unit. A digital acquisition and processing module (DAPM) receives data from sensors attached to the patient and provides the data to either or both of the fixed and portable display units. Normally, the DAPM is inserted into a bedside display unit located near the patient's bed. When it is necessary to reconfigure the system for transporting the patient, the DAPM is connected to the portable display and then disconnected from the bedside display. The DAPM remains attached to the patient during this reconfiguration step and during patient transport, eliminating the need to reconnect the patient to intrusive devices. Once the DAPM is disconnected from the bedside display, a transportable monitoring system is formed, comprising the portable display and DAPM.
Besides the time delays which may be encountered when adding sensors to the monitor configuration, systems in the prior art also leave much to be desired with respect to cable management. A large number of cables extend between the patient and the monitor. In the past, there has been at least one cable added for each parameter monitored. For example, there may be five cables for EKG, two for cardiac output, two for temperature, plus four hoses for measuring blood pressure using invasive sensors. This array of cables and hoses interferes with the movement of personnel around the patient's bed. The greater the number of cables and hoses, the greater the risk that someone will accidentally disrupt one of them. This has been a common problem in previous systems from several vendors.
Furthermore, the digital acquisition and processing module of the Cudahy et al. system has a fixed parameter configuration, and if the parameter requirements change due to a change in condition of the patient, the digital acquisition and processing module must be disconnected and a different module including the new parameters which are required to be monitored must be connected. This process is not only time consuming, due to the reconnection of the sensors and cables between the patient and the module, but also destructive of data since patient data acquired in the first processing module is lost when it is disconnected and is not transferred to the subsequent processing module. Furthermore, the processing module of Cudahy et al. is extremely bulky and difficult to position near a patient. In order to use the fixed display to observe data from the DAPM, the DAPM must be inserted into the fixed display. And furthermore, the processing module of Cudahy et al. requires extensive cabling to the different patient sensors, which further adds to the complexity and setup time of the system.
Additional simplification of the steps performed to reconfigure the system is also desirable in order to reduce the time to prepare the patient and monitoring system for transportation to an operating room or intensive care unit.
SUMMARY OF THE INVENTION
The present invention is embodied in patient monitoring apparatus for display on a display device of patient data. The apparatus is adapted for use in a system which includes a plurality of sensors. The patient data are collected from a medical patient using the plurality of sensors.
The apparatus includes a data acquisition cartridge which selectively communicates with the plurality of sensors. The data acquisition cartridge collects patient data from a selected sensor and transmits conditioned data signals produced from the patient data to a portable monitor.
The apparatus also includes an independently positionable, self contained data acquisition pod. The data acquisition pod selectively communicates with the plurality of sensors. The data acquisition pod is adapted to collect further patient data from a further selected sensor. The data acquisition pod transmits the further conditioned data signals produced from the patient data to the portable monitor.
The portable monitor detachably couples to the data acquisition cartridge and the data acquisition pod. The portable monitor receives and stores the conditioned data and the further conditioned data.
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patent
Bishop Thomas
Hermanrud Bengt
Kelly Clifford Mark
Maschke Michael
Scholz Wolfgang
Burke Alexander J.
Siemens Medical Electronics, Inc.
Thomas Joseph
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