Patent application number | Description | Published |
20120105238 | DEFIBRILLATOR DELIVERING AUDIBLE PROMPTS TO EARPIECE - Defibrillators, software and methods are provided, for transmitting inaudible audio information to one or more external personal sound devices. The audio information may encode an audible indication, which can thus be played by an external personal sound device to a user such as a rescuer. | 05-03-2012 |
20120109239 | DEFIBRILLATOR WITH MUTABLE SOUND PROMPTS - Defibrillators, software and methods are provided, for issued verbal prompts to rescuers. A defibrillator may receive a muting input and, responsive thereto, cause a verbal prompt to not be issued or to be issued less loudly relative another verbal prompt. | 05-03-2012 |
20130304142 | UTILITY MODULE - A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime. | 11-14-2013 |
20130304145 | UTILITY MODULE SYSTEM - A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime. | 11-14-2013 |
Patent application number | Description | Published |
20080221397 | Defibrillator Patient Monitoring Pod - A patient parameter monitoring pod in embodiments of the teachings may include one or more the following features: (a) portable housing containing a power supply, (b) a patient parameter module connectable to a patient via lead cables to collect patient data, the patient data including at least one vital sign, (c) a transceiver adapted to wirelessly transmit the patient data to a defibrillator, (d) a data port adapted to supply the patient data via a direct electrical connection to the defibrillator, and (e) a carrying handle extending from the housing proximate a patient lead cable port that permits connection of the lead cables to the pod, the carrying handle positioned to protect the patient lead cable port and the patient lead cables attached to the port from direct impact. | 09-11-2008 |
20090295326 | Defibrillator Battery Authentication System - A method for operating an external medical device such as a defibrillator includes obtaining a data set from a battery pack and examining the data set to determine whether the battery pack is authenticated for use in the external medical device. If the examination does not confirm the authentications the method includes causing the device to follow a non-authenticated battery pack protocol. The non-authenticated battery pack protocol may include drawing power from the non-authenticated battery pack only if it is the only available source of power for the external medical device. It may include limiting functionality of the external medical device. It may include modifying the battery status information display for the non-authenticated battery pack. A power system for an external medical device may include a power source external to the medical device and including a memory which stores data indicative of an authorized status of the power source and a processor in the medical device configured to analyze the data and to control a function of the medical device based at least in part on the authorization status. | 12-03-2009 |
20100198286 | SELECTIVE POWERING OF MEDICAL DEVICE DEPENDING ON AUTHENTICATION OF POWER ADAPTER SYSTEM - In an embodiment, a medical device can be used with a power adapter system. In addition, it can receive a data set from the power adapter system, and examine the data set to determine whether the data set confirms or not an authentication of the power adapter for use with the medical device. If the authentication is not confirmed, the external medical device can operate differently than otherwise. For example, power can be drawn from the power adapter system only if an inside battery is not charged. | 08-05-2010 |
20100198287 | SELECTIVE RECHARGING OF MEDICAL DEVICE DEPENDING ON AUTHENTICATION OF POWER ADAPTER SYSTEM - In an embodiment, a medical device can be used with a power adapter system. In addition, it can receive a data set from the power adapter system, and examine the data set to determine whether the data set confirms or not an authentication of the power adapter for use with the medical device. If the authentication is not confirmed, the external medical device can operate differently than otherwise. For example, power can be drawn more slowly from the power adapter system. | 08-05-2010 |
20110208259 | DEFIBRILLATOR/MONITOR SYSTEM HAVING A POD WITH LEADS CAPABLE OF WIRELESSLY COMMUNICATING - A modular external defibrillator system in embodiments of the teachings may include one or more of the following features: a base containing a defibrillator to deliver a defibrillation shock to a patient, (b) one or more pods each connectable to a patient via patient lead cables to collect at least one patient vital sign, the pods operable at a distance from the base, (c) a wireless communications link between the base and a selected one of the two or more pods to carry the at least one vital sign from the selected pod to the base, the selection being based on which pod is associated with the base. | 08-25-2011 |
20120226204 | PROGRAMMABLE CARDIOPULMONARY RESUSCITATION (CPR) DETECTION DEVICE - Time after time studies find that often, even when administered by trained professionals, cardiopulmonary resuscitation (CPR) compression rates and depth are inadequate. Too week, shallow or too forceful compressions may contribute to suboptimal patient outcome. Several parameters are crucial for optimal and properly-administered CPR. Crucial parameters include proper hand positioning on the patient's chest, depth of compression of 4-5 cm, and compression rate of 100 compressions per minute. The crucial parameters are often affected by patient parameters, and relative to the patient, rescuer parameters, such as patient thoracic volume; weight; age; gender; and rescuer's, relative to the patient's, parameters, such as weight, height; physical form, etc. Proposed is an automated CPR feedback device with user programmable settings for assisting with real-time feedback and subsequently correcting rescuers patient customized CPR technique. | 09-06-2012 |
20130331899 | DEFIBRILLATOR/MONITOR SYSTEM HAVING A POD WITH LEADS CAPABLE OF WIRELESSLY COMMUNICATING - A modular external defibrillator system in embodiments of the teachings may include one or more of the following features: a base containing a defibrillator to deliver a defibrillation shock to a patient, (b) one or more pods each connectable to a patient via patient lead cables to collect at least one patient vital sign, the pods operable at a distance from the base, (c) a wireless communications link between the base and a selected one of the two or more pods to carry the at least one vital sign from the selected pod to the base, the selection being based on which pod is associated with the base. | 12-12-2013 |
20140052201 | MEDICAL DEVICE WITH INTERACTIVE CONTROL PANEL - Medical devices and methods in which a user can treat a patient or monitor a parameter of the patient or both may include a housing, a patient module located within the housing that is used for treating the patient, monitoring the patient or both, and a control panel. The control panel is attached to the housing and has a first surface and a second surface and is positionable between a first position and a second position with respect to the housing. The first position exposes a user to a first surface of the control panel and the second position exposes the user to a second surface of the control panel. A first set of user controls are located on one or the other of the first surface and the second surface and are structured to allow the user to interact with the patient module. | 02-20-2014 |
20140052202 | MEDICAL DEVICE WITH SCREEN, AND DOOR COVERING THE SCREEN - Medical devices and methods of operating medical devices that treat and monitor patients include a housing and a module located within the housing. The module is configured to perform the treating and monitoring parameters of the patient. A screen is also attached to the housing. The screen is viewable by the user outside of the housing. The medical device also includes a door that is coupled with the housing. The door is movable between a closed position that covers at least some portion of the coverable portion of the screen so as to prevent the coverable portion of the screen from being viewed and an open position that does not cover the coverable portion of the screen. | 02-20-2014 |
20140142647 | DEFIBRILLATOR PATIENT MONITORING POD - A patient parameter monitoring pod in embodiments of the teachings may include one or more of the following features: (a) portable housing containing a power supply, (b) a patient parameter module connectable to a patient via lead cables to collect patient data, the patient data including at least one vital sign, (c) a transceiver adapted to wirelessly transmit the patient data to a defibrillator, (d) a data port adapted to supply the patient data via a direct electrical connection to the defibrillator, and (e) a carrying handle extending from the housing proximate a patient lead cable port that permits connection of the lead cables to the pod, the carrying handle positioned to protect the patient lead cable port and the patient lead cables attached to the port from direct impact. | 05-22-2014 |
20140272860 | DECISION SUPPORT TOOL FOR USE WITH A MEDICAL MONITOR-DEFIBRILLATOR - Work flows are modeled as a graph of interdependent tasks to be performed. The tasks to be performed are set by a task file module configured to enable interactions between tasks and including modules for event viewing, protocol assistance, smart messaging, smart indices, reference material lookup. A decision support manager module is configured to construct data and model profiles for storage in a data and model profile bank, events for storage in a decision support events bank, and protocols for storage in a decision support protocol bank. Configuration files are provided to specify a configuration for execution of one of the tasks. Data entered through a user interface or from a network via a wireless or wired communication module may define task files in the task files module, configuration files in the configuration files module, as well as data, events, and protocols to be used for a defibrillation procedure. A decision support manager module is configured to construct a dependency graph of tasks as specified in at least one of the configuration files and to execute the dependency graph. | 09-18-2014 |
20140303507 | EXTERNAL DEFIBRILLATOR WITH POWER AND BATTERY SHARING CAPABILITIES WITH A POD - A modular external defibrillator system in embodiments of the teachings may include one or more of the following features: (a) a base containing a defibrillator module to deliver a defibrillation shock to a patient, (b) a patient parameter monitoring pod connectable to a patient via patient lead cables to collect patient data, the patient data including at least one patient vital sign, (c) a power supply sharing link between the base and the pod, the pod receiving power from the base via the power sharing link, the pod being operable to collect patient data without receiving power from the base, and (d) an external battery charger, the battery charger interrogating the batteries to determine battery information used for battery charging, the battery information including at least one of charging voltage, charging current, and charge time. | 10-09-2014 |
20150018894 | DEFIBRILLATOR/MONITOR SYSTEM HAVING A POD WITH LEADS CAPABLE OF WIRELESSLY COMMUNICATING - A modular external defibrillator system in embodiments of the teachings may include one or more of the following features: a base containing a defibrillator to deliver a defibrillation shock to a patient, (b) one or more pods each connectable to a patient via patient lead cables to collect at least one patient vital sign, the pods operable at a distance from the base, (c) a wireless communications link between the base and a selected one of the two or more pods to carry the at least one vital sign from the selected pod to the base, the selection being based on which pod is associated with the base. | 01-15-2015 |
Patent application number | Description | Published |
20100318143 | DEFIBRILLATORS CUSTOMIZED FOR ANTICIPATED PATIENTS - An external defibrillator is customized for at least one person, i.e., an anticipated patient, through creation of a profile for the anticipated patient that allows the defibrillator and users of the defibrillator to provide customized treatment to the patient. The profile may include treatment parameters for the anticipated patient, such as defibrillation therapy parameters selected for the patient. The profile may also include a baseline recording of a physiological parameter of the patient, and medical history and personal information regarding the patient. In some embodiments, the external defibrillator stores a profile for each of one or more anticipated patients within a memory. In other embodiments, a profile for an anticipated patient is stored within a medium associated with that anticipated patient. The medium may, for example, be a removable medium for external defibrillators. | 12-16-2010 |
20100318144 | DEFIBRILLATORS CUSTOMIZED FOR ANTICIPATED PATIENTS - An external defibrillator is customized for at least one person, i.e., an anticipated patient, through creation of a profile for the anticipated patient that allows the defibrillator and users of the defibrillator to provide customized treatment to the patient. The profile may include treatment parameters for the anticipated patient, such as defibrillation therapy parameters selected for the patient. The profile may also include a baseline recording of a physiological parameter of the patient, and medical history and personal information regarding the patient. In some embodiments, the external defibrillator stores a profile for each of one or more anticipated patients within a memory. In other embodiments, a profile for an anticipated patient is stored within a medium associated with that anticipated patient. The medium may, for example, be a removable medium for external defibrillators. | 12-16-2010 |
20100318145 | DEFIBRILLATORS CUSTOMIZED FOR ANTICIPATED PATIENTS - An external defibrillator is customized for at least one person, i.e., an anticipated patient, through creation of a profile for the anticipated patient that allows the defibrillator and users of the defibrillator to provide customized treatment to the patient. The profile may include treatment parameters for the anticipated patient, such as defibrillation therapy parameters selected for the patient. The profile may also include a baseline recording of a physiological parameter of the patient, and medical history and personal information regarding the patient. In some embodiments, the external defibrillator stores a profile for each of one or more anticipated patients within a memory. In other embodiments, a profile for an anticipated patient is stored within a medium associated with that anticipated patient. The medium may, for example, be a removable medium for external defibrillators. | 12-16-2010 |
20120123490 | MANUALLY INITIATING WIRELESS TRANSMISSION OF RESUSCITATION EVENT DATA TO MEDICAL DEVICE - An external defibrillator can include a bump sensor for generating motion information and a bump detector for determining whether the external defibrillator has been subjected to a local bump event. The external defibrillator can transmit wirelessly a data signal encoding resuscitation event data to a second external defibrillator over a wireless communication link between the two devices. | 05-17-2012 |
20120123504 | MANUALLY INITIATING WIRELESS RECEPTION OF RESUSCITATION EVENT DATA FROM MEDICAL DEVICE - An external defibrillator can include a bump sensor for generating motion information and a bump detector for determining whether the external defibrillator has been subjected to a local bump event. The external defibrillator can transmit wirelessly a data signal encoding resuscitation event data to a second external defibrillator over a wireless communication link between the two devices. | 05-17-2012 |
20120136286 | MULTI-RESOLUTION GRAPHICAL DISPLAY FOR FEEDBACK ON CHEST COMPRESSION DEPTH - Embodiments of the present concept are directed to medical devices. For example, a medical device including a display for providing feedback to a rescuer who is performing Cardio Pulmonary Resuscitation (CPR) chest compressions to a patient. The display is structured to graphically indicate an instantaneous value of a measured compression depth of the chest of the patient. The display includes an indicator range that corresponds at least in part to a compression depth range of some of the measured compression depths. An indicator is represented as progressing along the indicator range as the depth changes within the compression depth range to represent a value of the measured compression depth in relation to the indicator range. Depending on the measured compression depth, the indicator progresses at a variable rate relative to a difference in the measured compression depth. | 05-31-2012 |
20120185006 | DEFIBRILLATORS DETECTING ORIENTATION OF ELECTRODE CONNECTION TO ADJUST ENERGY DOSAGE - Embodiments of the present concept are directed to external defibrillators that include an electrode connection port having multiple connection options, and include a detection device to determine an electrode connection configuration so as to provide an appropriate electrical shock to a patient. The detection device detects the electrode connection configuration of a plug connector for connected electrodes to determine if the plug connector is in an adult orientation or a pediatric orientation. The external defibrillator is configured to a deliver an electrical shock with less energy when the pediatric orientation is detected rather than the adult orientation. | 07-19-2012 |
20120296384 | MEDICAL DEVICES ALERTING USER ABOUT POTENTIAL INTERRUPTION OF WIRELESS PATIENT DATA TRANSFER - An external defibrillator can receive wirelessly a data signal transmitted by a transmitting device over a communication link. The defibrillator can include a processor configured to monitor a reception parameter of the communication link while the data signal is being received and to set an alert flag if the processor determines from the reception parameter that reception of the data signal may be discontinued prematurely. The defibrillator can also include a user interface capable of outputting an alerting user notification responsive to the alert flag being set. | 11-22-2012 |
20130218220 | DEFIBRILLATORS DETECTING ORIENTATION OF ELECTRODE CONNECTION TO ADJUST ENERGY DOSAGE - Embodiments of the present concept are directed to external defibrillators that include an electrode connection port having multiple connection options, and include a detection device to determine an electrode connection configuration so as to provide an appropriate electrical shock to a patient. The detection device detects the electrode connection configuration of a plug connector for connected electrodes to determine if the plug connector is in an adult orientation or a pediatric orientation. The external defibrillator is configured to a deliver an electrical shock with less energy when the pediatric orientation is detected rather than the adult orientation. | 08-22-2013 |
20140100496 | DEVICES AND METHODS FOR PERFORMING CPR WHILE STANDING UP - In one embodiment, a manual CPR device, also known as a CPR derrick, includes a frame that is put close to a patient who is on the ground. The device also includes a piston that can be moved up and down, and is aligned to be over the patient's chest. The device also has an actuator that the rescuer can operate manually so as to move the piston up and down, which will deliver compressions to the patient's chest. A bottom stop prevents the compressions from being too deep. In some embodiments, proper dimensioning of the CPR derrick permits the rescuer to perform CPR chest compressions while standing up, i.e. without kneeling. The rescuer may be able to perform higher quality CPR, and for a longer time, giving more opportunity to a life-saving team to arrive in time. | 04-10-2014 |