Patent application number | Description | Published |
20090156946 | BLOOD PRESSURE MOTION SENSING - The invention relates to a blood pressure monitor for measuring the blood pressure of a person including a blood pressure cuff. The blood pressure monitor also includes an electro-pneumatic package. The electro-pneumatic package includes a pump, a valve, a pressure sensor, and one or more accelerometers. A pneumatic mechanical coupling is configured to pneumatically and mechanically directly couple the blood pressure cuff to the electro-pneumatic package, wherein a signal from the one or more accelerometers configured to indicate an activity level of the person during a blood pressure measurement. A display is configured to display an indication of the activity level. The invention also relates to a blood pressure monitor wherein an electronics circuit is configured to receive the motion signal from the one or more accelerometers during a blood pressure measurement. The invention also relates to a method for detecting a motion artifact in a non-invasive blood pressure measurement. | 06-18-2009 |
20090318818 | BLOOD PRESSURE MONITORING SYSTEM - A blood pressure monitoring system that includes a compact housing that contains a pneumatic circuit that is removably attached to an inflatable cuff by a hoseless connector so that the cuff can be inflated and deflated to provide blood pressure readings that are detected by a pressure sensor. A controller is also contained in the housing which controls the circuit activities and records blood pressure related data. The controller is linked via a bidirectional communication system with a processor that is contained in a host station which programs the controller and collects and records blood pressure related data. The communication system also allows the monitoring system to communicate over a wider network with other remote stations. | 12-24-2009 |
20100016737 | ELECTRO PNEUMATIC INTERFACE FOR BLOOD PRESSURE SYSTEM - A blood pressure system that includes a compact monitor housing that contains a pneumatic circuit and an electrical circuit and a processor for inflating and deflating a cuff to provide blood pressure related data. A split connector allows the housing to interface both pneumatically and electronically with one or more independent cuffs and/or with one or more host stations. Each host station contains a dependent cuff and further electrical components to expand and enhance the systems output of related blood pressure data that is generated by either the independent or dependent cuffs. | 01-21-2010 |
20100027582 | CYCLE COUNTING - The present invention provides a platform for a manufacturer of reusable medical apparatuses to provide timely post-sale service for replaceable parts. In one embodiment, the probe assembly of an electronic thermometer has a connector that is equipped with a memory device, e.g., EEPROM, that stores a variety of probe-specific service information including usage count of the probe, probe warranty information and error codes. The user can plug the connector, e.g., through an adapter module, to a local computer's USB port and submit the stored service information to a website maintained by the probe manufacturer to check up and get service for the specific probe in a timely fashion. Automatic alert for replacement probe orders depending on the amount of usage, automatic generation of RMA numbers when the probe warranty is determined to be in effect, and automatic service calls for malfunctioning thermometers can all be accomplished accordingly without the need for manual record-keeping. A healthcare provider can simply set aside a day at a scheduled interval to check all of its reusable medial apparatuses equipped with the invented system to keep them safe and effective. | 02-04-2010 |
20110160597 | Suprasystolic Measurement in a Fast Blood-Pressure Cycle - Disclosed herein is a system for monitoring a patient that includes a cuff configured to inflate to at least partially occlude an artery of the patient and a cuff controller configured to inflate the cuff during a dynamic phase and generally maintain inflation of the cuff at about a target pressure during a static phase. The system also includes a sensor configured to receive a signal associated with the at least partially occluded artery and generate an output signal based on the received signal, and a cuff control module configured to determine the target pressure during the dynamic phase and based on the output signal, and control the cuff controller during the dynamic phase and the static phase. | 06-30-2011 |
20110295126 | SYSTEMS AND METHODS FOR MEASURING ARTERIAL STIFFNESS - Disclosed herein is a system for monitoring a patient that includes a cuff configured to inflate to at least partially occlude an artery of the patient and a cuff controller configured to control inflation and deflation of the cuff. The system also includes a sensor configured to receive a signal associated with the at least partially occluded artery and generate an output signal based on the received signal. Also included is a signal analysis module configured to receive the output signal and determine a first hemodynamic parameter based on a first set of data obtained during inflation of the cuff and a second set of data obtained during deflation of the cuff. | 12-01-2011 |
20110313301 | BLOOD PRESSURE IRREGULARITY SENSING - A medical device obtains a set of data associated with a patient's non-invasive blood pressure cycle reading, provides a representation of a pulse interval map on the display screen based on the set of data, the pulse interval map including one or more interval data points representing intervals between heat beats, and alerts a caregiver if one or more of the interval data points fall outside an interval bound. The medical device can also plot a pulse volume map on the display screen based on the set of data, the pulse volume map including one more volume data points representing volumes associated with given heat beats, and alert a caregiver if one or more of the volume data points fall outside a volume bound. | 12-22-2011 |
20120029375 | Respirations Activity and Motion Measurement Using Accelerometers - A system for estimating respirations includes an accelerometer configured to be coupled to an individual's torso, the accelerometer being configured to measure a tilt of the accelerometer as the individual breathes, and a processor connected to the accelerometer, the processor being programmed to process tilt data from the accelerometer and to estimate a respiration rate based on the tilt data. | 02-02-2012 |
20120150051 | BLOOD PRESSURE CUFF - A blood pressure cuff is defined by a first sheet and a second sheet. The first sheet has a first interior-inflatable surface attached to a second interior-inflatable surface of the second sheet to form an interior-inflatable portion between the first sheet and second sheet. The interior-inflatable portion is in communication with an opening to fluidly interconnect the interior-inflatable portion with an exterior of the cuff. A textured surface is included on the second interior-inflatable surface. | 06-14-2012 |
20120226173 | SYSTEMS AND METHODS FOR MEASURING ARTERIAL STIFFNESS - Disclosed herein is a system for monitoring a patient that includes a cuff configured to inflate to at least partially occlude an artery of the patient and a cuff controller configured to control inflation and deflation of the cuff. The system also includes a sensor configured to receive a signal associated with the at least partially occluded artery and generate an output signal based on the received signal. Also included is a signal analysis module configured to receive the output signal and determine a first hemodynamic parameter based on a first set of data obtained during inflation of the cuff and a second set of data obtained during deflation of the cuff. | 09-06-2012 |
20120245478 | CUFF INTEGRITY DETECTION DURING INFLATION OF AN AUTOMATED BLOOD PRESSURE DEVICE - A method for detecting cuff slippage in a blood pressure monitoring device includes starting a cuff inflation on the blood pressure monitoring device. A plurality of pressure samples is obtained when the cuff is inflating. A level of background noise is determined during the cuff inflation. The level of background noise is determined from the plurality of pressure samples. When the background noise is determined, a determination is made from the plurality of blood pressure readings whether a pressure pattern indicating cuff slippage is obtained. | 09-27-2012 |
20140364748 | SUPRASYSTOLIC MEASUREMENT IN A FAST BLOOD-PRESSURE CYCLE - Disclosed herein is a system for monitoring a patient that includes a cuff configured to inflate to at least partially occlude an artery of the patient and a cuff controller configured to inflate the cuff during a dynamic phase and generally maintain inflation of the cuff at about a target pressure during a static phase. The system also includes a sensor configured to receive a signal associated with the at least partially occluded artery and generate an output signal based on the received signal, and a cuff control module configured to determine the target pressure during the dynamic phase and based on the output signal, and control the cuff controller during the dynamic phase and the static phase. | 12-11-2014 |
20150073284 | CUFF INTEGRITY DETECTION DURING INFLATION OF AN AUTOMATED BLOOD PRESSURE DEVICE - A method for detecting cuff slippage in a blood pressure monitoring device includes starting a cuff inflation on the blood pressure monitoring device. A plurality of pressure samples is obtained when the cuff is inflating. A level of background noise is determined during the cuff inflation. The level of background noise is determined from the plurality of pressure samples. When the background noise is determined, a determination is made from the plurality of blood pressure readings whether a pressure pattern indicating cuff slippage is obtained. | 03-12-2015 |