Patent application number | Description | Published |
20120130204 | SELF-CONTAINED PATIENT MONITOR - A device for continuous, uninterrupted patient monitoring includes a portable, self-contained Patient Worn Hub (PWH) device. The PWH is a compact, lightweight patient monitoring device designed to remain with the patient for the duration of care. Parameter measurement devices connect to the PWH. Third party parameter measurement devices connect to the PWH via the use of a connection assembly that translates the information provided by the third party device to the protocol embedded within the PWH. The PWH is able to communicate with a bedside monitor via wired cables or wirelessly. Measured values are shown on external displays and/or on an optional integrated PWH touchscreen display. The PWH includes internal memory for storage of patient data and trends. The PWH optionally includes a docking station for providing operating and battery charging power. The PWH is assigned to each patient and will remain with that patient across multiple departments throughout the care process, thus eliminating the need for re-cabling patients. | 05-24-2012 |
20120179020 | PATIENT MONITORING DEVICE - A patient monitoring device to be worn on a limb of a patient. Some embodiments of the patient monitoring device include at least one sensor assembly configured to detect a measurement indicating a distance around the patient's limb and a communications subassembly configured to transmit the measurement to at least one external computing device. Other embodiments of the patient monitoring device include at least one sensor assembly configured to detect a measurement indicating a distance around the patient's limb and at least one processor configured to detect whether the distance around the patient's limb has increased indicating edema. Some embodiments include an accelerometer configured to detect device orientation and/or patient activity information. The patient activity information may be analyzed by an external computing device and/or the patient monitoring device to determine whether the patient's activity level has declined indicating a medical problem. | 07-12-2012 |
20120179067 | SYSTEM AND METHOD FOR PATIENT MONITORING - Systems and methods of monitoring a patient. Exemplary methods include receiving sensor data associated with the patient from a plurality of sensors of a patient monitoring device and determining whether the sensor data satisfies one or more trigger conditions. For each of the trigger conditions satisfied, one or more messages are sent to at least one of the patient monitoring device and an external computing device for display thereby to at least one of the patient, a caregiver, and a support person. Satisfaction of one or more of the trigger conditions may indicate the patient has edema and/or is trending toward decompensation. The sensor data may have been collected from a heart rate sensor, an oximeter, an accelerometer, and/or a sensor configured to detect a distance around a limb of a patient. In some embodiments, the trigger conditions are provided by the patient, caregiver, and/or support person. | 07-12-2012 |
20120184120 | DUAL SERIAL BUS INTERFACE - An interface protocol for patient monitoring systems includes a Dual Serial Bus (DSB) interface. The DSB interface includes a first serial protocol that is USB, Firewire, or Ethernet protocol and a second serial protocol that is a low power serial (LPS) protocol. DSB interfaces provide for communication between DSB Hosts and DSB Devices and allow for the transfer of operating and battery charging power from DSB Host to DSB Device. In addition, the DSB host contains a switched Auxiliary Voltage Supply (AVS) which can provide up to 15 W of power to DSB devices for battery charging or other high power needs. The DSB interface eliminates the need for multiple cables for different parameter sensing devices as there is only one type of connector and, accordingly, reduces the risk of damage caused by inadvertently plugging a parameter sensing device into the wrong receptacle. | 07-19-2012 |
20130015654 | Air-Tight Push-In and Pull-Out Connector System with Positive LatchingAANM Gilham; Jeffrey JayAACI SammamishAAST WAAACO USAAGP Gilham; Jeffrey Jay Sammamish WA USAANM Wekell; William OrenAACI Maple ValleyAAST WAAACO USAAGP Wekell; William Oren Maple Valley WA US - The present specification discloses an adapter for coupling a blood pressure cuff to a blood pressure manifold. In one embodiment, the adapter includes an elastomeric hose having a first end and a second end and a first lumen and a second lumen. The first and second lumens define a first air pathway and a second air pathway respectively. A first end connector is integrally formed with the first end and the second end connector is integrally formed with the second end. The first end connector includes a first seal and a second seal and the second end connector includes a third seal and a fourth seal. The first end of the first lumen terminates proximate to the first seal, the second end of the first lumen terminates proximate to the third seal, the first end of the second lumen terminates proximate to the second seal, and the second end of the second lumen terminates proximate to the fourth seal. The seals are comprised of O-rings, compressible wipers, or any other equally compressible, sealing material. Optionally, for a neonate adapter, the third and fourth seals at the second end connector are replaced by an integrated single lumen tube with a neonate cuff attached at its end. | 01-17-2013 |
20130053719 | ASTHMA MONITORING DEVICE - A monitoring device to be used in conjunction with a patient's airway. Some embodiments of the monitoring device include at least one sensor assembly configured to detect inhaled and exhaled airflow and an optional communications subassembly configured to transmit measurements to at least one external computing device. Other embodiments include at least one sensor assembly configured to detect a measurement indicating airflow from the patient's lungs and at least one processor configured to detect whether the airflow is associated with medication administration or measurement of breathing characteristics. Some embodiments include a circuit that allows patient information to be analyzed by an external computing device and/or the monitoring device to determine whether the patient's breathing has declined indicating a medical problem. Optionally, the monitoring device may include a display for displaying whether the airflow measurement indicates a good outcome, a potential concern, or a serious condition | 02-28-2013 |
20140054374 | Health Data Collection Tool - A portable health data tool permits a health care provider to assimilate and display a plurality of health care data from a patient and to associate the data with patient identifying information all stored in a memory contained in the tool. The tool includes a code reader for reading patient information into the tool from a bar code or other coded tag. The tool is associated with a plurality of different data assimilation devices stored with the tool's housing, including but not limited to, instruments for measuring, temperature, blood pressure, two-finger or lead wire ECG data, pulse oximetry data, sound data and picture data obtained from an optional digital camera integrated within the housing. The tool further includes data receiver and/or transmitter ports, which may be wireless or cable ports, for transferring data between the health data tool and a separate computer system that stores patient records. | 02-27-2014 |
20140378785 | SYSTEM AND METHOD FOR PATIENT MONITORING - Systems and methods of monitoring a patient. Exemplary methods include receiving sensor data associated with the patient from a plurality of sensors of a patient monitoring device and determining whether the sensor data satisfies one or more trigger conditions. For each of the trigger conditions satisfied, one or more messages are sent to at least one of the patient monitoring device and an external computing device for display thereby to at least one of the patient, a caregiver, and a support person. Satisfaction of one or more of the trigger conditions may indicate the patient has edema and/or is trending toward decompensation. The sensor data may have been collected from a heart rate sensor, an oximeter, an accelerometer, and/or a sensor configured to detect a distance around a limb of a patient. In some embodiments, the trigger conditions are provided by the patient, caregiver, and/or support person. | 12-25-2014 |