Abstract: A system, a method, and a computer program product for vascular access management: obtain vascular access management (VAM) data associated with a vascular access treatment associated with a patient; determine an insight associated with the vascular access treatment associated with the patient; and provide the insight associated with the vascular access treatment.

Abstract: A sensor assembly may include an image capture device configured to capture one or more images; a user feedback device configured to provide an audible and/or visual output to a user; a mechanical connector configured to connect the sensor assembly to a lumen and/or a syringe configured to be connected to the lumen; and a processor coupled to a memory and configured to: obtain the one or more the images captured by the image capture device; determine, based on the one or more images, information associated with a medication delivery for a patient; and control, based on the information, the user feedback device to provide the audible and/or visual output to the user.

Abstract: A system may include an intravenous (IV) catheter comprising a first portion configured to be inserted into a vein of a patient and a second portion configured to remain outside a patient when the first portion is inserted into the patient. The IV catheter may include a pressure sensor configured to detect a pressure of a fluid associated with the IV catheter. A method may include receiving data associated with the pressure of the fluid associated with the IV catheter, and determining whether the IV catheter is inserted into the vein of the patient based on the pressure of the fluid associated with the IV catheter.

Abstract: A sensor deployment system for a vascular access device includes: a primary lumen; a deployment connector configured to be connected to at least one of a luer connector; a needle-free connector; a catheter adapter, with the deployment connector attached to the primary lumen, an instrument with a sensor at least partially received within the primary lumen, with the instrument having a retracted position where a distal end of the instrument is positioned within the primary lumen or the deployment connector and an extended position where the distal end of the instrument extends beyond a distal end of the primary lumen and the deployment connector, and a communication device configured to transmit data from the sensor.

Abstract: A method of preventing infections in vascular access devices in which an acoustic wave generator is attached to the vascular access catheter, and the acoustic wave generator is activated to produce acoustic waves, which are transmitted to the vascular access catheter to create mechanical vibrations in the vascular access catheter. The acoustic waves may be ultrasound waves. The acoustic wave generator may be attached to a catheter tube of the vascular access catheter or attached to a hub of the vascular access catheter. The acoustic wave generator a separate device that is removably clipped to the vascular access catheter, may be provided in a vascular access catheter stabilization device or may be integral with the vascular access catheter.

Abstract: A signal measured by a sensor connected to a needleless connector including a fluid flow path may be obtained to determine, based on the signal, an event associated with the needleless connector, such as at least one of: a scrubbing event in which the needleless connector is scrubbed with a disinfectant, a flushing event in which the needleless connector is flushed with a solution, a connection event in which the needleless connector is connected to a medical device, a disconnection event in which the needleless connector is disconnected from the medical device, or any combination thereof. An indication of the determined event may be provided.

Abstract: A sensor assembly may include a sensor surrounding a connector of a medical device. The sensor may be configured to detect a dimension of an end of another connector of another medical device when the another connector of the another medical device is connected to the connector of the medical device. A system may include the sensor assembly and one or more processors programmed and/or configured to determine a type of the another medical device based on the detected dimension. A method may include detecting, with a sensor surrounding a connector of a medical device, a dimension of an end of another connector of another medical device when the another connector of the another medical device is connected to the connector of the medical device; and determining a type of the another medical device based on the detected dimension.

Abstract: A drug transfer device includes a syringe interface configured to receive a plurality of syringe barrel sizes, a drive member movable relative to the syringe interface, with the drive member configured to move a stopper within a syringe barrel when a syringe barrel is engaged with the syringe interface, a motor configured to move the drive member, a position sensor configured to measure a position of the drive member, a wireless communication device configured to send and receive information, an information reader configured to receive information from an information target, and at least one processor in communication with the motor, the position sensor, the wireless communication device, and the information reader.

Abstract: Patient monitoring systems can include a system for transmitting information from a patient parameter sensor to a patient monitor. The system can include an analog-to-digital converter close to the patient parameter sensor and can transmit digital signals through a cable to the patient monitor.

Abstract: A method for monitoring the respiration rate of a patient includes attaching a plurality of electrocardiogram (ECG) electrodes and a pressure sensor to a patient, producing a first respiration signal based on variations detected in signals provided by the ECG electrodes attached to the patient, and producing a second respiration signal based on pressure variations detected in the pressure sensor secured to the patient. The method also includes selecting at least one of the first respiration signal and the second respiration signal based on respective signal qualities and producing a respiration rate from the selected signal. The method also includes providing indicia of the respiration rate. The method may also include displaying ECG signals with the indicia of the respiration rate.

Abstract: A method for monitoring the respiration rate of a patient includes attaching a plurality of electrocardiogram (ECG) electrodes and a pressure sensor to a patient, producing a first respiration signal based on variations detected in signals provided by the ECG electrodes attached to the patient, and producing a second respiration signal based on pressure variations detected in the pressure sensor secured to the patient. The method also includes selecting at least one of the first respiration signal and the second respiration signal based on respective signal qualities and producing a respiration rate from the selected signal. The method also includes providing indicia of the respiration rate. The method may also include displaying ECG signals with the indicia of the respiration rate.

Abstract: Patient monitoring systems can include a system for transmitting information from a patient parameter sensor to a patient monitor. The system can include an analogue-to-digital converter close to the patient parameter sensor and can transmit digital signals through a cable to the patient monitor.

Abstract: A method for monitoring the respiration rate of a patient includes attaching a plurality of electrocardiogram (ECG) electrodes and a pressure sensor to a patient, producing a first respiration signal based on variations detected in signals provided by the ECG electrodes attached to the patient, and producing a second respiration signal based on pressure variations detected in the pressure sensor secured to the patient. The method also includes selecting at least one of the first respiration signal and the second respiration signal based on respective signal qualities and producing a respiration rate from the selected signal. The method also includes providing indicia of the respiration rate. The method may also include displaying ECG signals with the indicia of the respiration rate.

Abstract: Patient monitoring systems can include a system for transmitting information from a patient parameter sensor to a patient monitor. The system can include an analog-to-digital converter close to the patient parameter sensor and can transmit digital signals through a cable to the patient monitor.

Abstract: A patient monitor is synchronized with a portable sensor module by detecting a first coupling of the portable sensor module to the patient monitor. In response to the first coupling, the portable sensor module and the patient monitor each store configuration settings and record patient data acquired through the portable sensor module. After the portable sensor module is decoupled from the patient monitor, the portable sensor module continues to store patient data and the configuration settings stored in the patient monitor and the portable sensor module are allowed to change relative to one another. Upon detecting a second coupling of the portable sensor module to the patient monitor, the portable sensor module and the patient monitor resynchronize with one another to remove any differences in the configuration settings and to provide copies of any patient data missing from either the portable sensor module and the patient monitor.

Abstract: A method for monitoring the respiration rate of a patient includes attaching a plurality of electrocardiogram (ECG) electrodes and a pressure sensor to a patient, producing a first respiration signal based on variations detected in signals provided by the ECG electrodes attached to the patient, and producing a second respiration signal based on pressure variations detected in the pressure sensor secured to the patient. The method also includes selecting at least one of the first respiration signal and the second respiration signal based on respective signal qualities and producing a respiration rate from the selected signal. The method also includes providing indicia of the respiration rate. The method may also include displaying ECG signals with the indicia of the respiration rate.

Abstract: A patient monitoring system includes a patient monitor and a plurality of docking stations. Each docking station is associated with a set of patient monitor configurations. Interfacing the patient monitor with a particular docking station allows a user to select one or more of the set of patient monitor configurations associated with the particular docking station for use in the patient monitor.

Abstract: A method for monitoring the respiration rate of a patient includes attaching a plurality of electrocardiogram (ECG) electrodes and a pressure sensor to a patient, producing a first respiration signal based on variations detected in signals provided by the ECG electrodes attached to the patient, and producing a second respiration signal based on pressure variations detected in the pressure sensor secured to the patient. The method also includes selecting at least one of the first respiration signal and the second respiration signal based on respective signal qualities and producing a respiration rate from the selected signal. The method also includes providing indicia of the respiration rate. The method may also include displaying ECG signals with the indicia of the respiration rate.

Abstract: Medical devices to be located on a network include a unique identifier, which may be transmitted to a server over the network. The network may have a plurality of network connection points. The server may include a location subsystem configured to store a location of each of the plurality of network connection points. The server may also include a device tracking subsystem configured to store a last known device location based on the unique device identifier. The last known location of the medical device may be updated when the medical device is connected to the network based on the location of the one of the plurality of network connection points used to transmit the unique device identifier.

Abstract: A patient monitoring system includes a patient monitor and a plurality of docking stations. Each docking station is associated with a set of patient monitor configurations. Interfacing the patient monitor with a particular docking station allows a user to select one or more of the set of patient monitor configurations associated with the particular docking station for use in the patient monitor.