Abstract: An infusion pump configured to automatically determine whether to receive an update comprises a battery, a processor, communication engine, a memory, and a clock. The processor is configured to receive power from the battery. The communication is in communication with the processor and configured to communicate with a remote location. The memory is in communication with the processor and stores instructions. When executed by the processor, the instructions configure the processor to wake the processor from an off state, determine that the infusion pump is receiving electrical power from the battery, and determine whether the battery contains sufficient energy to complete an update to the infusion pump. In response to determining that the battery contains sufficient energy, the instructions further configure the processor to wake the communication engine from an off to determine whether the update is available to be acquired from the remote location.

Abstract: Disclosed in some embodiments is an electronic intravenous infusion pump provided with a disposable, insertable pump cartridge that is connectable to one or more intravenous fluid infusion sources, wherein the pump is coupled to a first fluid reservoir and a second fluid reservoir, wherein fluid is selectively drawn from the first fluid reservoir and the second fluid reservoir to provide substantially continuous infusion of substantially the same medical fluid to a patient.

Abstract: Disclosed are embodiments of electronic intravenous infusion pumps. In some embodiments, a medical infusion pump system can include a plurality of processors that are operationally isolated from each other. Some pump systems can include a modular electromechanical pump driver comprising a plurality of components that can be removed as a unit from within the pump housing without removing the components from each other. Some pump systems can include a handle formed as a unitary structure, the handle not including any portion of the boundary between panels of the pump housing. Some pump systems can include a memory within the pump housing that is configured to contain information about one or more pumping parameters for execution by at least two of the pump drivers. Some pump systems can include a connector configured to separately receive and secure each one of a plurality of different-sized IV pole stands.

Abstract: Disclosed in some embodiments is an electronic intravenous infusion pump provided with a disposable, insertable pump cartridge that is connectable to one or more intravenous fluid infusion sources, wherein a user interface on a touch display screen interacts with and responds to the user's insertion of the cassette, and/or wherein the pump is enabled to program a course of infusion for a patient based upon information obtained from the inserted cassette and/or the one or more fluid infusion sources connected to the cassette.

Abstract: A method and pump that accurately senses air in a fluid delivery line pulses or activates and deactivates the air sensor(s) multiple times during the pumping phase of the fluid delivery cycle and can generate alarms based upon a single indication or a cumulative indication of air in the line. The pump can include multiple air sensors spaced along the delivery line so that the method can use the multiple signals therefrom to distinguish real moving air bubbles from false positives and/or air bubbles adhered to the inner wall of the line.

Abstract: A medical pump with a closed loop stroke feedback system and method, for use with a pumping chamber, for example in a cassette, is disclosed. The pump includes a pumping element that intermittently pressurizes a pumping chamber during a pumping cycle. A pressure sensor detects the pressure exerted by the pumping element on the pumping chamber. A position sensor detects the position of the pumping element. A processing unit processes pressure data from the pressure sensor and position data from the position sensor to determine a calculated stroke volume of the pump for a pump cycle, and to adjust a stroke frequency of the pump to compensate for variation in the stroke volume.

Abstract: A method and pump that accurately senses air in a fluid delivery line pulses or activates and deactivates the air sensor(s) multiple times during the pumping phase of the fluid delivery cycle and can generate alarms based upon a single indication or a cumulative indication of air in the line. The pump can include multiple air sensors spaced along the delivery line so that the method can use the multiple signals therefrom to distinguish real moving air bubbles from false positives and/or air bubbles adhered to the inner wall of the line.

Abstract: A method and pump that accurately senses air in a fluid delivery line pulses or activates and deactivates the air sensor(s) multiple times during the pumping phase of the fluid delivery cycle and can generate alarms based upon a single indication or a cumulative indication of air in the line. The pump can include multiple air sensors spaced along the delivery line so that the method can use the multiple signals therefrom to distinguish real moving air bubbles from false positives and/or air bubbles adhered to the inner wall of the line.

Abstract: A medical pump with an improved continuity low flow delivery system and method for use with a pumping chamber, for example in a cassette, is disclosed. The pump includes a pump drive for exerting a force on the pumping chamber and a sensor for sensing the force/pressure exerted by the pump drive on the pumping chamber. The pump drive position sensor senses the position of the pump drive. The medical pump also includes a processing unit and a memory having a programming code adapted to calculate the rate of change of the sensed force/pressure values and determine whether the rate of change of the sensed force/pressure values meets a rate of change threshold. Once the rate of change threshold is met, the programming code is adapted to calculate a remaining pump drive travel value for determining how much farther the pump drive should travel before the end of an effective pump cycle.

Abstract: A method and pump that accurately senses air in a fluid delivery line pulses or activates and deactivates the air sensor(s) multiple times during the pumping phase of the fluid delivery cycle and can generate alarms based upon a single indication or a cumulative indication of air in the line. The pump can include multiple air sensors spaced along the delivery line so that the method can use the multiple signals therefrom to distinguish real moving air bubbles from false positives and/or air bubbles adhered to the inner wall of the line.

Abstract: A disposable cartridge for measuring the physical properties of blood is disclosed. A waste compartment supports a platform having first and second syringe fittings. First and second syringes containing blood samples to be measured are positioned within the fittings. At least one testing station is located on the platform for subjecting blood flowing from one of the syringes to a test station, and the testing station is connected at a second end to the waste compartment. Tests on blood running through each of the blood channels may be conducted by inducing various platelet activation conditions, such as piercing a channel, or putting a platelet activating substance within a test channel. The cartridge interfaces with a test stand which will measure pressure changes within each of the test channels.