A device and method for holding coils of medical tubing is provided to simplify packaging and organizing the various coils of medical tubing needed for a medical device. This will make it easier for the patient to manipulate each coil of tubing, particularly in a home setting involving a home dialysis machine operated by the patient. The tube holding device advantageously reduces the probability of entanglement and groups the coils of tubing individually. It also mitigates and/or eliminates the need for tape to bundle the coils. Specifically, benefits of the tube holding device according to the system described herein include: reduced cost; ease-of-use; prevention of entanglement of coils of tubing; ease of packaging and shipping; and does not require packaging tape to bundle tubing.

A wearable infusion pump assembly. The wearable infusion pump assembly includes a reservoir for receiving an infusible fluid and a fluid delivery system configured to deliver the infusible fluid from the reservoir to an external infusion set. The fluid delivery system includes a controller, a pump assembly for extracting a quantity of infusible fluid from the reservoir and providing the quantity of infusible fluid to the external infusion set, the pump assembly comprising a pump plunger, the pump plunger having distance of travel, the distance of travel having a starting position and an ending position, at least one optical sensor assembly for sensing the starting position and ending position of the pump plunger distance of travel and sending sensor output to the controller, and a first valve assembly configured to selectively isolate the pump assembly from the reservoir, wherein the controller receives the sensor output and determines the total displacement of the pump plunger.

Various exemplary pumps with orientation independent liquid drug accessibility are provided. In general, a pump includes a reservoir configured to contain a liquid drug therein, a conduit configured to receive the drug therein from the reservoir, and a needle in fluid communication with the conduit and configured to deliver the drug therethrough to a patient wearing the pump. The conduit includes a mechanism configured to ensure that the conduit is in complete communication with the drug in the reservoir at least when the conduit is receiving the drug therein from the reservoir regardless of the patients orientation. In one exemplary embodiment, the mechanism includes a weight attached to the conduit. In another exemplary embodiment, the mechanism includes a fork at a free end of the conduit that is located in the reservoir.

Various exemplary pumps with orientation independent liquid drug accessibility are provided. In general, a pump includes a reservoir configured to contain a liquid drug therein, a conduit configured to receive the drug therein from the reservoir, and a needle in fluid communication with the conduit and configured to deliver the drug therethrough to a patient wearing the pump. The conduit includes a mechanism configured to ensure that the conduit is in complete communication with the drug in the reservoir at least when the conduit is receiving the drug therein from the reservoir regardless of the patients orientation. In one exemplary embodiment, the mechanism includes a weight attached to the conduit. In another exemplary embodiment, the mechanism includes a fork at a free end of the conduit that is located in the reservoir.

A system for providing the collection of advanced, improved, and novel new components and elements in a single package to simplify assembly and use of the infusion set by the user, including one or more of an exemplary pushbutton-type inserter, squeeze-type inserter, contact-type inserter, skin pinching-type inserter, folding retraction-type inserter, and/or multistage-type inserter (700) having at least one reusable stage, an exemplary set (350) having an adhesion means with two or more user-selectable degrees of adhesion strength, a self-sealing tube connection means, a lens feature to view a site beneath the set, exemplary tube management and connection elements (450), insulin supply (475), adhesion concealment means (500), finger loops on the inserter and site preparation wipes or sprays (550) which can be provided as part of the inserter. The system can further include an exemplary package (12) which can hold a number of sets that can be easily released and retrieved from the tray by an inserter, an exemplary insertion needle handle and shroud, an exemplary squeeze-type latch between an upper portion and a lower portion of the set, and/or a tool removable upper portion of the set.

A system for providing the collection of advanced, improved, and novel new components and elements in a single package to simplify assembly and use of the infusion set by the user, including one or more of an exemplary pushbutton-type inserter, squeeze-type inserter, contact-type inserter, skin pinching-type inserter, folding retraction-type inserter, and/or multistage-type inserter (700) having at least one reusable stage, an exemplary set (350) having an adhesion means with two or more user-selectable degrees of adhesion strength, a self-sealing tube connection means, a lens feature to view a site beneath the set, exemplary tube management and connection elements (450), insulin supply (475), adhesion concealment means (500), finger loops on the inserter and site preparation wipes or sprays (550) which can be provided as part of the inserter. The system can further include an exemplary package (12) which can hold a number of sets that can be easily released and retrieved from the tray by an inserter, an exemplary insertion needle handle and shroud, an exemplary squeeze-type latch between an upper portion and a lower portion of the set, and/or a tool removable upper portion of the set.

A method for improved controlling of a thermic infusion system having a one tubal segment and a thermal element to heat an infusion fluid carried within the tubal segment, and having at least one sensor positioned within the thermic infusion system comprising regulating energy provided to the sensor for a first period of time to sense a self-heating effect of the at least one sensor due to a dry tube; responsive to detecting a dry tube, preventing energizing the thermal element; responsive to detecting a non-dry tube, regulating energy provided to the sensor for a second period of time to sense a temperature of an infusion fluid carried within the at least one tubal segment.

A method for improved controlling of a thermic infusion system having a one tubal segment and a thermal element to heat an infusion fluid carried within the tubal segment, and having at least one sensor positioned within the thermic infusion system comprising regulating energy provided to the sensor for a first period of time to sense a self-heating effect of the at least one sensor due to a dry tube; responsive to detecting a dry tube, preventing energizing the thermal element; responsive to detecting a non-dry tube, regulating energy provided to the sensor for a second period of time to sense a temperature of an infusion fluid carried within the at least one tubal segment.

An apparatus including tubing sets, a modular constraint assembly, and methods of use are described for deliver a therapeutic medication to a patient, the apparatus can have a controller and a sensor. The controller is configured to receive data from the sensor, and to start and stop delivery of the therapeutic medication to the patient in response to data received from the sensor. In addition, apparatus, systems and methods are disclosed, which are configured to deliver a therapeutic medication to a patient. The apparatus, system and methods use a reservoir, a patient interface, a tubing set, a modular constraint assembly connected to the tubing sets, and a fluid pump, and the components are configured to provide a calibrated flow rate based upon specific characteristics of the therapeutic medications passing through and internal lumen of the tubing set.

An apparatus including tubing sets, a modular constraint assembly, and methods of use are described for deliver a therapeutic medication to a patient, the apparatus can have a controller and a sensor. The controller is configured to receive data from the sensor, and to start and stop delivery of the therapeutic medication to the patient in response to data received from the sensor. In addition, apparatus, systems and methods are disclosed, which are configured to deliver a therapeutic medication to a patient. The apparatus, system and methods use a reservoir, a patient interface, a tubing set, a modular constraint assembly connected to the tubing sets, and a fluid pump, and the components are configured to provide a calibrated flow rate based upon specific characteristics of the therapeutic medications passing through and internal lumen of the tubing set.