Abstract: An enteral feeding pump for mounting a pump set for enteral delivery of fluid through the pump set to a subject including a housing capable of receiving at least a portion of a pump set. A pumping device contacts the pump set when the pump set is received by the housing so the pumping device acts on the pump set to produce fluid flow in the pump set for enteral delivery of fluid to a subject. A sensor is connected to the housing for sensing acceleration of at least a portion of the housing caused by an impact to the housing and producing a signal in response to the sensed acceleration. A control circuit in the housing is programmed to perform an operation after the sensor produces a predetermined sequence of signals.

Abstract: Systems, methods, and computer-readable media for providing a decision support solution to medical professionals to optimize medical care through data monitoring and feedback treatment are provided herein. In another embodiment, a computer-implemented method for modeling patient outcomes resulting from treatment in a specific medical area includes receiving patient-specific data associated with a patient, determining a plurality of possible patient states under which the patient can be categorized, a current patient state under which the patient can be categorized and determining probabilities of the patient transitioning from any of the possible patient states to every other possible patient state.

Abstract: A method of milk extraction system may include massaging a posterior of a breast. Massaging and collecting milk may optionally be performed simultaneously. A posterior massager may also be used and/or mounted separately from a collection unit. In some embodiments the massager may be used to improve milk collection and/or alleviate breast ailments for example engorgement, plugged ducts, and/or mastitis. A collection flange may include an air inlet manifold, to mix air and milk. Optionally as air is drawn along a tube by a vacuum, milk may be entrained in the airstream and brought towards a collection vessel. The system may include automated tracking of milk production and/or consumption.

Abstract: An apparatus comprises one or more physiological sensing circuits that generate a sensed physiological signal and at least one of the physiological sensing circuits is implantable, a measurement circuit configured to recurrently measure one or more physiological parameters that indicate a status of heart failure of the subject, a comparison circuit configured to compare the one or more physiological parameter measurements to one or more physiological parameter target values, a therapy circuit configured to control delivery of one or more drugs to treat heart failure, and a control circuit in electrical communication with the comparison circuit and the therapy circuit and configured to recurrently adjust delivery of drug therapy according to the comparison of the measured physiological parameters to the physiological parameter targets.

Abstract: Systems and methods are provided for updating medical devices. An exemplary system includes a medical device and a remote device. The medical device is operable to regulate a condition of a user. The remote device receives measurement data correlative to the condition of the user, determines control information for the medical device based at least in part on the measurement data, and transmits the control information via a first peer-to-peer communication session. The medical device receives the control information via a second peer-to-peer communication session and thereafter regulates the condition of the user based at least in part on the control information and subsequent measurement data.

Abstract: An integrated diabetes management (IDM) system includes a safety layer which, in one configuration has two components, one located between a glucose sensor and a controller and a second component located between a controller and a pump, to monitor various aspects of signals and modify those signals for compatibility and safety purposes. In one application, the safety layer receives output control signals from a controller and modifies those control signals as a function of an actual amount of insulin delivered to the user. The safety layer allows for an increased level of safety in the IDM system and permits development of separate hardware and software upgrades with the safety layer assuring that compatibility between components will continue.

Abstract: Method and apparatus including calling, retrieving and/or initiating a programmed function in conjunction with execution of one or more commands related to a closed loop control algorithm, receiving one or more data in response to the one or more commands over a data interface, and executing the one or more commands related to the closed loop control algorithm based on the received one or more data are provided.

Abstract: A therapeutic treatment device, system and method for improving administration of a temperature sensitive drug into a tissue on the body of a patient at a drug injection site are disclosed. The device includes a treatment element with a controllable heating element in temperature communicative contact with the tissue adjacent to the drug injection site. The controllable heating element is configured to heat the tissue adjacent to the drug injection site to a controllable temperature but does not heat the injected drug above a predetermined limiting temperature, above which degradation of the injected drug may occur.

Abstract: An apparatus and computerized method of intravenously monitoring a patient's blood chemistry transmits real time measurements to an electronically controlled closed loop system that auto-regulates blood osmolality and glucose level with medications infused through a catheter designed for such purpose. The closed loop system utilizes a glucose algorithm and an osmolality algorithm implemented in hardware and software to control the flow of dextrose, insulin and hypertonic saline to a patient in an effort to achieve better patient outcomes in instances of trauma, surgery and medical illnesses.

Abstract: A system and method for providing balanced, automated regulation of a patient's physiological condition by monitoring at least one physiological parameter and, optionally, monitoring and controlling additional physiological parameters, is disclosed. The system includes a physiological parameter monitor, an intelligent control device and a multi-channel delivery device for providing controlled intravenous delivery of at least two medications that affect the physiological condition being controlled. Control logic in the intelligent control device is derived by an algorithm based on model predictive control. The control logic includes mathematically modeled systems, empirical data systems or a combination thereof. The system of the present invention is optionally included in a networked system to provide centralized data storage and archival of system information as well as data export and query capabilities that can be used for patient file management, health care facility management and medical research.

Abstract: A system for at least partial closed-loop control of a medical condition is disclosed. The system includes at least one medical fluid pump. The medical fluid pump including a sensor for determining the volume of fluid pumped by the pump. Also, at least one continuous analyte monitor, and a controller. The controller is in communication with the medical fluid pump and the at least one continuous analyte monitor. The controller includes a processor. The processor includes instructions for delivery of medical fluid based at least on data received from the at least one continuous analyte monitor.

Abstract: The invention relates to an appliance for performing anaesthesia or analgosedation, comprising a dosing device (5) for the intravenous administration of an adjustable dose of at least one anaesthetic to a patient (1), a measuring device (2) for determining the concentration of the at least one anaesthetic in the exhaled air of the patient (1), means (4) for determining the effect of the at least one anaesthetic on the patient (1), preferably in the form of a depth of anaesthesia or depth of analgosedation, and a data processing device (7), which communicates via interfaces with the dosing device (5), the measuring device (2) and the means (4) for determining the effect and which, on the basis of the determined values of the parameters dosage, concentration and effect of the at least one anaesthetic, establishes a pharmacological model individualized to the patient (1) and, using the individualized pharmacological model that is established, calculates an individual dosage, optimized to the patient (1), of the

Abstract: A medical device, such as an infusion pump, obtains a contextual awareness of its operation by communicating with centralized patient records and or other medical equipment communicating with a common patient, and/or provides real time advisory information, at care point or remotely. A protocol obtained by the medical device from a protocol server provides context-aware protocols and necessary predicate information for those protocols. This predicate information may be discovered by the medical device communicating with electronic medical records and the associated medical equipment.

Abstract: A method includes receiving measurements from a sensor associated with a patient at a portable medication delivery device. The method also includes controlling delivery of medication to the patient at the portable medication delivery device using a single input, single output (SISO) model predictive control technique. The SISO model predictive control technique includes predicting a characteristic of the patient using the measurements and a model associated with the patient. The SISO model predictive control technique also includes determining whether the characteristic of the patient is predicted to fall outside of a desired range. In addition, the SISO model predictive control technique includes, if the characteristic of the patient is predicted to fall outside of the desired range, determining an amount of medication to deliver to the patient and delivering the determined amount of medication to the patient.

Abstract: An arrangement for extracorporeal life support is further developed in such a way that a pump actuating signal produces a wave-like surging and subsiding pump output for a pulsatile flow. The pump is preferably a non-occlusive blood pump, such as a diagonal pump, for example. In a preferred variant of embodiment the control signal is provided by an ECG. This allows the diastolic pressure to be increased in order to improve the oxygen balance of the heart muscle.

Abstract: Subject matter disclosed herein relates to monitoring and/or controlling levels of an analyte in bodily fluid. In particular, estimation of a concentration of the analyte in a first physiological compartment based upon observations of a concentration of the analyte in a second physiological compartment may account for a latency in transporting the analyte between the first and second physiological compartments.

Abstract: Systems and methods for integrating a continuous glucose sensor, including a receiver, a medicament delivery device, a controller module, and optionally a single point glucose monitor are provided. Integration may be manual, semi-automated and/or fully automated.

Abstract: A system and method for providing closed loop infusion formulation delivery which accurately calculates a delivery amount based on a sensed biological state by adjusting an algorithm's programmable control parameters. The algorithm calculates a delivery amount having proportional, derivative, and basal rate components. The control parameters may be adjusted in real time to compensate for changes in a sensed biological state that may result from daily events. Safety limits on the delivery amount may be included in the algorithm. The algorithm may be executed by a computing element within a process controller for controlling closed loop infusion formulation delivery. The biological state is sensed by a sensing device which provides a signal to the controller. The controller calculates an infusion formulation delivery amount based on the signal and sends commands to an infusion formulation delivery device which delivers an amount of infusion formulation determined by the commands.

Abstract: Provided is a medical device including a plurality of storage units each configured to store a different medicine, and a medicine discharge unit configured to selectively discharge at least one of a first medicine and a second medicine, each of which is stored in the plurality of storage units, when the medical device reaches a periphery of a predetermined site of an intracorporeal site of a subject.

Abstract: A typical power switch in a Buck Regulator requires a pre-driver to ensure rapid transition from its ON to OFF states. In this invention, the shoot through current in the pre-driver and the power switch's gate-charge in a Buck regulator is itself recaptured in the capacitor of the buck regulator. The recapturing of this otherwise wasted shoot-through current and gate charge allows for increased efficiency of the regulator. The recapture may be selectively disabled to accommodate high power operations of the system, if such are used; the recapture may in an alternative mode be always performed. As a result, reduced power consumption can be achieved.

Abstract: A medical device system. The system includes a first medical device, a first remote interface, and a second remote interface in communication with the first remote interface and the first medical device, wherein the first medical device sends a command to the first medical device through the second remote interface, and wherein when the second remote interface receives the command, the command must be confirmed by the second remote interface before the command is send by the second remote interface to the first medical device.

Abstract: Various embodiments are described herein for a device and method for an ingestible medical device with a rotatable element. In some described embodiments, the ingestible medical device includes a storage sub-unit with multiple chambers each having an opening for collecting or dispensing substances from the GI tract. The device further comprises a chamber enclosure with an access port. One of the chamber enclosure and the storage sub-unit are rotatable to allow for aligning the access port with a chamber opening. The ingestible medical device includes a sensor for positioning the access port of the chamber enclosure or the storage sub-unit as one of these elements rotates.

Abstract: A device, a system, or a method is described for treating a disease or a condition of one or more joints of articulating bone in a mammalian subject. The device provides one or more medicaments to one or more joints of the mammalian subject. A device is described that includes one or more substrates configured to contact one or more body contours in proximity to one or more joints of articulating bone of a mammalian subject; one or more sensors configured to monitor movement of the one or more body contours; and one or more applicators supported by the one or more substrates and configured to respond to the movement of the one or more body contours by injecting one or more medicaments to the one or more joint tissues of the mammalian subject.

Abstract: Systems and methods for integrating a continuous glucose sensor, including a receiver, a medicament delivery device, and optionally a single point glucose monitor are provided. Manual integrations provide for a physical association between the devices wherein a user (for example, patient or doctor) manually selects the amount, type, and/or time of delivery. Semi-automated integration of the devices includes integrations wherein an operable connection between the integrated components aids the user (for example, patient or doctor) in selecting, inputting, calculating, or validating the amount, type, or time of medicament delivery of glucose values, for example, by transmitting data to another component and thereby reducing the amount of user input required. Automated integration between the devices includes integrations wherein an operable connection between the integrated components provides for full control of the system without required user interaction.

Abstract: A needle-free transdermal transport device for transferring a substance across a surface of a biological body includes a reservoir for storing the substance, a nozzle in fluid communication with the reservoir and a controllable electromagnetic actuator in communication with the reservoir. The actuator, referred to as a Lorentz force actuator, includes a stationary magnet assembly and a moving coil assembly. The coil assembly moves a piston having an end portion positioned within the reservoir. The actuator receives an electrical input and generates in response a corresponding force acting on the piston and causing a needle-free transfer of the substance between the reservoir and the biological body. The magnitude, direction and duration of the force are dynamically controlled (e.g., servo-controlled) by the electrical input and can be altered during the course of an actuation cycle. Beneficially, the actuator can be moved in different directions according to the electrical input.

Abstract: Systems and methods for integrating a continuous glucose sensor, including a receiver, a medicament delivery device, and optionally a single point glucose monitor are provided. Manual integrations provide for a physical association between the devices wherein a user (for example, patient or doctor) manually selects the amount, type, and/or time of delivery. Semi-automated integration of the devices includes integrations wherein an operable connection between the integrated components aids the user (for example, patient or doctor) in selecting, inputting, calculating, or validating the amount, type, or time of medicament delivery of glucose values, for example, by transmitting data to another component and thereby reducing the amount of user input required. Automated integration between the devices includes integrations wherein an operable connection between the integrated components provides for full control of the system without required user interaction.

Abstract: A catheter assembly may be provided with a catheter body and an inflatable balloon. The catheter body has a proximal end, a distal end and a balloon inflation lumen. The inflatable balloon is attachable to the distal end of the catheter body. The balloon has an inner surface that at least partially defines an interior volume. The balloon is configured such that the interior volume can be in fluid communication with the inflation lumen of the catheter body to inflate the balloon. The balloon also has a proximal surface and a distal surface. The balloon is provided with a channel that extends through the balloon. The channel is configured to provide fluid communication between the proximal surface of the balloon and the distal surface of the balloon. Other catheter assemblies and methods of use are also disclosed.

Abstract: A personal medical console is connectable to a plurality of different sensor devices and different effector devices and configured to monitor operation of one or more sensor devices and control operation of one or more effector devices. The sensor devices sense physiological characteristics. The medical console is configured to receive sensor data from sensor devices and output control data defining one or more actions for controlling the one or more of the effector devices. An analysis engine in the medical console is configured to process the sensor data received from the one or more sensor devices and output control data in response to the sensor data by determining a divergence of the sensor data to a target health state, and generating the control data for the one or more effector devices responsive to the divergence.

Abstract: Techniques and devices are described for allowing a diabetes patient to safely disconnect an insulin infusion system device for a time period. In one aspect, the techniques and devices can be implemented by receiving a maximum glucose amount, a minimum glucose amount, and a contemplated disconnection time; receiving a current glucose amount of the user; determining an expected increase in glucose of the user based on the contemplated disconnection time, an insulin sensitivity of the user and a contemplated basal insulin dose; validating the contemplated disconnection time based on at least one of the expected increase in glucose, the maximum glucose amount, and the minimum glucose amount; and, administering a therapeutic action to the user based on the validation of the contemplated disconnection time.

Abstract: A device (1) for the medical care of a patient in an emergency which comprises an item of clothing (2) which may be worn by the patient on the body and monitoring devices (8, 9) arranged on the item of clothing (2), which may monitor at least one physiological function of the patient, in order to detect an emergency. The device further comprises a cardiac compression device (3, 4) arranged on the item of clothing (2), which is operatively connected to the monitoring device (8, 9), in order to treat the patient with a cardiac resuscitation when the monitoring device (3, 4) determines an emergency, and a defibrillator (5, 6, 7) as well as the intraosseous delivery of drugs into the bone marrow cavity of the breast bone. Moreover, a device (1) for the medical care of a patient in an emergency, which comprises as a therapeutic device a respiratory therapeutic device (10, 11, 12, 13) which is able to supply oxygen and/or a drug for pulmonary resuscitation into the respiratory system of the patient.

Abstract: A medical remote controller device is disclosed. The device includes a display and at least one input switch dedicated to bolus delivery wherein a bolus delivery is programmed when the input switch receives an input and wherein the number of inputs received by the input switch determines the amount of bolus to be delivered.

Abstract: A device, a system, or a method is described for treating a disease or a condition of one or more joints of articulating bone in a mammalian subject. The device provides one or more medicaments to one or more joints of the mammalian subject. A device is described that includes one or more substrates configured to contact one or more body contours in proximity to one or more joints of articulating bone of a mammalian subject; one or more sensors configured to monitor movement of the one or more body contours; and one or more applicators supported by the one or more substrates and configured to respond to the movement of the one or more body contours by injecting one or more medicaments to the one or more joint tissues of the mammalian subject.

Abstract: Systems, methods and/or devices for treating diabetes mellitus by alleviating glucotoxicity and restoring pancreatic beta-cell function, comprising at least a first memory for storing data inputs corresponding at least to one or more components in a patient's present insulin dosage regimen, and data inputs corresponding at least to the patient's blood-glucose-level measurements determined at a plurality of times, and a processor operatively connected to the at least first memory. The processor is programmed at least to determine from the data inputs corresponding to the patient's blood-glucose-level measurements determined at a plurality of times whether and by how much to vary at least one of the components of the patient's present insulin dosage regimen.

Abstract: A system and methods are described for improving the management of ischemic cardiac tissue during acute coronary syndromes or other ischemic conditions. A method and apparatus is described that allows mitigation of oxygen-related injury by precisely modulating the level of oxygen re-exposure during reoxygenation by a controlled feedback loop based on parameters of the tissue measured by a real-time tissue sensor or probe.

Abstract: Control of conduction through a heart is described. A lead with a proximal end and a distal end is provided. The distal end of the lead is inserted into a target area. An agent is delivered through the lead to the target area. Delivery of the agent is monitored via a closed loop feedback system.

Abstract: A device, a system, or a method is described for treating a disease or condition of one or more joints of articulating bone in a mammalian subject. A device is described which includes one or more substrates configured to contact one or more body contours at one or more joints of articulating bone of a mammalian subject; and an applicator supported by the one or more substrates and configured to inject one or more medicaments to one or more joint tissues of the mammalian subject.

Abstract: Methods, structures, and systems are disclosed for biosensing and drug delivery techniques. In one aspect, a? device for detecting an analyte and/or releasing a biochemical into a biological fluid can include an array of hollowed needles, in which each needle includes a protruded needle structure including an exterior wall forming a hollow interior and an opening at a terminal end of the protruded needle structure that exposes the hollow interior, and a probe inside the exterior wall to interact with one or more chemical or biological substances that come in contact with the probe via the opening to produce a probe sensing signal, and an array of wires that are coupled to probes of the array of hollowed needles, respectively, each wire being electrically conductive to transmit the probe sensing signal produced by a respective probe.

Abstract: Some embodiments of a portable infusion pump system can be configured to can be configured to adjust the sensitivity of particular detectors or alert systems based (at least in part) on information received from a monitoring device. For example, a glucose monitoring device can communication with an infusion pump assembly used to supply insulin or another medication to a user. In such circumstances, the data received from the monitoring device can be used to adjust the sensitivity of an occlusion detection system.

Abstract: A drug delivery device for delivery of medicament having a delivery pump system and a cartridge system, the delivery pump system operating electromagnetically by driving two disk magnets that are housed within pump body inserts of the cartridge system. The displacement of the magnets and an elastomer membrane placed between the magnets of the cartridge system results in a volumetric change within two reservoirs and the flow of medicaments. The medicament flows from the reservoirs to the inlet/outlet members via the pump body inserts and discharged to a patient user's body through an infusion set.

Abstract: A control unit for an equipment arrangement is provided. The control unit includes an imaging modality, a measurement device for measuring a control variable and a controllable injection device for a regulatory substance influencing the control variable, wherein the injection rate of the injection device may be varied during a data acquisition such that a proposed value for the control variable is reached.

Abstract: Disclosed are various methods and devices for facilitating medical and/or procedures that are performed without “general anesthesia,” which is also described in the specification as the state of patient “unconsciousness” resulting from a drug administered by an anesthetist or anesthesiologist. The devices safely and effectively provide and maintain drug infusions that do not push the patient into unconsciousness and/or general anesthesia. Devices according to embodiments of the invention include the use of stored parameters and/or values that correlate to drug delivery during a procedure, and a patient health monitor to measure and send signals regarding a patient health condition to a processor or other computational device.

Abstract: Systems and methods for integrating a continuous glucose sensor, including a receiver, a medicament delivery device, and optionally a single point glucose monitor are provided. Manual integrations provide for a physical association between the devices wherein a user (for example, patient or doctor) manually selects the amount, type, and/or time of delivery. Semi-automated integration of the devices includes integrations wherein an operable connection between the integrated components aids the user (for example, patient or doctor) in selecting, inputting, calculating, or validating the amount, type, or time of medicament delivery of glucose values, for example, by transmitting data to another component and thereby reducing the amount of user input required. Automated integration between the devices includes integrations wherein an operable connection between the integrated components provides for full control of the system without required user interaction.

Abstract: Systems, devices, methods, and compositions are disclosed which include an actively-controllable implantable device configured to, for example, capture and/or release biochemical and/or biological cells in a subject.

Abstract: Devices of this invention include replaceable cartridges for delivery of doses of fluids. Cartridges having a fluid supply reservoir comprising an expandable element are designed to be connected with non-disposable actuating module supplied with a sensor, a mechanism to apply a force to the fluid, thereby forcing a predetermined dose out of the reservoir, and a processor providing control outputs from a sensor system according to preprogrammed instructions. Methods of this invention include delivery of microdoses of fluids using devices of this invention.

Abstract: A system for treating heart disease, such as pulmonary hypertension or right heart failure, including an implantable component and external components for monitoring the implantable component is provided. The implantable component may include a compliant member, e.g., balloon, coupled to a reservoir via a conduit. Preferably, the compliant member is adapted to be implanted in a pulmonary artery and the reservoir is adapted to be implanted subcutaneously. The external components may include a clinical controller component, monitoring software configured to run a clinician's computer, a patient monitoring device, and a mobile application configured to run on a patient's mobile device.

Abstract: A portable infusion apparatus and method are provided for controlling the delivery of medicinal fluid to a patient. A fluid delivery system receives control input to control a setting of a variable fluid flow resistor. The variable fluid flow resistor resists passage of fluid through a fluid pathway between a fluid source and a recipient. The fluid delivery system; produces a control signal indicative of the setting of the variable fluid flow resistor; derives a fluid flow rate value from the control signal; and applies pressure to the fluid source to deliver the fluid from the fluid source to the recipient through the variable fluid flow resistor at a rate as specified by the derived fluid flow rate value.

Abstract: Method and apparatus including calling, retrieving and/or initiating a programmed function in conjunction with execution of one or more commands related to a closed loop control algorithm, receiving one or more data in response to the one or more commands over a data interface, and executing the one or more commands related to the closed loop control algorithm based on the received one or more data are provided.

Abstract: Method and system for providing data monitoring and management including RF communication link over which a transmitter and a receiver is configured to communicate, the transmitter configured to periodically transmit a data packet associated with a detected analyte level received from an analyte sensor, and the receiver configured to identify the transmitter as the correct transmitter for which it is configured to receive the data packets, and to continue to receive the data packets from the transmitter once the transmitter identification has been verified, is provided.

Abstract: An implantable neurostimulator system for treating pain includes scheduled and responsive therapy capabilities including responsive stimulation applied to the brain and peripheral sections of the nervous system. Methods for treating chronic nociceptive, neuropathic, and psychogenic pain employ an inventive system to advantageously reduce multiple symptoms and components of pain and to address underlying causes of pain.

Abstract: This document discusses, among other things, an apparatus comprising a pump configured to deliver a fluid, a wireless communication port and a controller. The controller is configured to communicate with a separate device via the communication port to receive information relating to a calendar event stored on an interactive calendar of the separate device. The controller can alter operation of the apparatus based on the calendar event.