Delivery systems and their methods of use for delivering one or more therapeutic compounds to a user are described. A delivery system may include an implantable pump and an external actuator. The implantable pump may include an actuatable portion that may be actuated to dispense a volume of fluid. The external actuator may include a pusher configured to deform skin to engage an actuatable portion of the pump. The external actuator may also include a positioning magnet configured to magnetically attract a portion of the implantable pump such that the external actuator and the pump may be aligned prior to applying force to the portion of the skin between the external actuator and the actuatable portion of the pump.

A bone conduction device including an external component, the external component comprising a sound processor and transducer, the transducer configured to generate mechanical forces, and the external component configured for positioning behind a recipient's ear such that the mechanical forces are transmitted from the external component to a recipient's bone to generate a hearing percept via bone conduction.

An overdose of opioids can cause the user to stop breathing, resulting in death. A physiological monitoring system monitors respiration based on oxygen saturation readings from a fingertip pulse oximeter in communication with a smart mobile device and sends opioid monitoring information from the smart mobile device to an opioid overdose monitoring service. The opioid overdose monitoring service notifies a first set of contacts when the opioid monitoring information.

Embodiments of the invention provide swallowable devices, preparations and methods for delivering drugs and other therapeutic agents (TA) within the GI tract and in particular to an antrum wall (AW). Particular embodiments provide a swallowable device (SD) such as a capsule for delivering drugs or other TA into the AW. The SD may contain a pressure sensitive component or assembly which triggers release and insertion of a therapeutic agent preparation (TAP) comprising at least one TA into the AW in response to external pressure, such as pressure applied to the swallowable capsule or other SD by antrum contractions. Particular embodiments of the SD may be shaped so that they self-align within an antrum to properly orient before injection of the TAP into the AW. Embodiments of the invention are particularly useful for orally delivering drugs or other TAs which are degraded within the GI tract and require parenteral injection.

Disclosed are methods and medical device systems for automated delivery of therapies for pain and determination of need for and safety of treatment. In one embodiment, such a medical device system may comprise a sensor configured to sense at least one body signal from a patient; and a medical device configured to receive a first sensed body signal from the sensor; determine a patient pain index based at least in part on said first sensed body signal; determine whether said patient pain index is above at least a first pain index threshold; determine a safety index based at least in part on a second sensed body signal; select a pain treatment regimen based on at least one of said safety index and or a determination that said pain index is above said first pain index threshold; and deliver said pain treatment regimen.

An access port can be connected to a catheter and includes a port body including a liquid storage portion and a diaphragm body covering the liquid storage portion. The port body includes a connection passage connected to the liquid storage portion and allows the liquid storage portion to communicate with the inside of the catheter. In the cross-section along the axial direction of the connection passage at the connection position where the connection passage is connected to the liquid storage portion, the length in the direction perpendicular to the axial direction between the surface of the diaphragm body on the side opposite to the liquid storage portion and the inner surface of the liquid storage portion gradually decreases as it proceeds away from the connection position in the inclined region exceeding half of the liquid storage portion along the axial direction.

An apparatus for use with a needle electrode assembly used to disrupt biofilm from an implanted metallic object, such as a replacement orthopedic appliance, includes a body that retains the needle electrode assembly including a projecting needle portion projecting from a lower end of the body. A needle adjustment mechanism enables the length of the projecting needle portion to be adjusted, the needle adjustment mechanism including a spring element within the apparatus body and attached to the needle electrode assembly. The spring element has a substantially nonvariable spring constant such that constant pressure is applied to the needle electrode irrespective of the length of the needle electrode to be brought into contact with the skin of a subject and implanted metallic object, once released by the needle adjustment mechanism. The apparatus includes a plurality of supports that enable the apparatus to be attached to the skin of a subject during treatment wherein a retraction mechanism enables the needle to be withdrawn into the apparatus and a locking mechanism enables safe encapsulation and retention of the needle within the apparatus after treatment.

Antibacterial coatings and methods of making the antibacterial coatings are described herein. A first branched polyethylenimine (BPEI) layer is formed and a first glyoxal layer is formed on a surface of the BPEI layer. The first BPEI layer and the first glyoxal layer are cured to form a crosslinked BPEI coating. The first BPEI layer can be modified with superhydrophobic moieties, superhydrophilic moieties, or negatively charged moieties to increase the antifouling characteristics of the coating. The first BPEI layer can be modified with contact-killing bactericidal moieties to increase the bactericidal characteristics of the coating.

An implantable glymphatic pump configured to flush metabolites from a brain parenchyma of a patient. The implantable glymphatic pump including at least one spinal catheter having a distal end configured to be positioned within an intrathecal space of a spine of a patient, at least one cranial catheter having a distal end configured to be positioned within a brain parenchyma of the patient, and an implantable pump configured to draw cerebrospinal fluid from the intrathecal space of the spine in the patient via the at least one spinal catheter, and reintroduce said cerebrospinal fluid to the brain parenchyma of the patient via the one or more cranial catheters to encourage a flow of the cerebrospinal fluid through the brain parenchyma.

Methods and apparatus for improving cognitive function within a human. The invention utilizes an implanted device, such as an implantable signal generator or an implantable pump, to affect tissue elements within a Papez circuit of the human brain as well as tissue upstream or downstream from the Papez circuit. The implanted device delivers treatment therapy to thereby improve cognitive function by the human. A sensor may be used to detect various symptoms of the cognitive disorder. A microprocessor algorithm may then analyze the output from the sensor to regulate delivery of the stimulation and/or drug therapy.