A plurality of modules are simultaneously positioned at locations that correspond to different angiosomes. Each of these modules has a front surface shaped and dimensioned for contacting a person's skin, a plurality of different-wavelength light sources aimed in a forward direction, and a plurality of light detectors aimed to detect light arriving from in front of the front surface. Each module is supported by a support structure (e.g., a strap or a clip) that is shaped and dimensioned to hold the front surface adjacent to the person's skin at a respective position. Perfusion in each of the angiosomes is monitored using these modules, and the surgeon can rely on this information to guide his or her intervention.

A system and method for improving limb function through the use of percutaneous mechanical and neural interfaces. The system generally uses a hollow long bone axial rod that is inserted into the long bone medullary cavity. A transfer rod with a central channel is mounted to the long bone axial rod. An exterior body attachment is connected to the transfer rod and attachment rings attach muscle groups, fascia layers and dermal layers to the transfer rod. Additionally, the system is configured to collect and transmit nerve signaling data to an external processor and additionally configured to transmit data from the external processor to the plurality of nerves.

An implantable electrical contact arrangement comprising at least one electrode element entirely integrated into a carrier substrate of a biocompatible, electrically insulating material, and at least one freely accessible electrode surface enclosed by the biocompatible, electrically insulating carrier substrate. Within a sub-space which does not contain an electrode element, the carrier substrate surrounds at least one space containing at least one material with a modulus of elasticity differing from a modulus of elasticity of the material of the carrier substrate.

Stimulation and recording electrode assemblies that are particularly useful for Automatic Period Stimulation (APS). Such embodiments are compatible with nerve monitoring systems to provide continuous stimulation of a nerve during surgery. Certain embodiments include an electrode assembly having cuff including a body and two ears extending from the body. Within the body, at least one electrode is supported and connected to a lead wire assembly. The ears can be brought together to enlarge a gap in the body so that the electrode assembly can be fixated around a nerve. Other embodiments include an electrode assembly including first and second needle electrodes that each have a tip. A body is provided to interconnect the needle electrodes and can be manipulated to move the tips either toward or away from one another. Disclosed embodiments provide nerve monitoring and stimulation in cases where the nerve is only partially dissected.

An integrated physiological monitoring and tissue anchoring device is provided. The device includes a detachable clamp at the distal portion that includes a sensor configured to sense a physiological parameter from the gastrointestinal tract. A handle at the proximal portion of the device is configured to actuate the clamp into a closed configuration in which gastrointestinal tissue is grasped by the clamp. A cable connects the handle to the clamp and has a frangible section near the clamp such that the clamp is detachable from the cable at the frangible section.

A method for assessing pain caused by administration of a drug solution includes: anesthetizing an experimental animal; inserting a measurement electrode into skeletal muscle of the anesthetized experimental animal; puncturing an injection needle into a predetermined part of the anesthetized experimental animal while measuring a myoelectric potential of the skeletal muscle with the measurement electrode; administering a drug solution to the anesthetized experimental animal; and (i) measuring a duration time of the myoelectric response caused by the administration of the drug solution, and/or (ii) measuring an EMG intensity obtained by integrating absolute values of myoelectric potentials during a period from occurrence of the myoelectric response by the administration of the drug solution to disappearance of the myoelectric response.

A subcutaneously implantable device includes a housing, a clip attached to the housing, and an electrode. The clip is configured to move between an open position and a closed position to increase or decrease an opening between the housing and the clip to anchor the device to a muscle, a bone, and/or a first tissue. The electrode is configured to contact an organ, a nerve, the first tissue, and/or a second tissue. Circuitry in the housing is in electrical communication with the electrode and is configured to provide monitoring, therapeutic, and/or diagnostic capabilities with respect to the organ, the nerve, the first tissue, and/or the second tissue.

Disclosed is a stethoscope digital adapter configured to enhance usability of an acoustic stethoscope. The stethoscope digital adapter may include a body comprising an exterior shell configured to form an interior space. Further, the body may include a microphone disposed in the interior space. Further, the microphone may be configured to convert an acoustic wave into an electrical sound signal. Further, the body may include an electrical interconnect electrically coupled to the microphone. Further, the electrical interconnect may be configured to be electrically coupled with an external electronic device configured to process the electrical sound signal. Further, the body may include a conduit attached to the exterior shell. Further, the stethoscope digital adapter may include a fastener attached to the body.

An implantable medical device, such as a sensor for monitoring a selected internally detectable physiological parameter of a patient, is attached to a fixation assembly that is deployable within the patient to position and orient the sensor to enable it to perform its function. The fixation assembly is formed having at least one flexible asymmetric connector where each fixation member includes a plurality of loops, wherein a first loop of the plurality of loops has a maximum pitch that is different from a maximum pitch of a second loop of the plurality of loops. The attachment of the housing and the fixation assembly includes providing a tubular member that is welded to the housing and crimped over a section of the fixation assembly.

The present disclosure relates to various anchoring systems for a catheter delivered device. In one instance the anchoring systems of the present disclosure are designed to be used in connection with a pulmonary artery implant device. In one embodiment, an anchoring system of the present disclosure comprises two anchoring ends, a distal end anchoring structure and a proximal end anchoring structure, where at least one of the distal or proximal anchoring structures has a clover-shaped structure formed by at least three lobes. In another embodiment, the distal anchoring structure includes an elongated and angled shape formed by wire material. In another embodiment, both the distal and proximal anchoring structures have a clover-shaped structure formed by at least three lobes.