Abstract: Wearable injection guides and manufacture and use thereof are described, which include: a rigid material formed to substantially conform in shape to a topography of a body region of an individual, the rigid material substantially impenetrable to an injection needle, and the rigid material including one or more injection needle access regions arranged in a treatment pattern.

Abstract: Wearable injection guides and manufacture and use thereof are described, which include: a rigid needle-penetrable material having an inner surface and an outer surface, the inner surface having form-fitting contours substantially conforming to a topography of a body region of an individual and the outer surface including one or more fiducials indication of at least one treatment parameter.

Abstract: Systems and methods for wearable injection guides are described, which include: acquiring one or more digital images of a body region of an individual with at least one image capture device; creating a digitally rendered model of a wearable injection guide from the one or more digital images of the body region of the individual; adding one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide; and forming the wearable injection guide from the digitally rendered model of the wearable injection guide, the formed wearable injection guide including one or more fiducials corresponding to the one or more digitally rendered fiducials on the digitally rendered model of the wearable injection guide.

Abstract: Breast implants including sensor modules and related methods are described herein. Breast implants include those with: a shell configured to be substantially filled with a viscous material; and a plurality of sensor modules attached to the shell and positioned at a distance from each other, each of the plurality of sensor modules oriented to detect one or more analytes in a fluid adjacent to the shell, wherein each of the plurality of sensor modules includes a unique identifier and is configured to utilize energy transmitted from an external source.

Abstract: Breast implants including sensor modules and related methods are described herein. Breast implants include those with: a shell configured to be substantially filled with a viscous material; a plurality of projections extending from an external surface of the shell, the projections forming a plurality of compartments adjacent to the external surface of the shell; at least one fluid-permeable cover attached to the projections, the cover completely enveloping the shell and the plurality of projections; and a plurality of sensor modules attached to the shell and positioned at a distance from each other, each of the sensor modules oriented to detect one or more analytes in a fluid within one of the plurality of compartments, wherein each of the plurality of sensor modules includes a unique identifier and is configured to utilize energy transmitted from an external source.

Abstract: Breast implants including sensor modules and related methods are described herein. Breast implants include those with: a shell configured to be substantially filled with a viscous material; at least one fluid-permeable cover, the cover completely enveloping the shell; a plurality of sensor modules attached to the shell, the sensor modules oriented to detect one or more analytes in a fluid between the shell and the cover, the sensor modules positioned at a distance from each other, wherein each of the plurality of sensor modules includes a unique identifier; and at least one power source operably attached to the plurality of sensor modules.

Abstract: Breast implants including sensor modules and related methods are described herein. Breast implants include those with: a shell configured to be substantially filled with a viscous material; a plurality of projections extending from an external surface of the shell, the projections forming a plurality of compartments adjacent to the external surface of the shell; at least one fluid-permeable cover attached to the projections, the cover completely enveloping the shell and the plurality of projections; a plurality of sensor modules attached to the shell, each of the sensor modules oriented to detect one or more analytes in a fluid within one of the plurality of compartments, wherein each of the plurality of sensor modules includes a unique identifier; and at least one power source operably attached to the plurality of sensor modules.

Abstract: Breast implants including sensor modules and related methods are described herein. Breast implants include those with: a shell configured to be substantially filled with a viscous material; at least one fluid-permeable cover, the cover completely enveloping the shell; and a plurality of sensor modules attached to the shell and positioned at a distance from each other, each of the sensor modules oriented to detect one or more analytes in a fluid between the shell and the cover, wherein each of the plurality of sensor modules includes a unique identifier and is configured to utilize energy transmitted from an external source.

Abstract: Breast implants including sensor modules and related methods are described herein. Breast implants include those with: a shell configured to be substantially filled with a viscous material; a plurality of sensor modules attached to the shell, the sensor modules oriented to detect one or more analytes in a fluid adjacent to the shell, the sensor modules positioned at a distance from each other, wherein each of the plurality of sensor modules includes a unique identifier; and at least one power source operably attached to the plurality of sensor modules.

Abstract: A tissue ablation system includes a waveguide configured to leak microwave radiation through an array of subwavelength apertures.

Abstract: Appurtenances to wound dressings are described, which include: a substrate configured to mechanically or chemically attach to a wound dressing; a transmission unit attached to a surface of the substrate, the transmission unit including circuitry and at least one antenna, the transmission unit configured to transmit a signal; and a projection operably attached to the transmission unit, the projection of a size and shape to extend into an interior region of the wound dressing and configured to sample a fluid associated with a wound.

Abstract: Appurtenances to wound dressings can include: a substrate configured to attach to a wound dressing; a fluid-activated voltaic cell attached to the substrate; a transmission unit attached to a surface of the substrate, the transmission unit including circuitry and at least one antenna, the transmission unit configured to transmit a signal in response to current generated by the fluid-activated voltaic cell; and a projection operably attached to the fluid-activated voltaic cell, the projection of a size and shape to extend into an interior region of the wound dressing and configured to sample a fluid within the interior region of the wound dressing.

Abstract: Appurtenances to cavity wound medical dressings are described. In some embodiments, an appurtenance to a cavity wound dressing includes: a substrate including at least one wound-facing surface, the wound-facing surface configured to be oriented facing a wound surface of a cavity wound; and a plurality of sensor units attached to the substrate, the plurality of sensor units oriented and positioned on the substrate relative to the wound surface of the cavity wound.

Abstract: Computational systems and methods for reporting information regarding appurtenances to wound dressings are described. A system can include an appurtenance to a wound dressing, including a substrate, a transmission unit, a selectively activated switch, and a projection of a size and shape to extend into an interior region of a wound dressing and configured to sample a fluid associated with a wound; a local unit, including a receiver configured to receive signals from the transmission unit, a transmitter configured to send signals to the transmission unit, a processor, non-volatile memory, and a power source; and a central assembly, including a processor, a receiver configured to receive signals from the local unit, and at least one user interface.

Abstract: An infusion system includes a disposable wearable infusion device and a filler device. The disposable infusion device has a body arranged to be adhered to a patient's skin and a reservoir for holding a liquid medicant to be infused into the patient. The filler device is arranged to detachably receive the infusion device body and to transfer a volume of the liquid medicant to the infusion device reservoir. The filler device may be part of a service device arranged to detachably receive the infusion device and which also includes a cannula driver and a cannula for providing the infusion device with a cannula and deploying the cannula to beneath a patient's skin.

Abstract: An angioplasty catheter includes an elongated carrier, and an angioplasty balloon about the carrier in sealed relation thereto. The balloon is arranged to receive a fluid therein that inflates the balloon. The catheter further includes a shock wave generator within the balloon that forms a rapidly expanding and collapsing bubble within the balloon to form mechanical shock waves within the balloon. The expanding bubble forms a first shock and the collapsing balloon forms a second shock wave. The shock wave generator is arranged such that the energy of the first shock wave is greater than the energy of the second shock wave.

Abstract: A system and method for breaking obstructions in body lumens includes a catheter including an elongated carrier, a balloon at one end of the carrier in sealed relation thereto, the carrier including a channel arranged to receive a fluid that fills and pressurizes the balloon to an internal pressure of greater than two atmospheres, and an arc generator including at least one electrode within the balloon that forms a mechanical shock wave within the balloon. The system further includes a power source that provides electrical energy to the arc generator.

Abstract: Some embodiments are directed to a stent graft comprising a first stent graft having a first and a second stent and a first and a second inner graft supported by the first stent, and an outer graft. The second inner graft can be spaced apart from the first inner graft so that a portion of the first stent is not covered by either the first inner graft or the second inner graft. A first and second portion of the outer graft can be attached to the first stent, the outer graft being unsupported by the stent between the first and second portions so as to form a fillable space between the outer graft, the first inner graft, and the second inner graft. Some embodiments further comprise a second stent graft deployable within the inside of the first stent graft to sealingly cover the uncovered portion of the first stent.

Abstract: A valvuloplasty system comprises a balloon adapted to be placed adjacent leaflets of a valve. The balloon is inflatable with a liquid. The system further includes a shock wave generator within the balloon that produces shock waves. The shock waves propagate through the liquid and impinge upon the valve to decalcify and open the valve. The balloon is carried on a catheter that includes a guidewire lumen. The system further includes a debris collecting basket carried on the catheter proximal to the balloon.

Abstract: A wearable infusion device delivers a liquid medicant to a patient. The infusion device comprises a base that contacts a patient's skin and a reservoir arranged to be filled with a liquid medicant to be delivered beneath a patient's skin. The reservoir has an outlet through which the medicant flows. The infusion device further comprises a flexible conduit communicating with the outlet of the reservoir, a pump that causes the medicant to flow down the conduit, an actuator that performs a function related to the operation of the device, and an enable mechanism that enables the actuator in response to the filling of the reservoir with the liquid medicant.