Abstract: The present disclosure provides a system for printing at least a portion of a three-dimensional (3D) object. The system may comprise a source of at least one feedstock, a support for supporting at least a portion of the 3D object, a feeder for directing at least one feedstock from the source towards the support, and a power supply for supplying electrical current. The system may comprise a controller operatively coupled to the power supply. The controller may receive a computational representation of the 3D object. The controller may direct the at least one feedstock through a feeder towards the support and may direct electrical current through the at least one feedstock and into the support. The controller may subject such feedstock to Joule heating such that at least a portion of such feedstock may deposit adjacent to the support, thereby printing the 3D object in accordance with the computational representation.

Abstract: The present invention relates to an implantable device configured to deliver, to an injured bone site, components for revascularisation and bone repair, the device comprising: a first osteoconductive scaffold component adapted to hold and deliver to the injured bone site, growth factors for inducing cellular events that initiate healing; and comprising a second osteoconductive scaffold component adapted to hold and deliver to the injured bone site, viable autologous osteogenic and/or angiogenic cells, and wherein the device also comprises a third scaffold component adapted to promote bone cell proliferation and vascularity, whereby the scaffold components provide a stable mechanical environment for promoting bone cell proliferation and vascularity. The present invention also relates to a method of manufacture of the implantable device.

Abstract: The present disclosure provides systems and methods for dismantling and/or recycling liquid metal batteries. Such methods can include cryogenically freezing liquid metal battery components, melting and separating liquid metal battery components, and/or treating liquid metal battery components with water.

Abstract: The present invention is related to a breech thread protector for cleaning bore of a firearm from breech area of the barrel to the muzzle of the barrel. The breech thread protector includes an elongated tubular member having a proximal open end and a distal open end. The invention is also related to an assembly including the breech thread protector, a kit for cleaning the bore of the barrel, and a method for cleaning bore of the barrel.

Abstract: An “MRI-safe” implantable infusion apparatus and a method that include a flow actuated valve (FAV) that closes to prevent a free flow of an infusate to a patient during an MRI procedure, and a release mechanism that opens the valve so that the apparatus may return to normal operation following the MRI procedure. In this manner, patient safety is improved and an inconvenience of having to empty a pump reservoir before undergoing the MRI procedure may be avoided.

Abstract: A hose assembly, preferably a garden hose assembly, including a jacketed tube that is lightweight, durable and versatile. The tube is able to expand longitudinally along the length-wise axis of the hose between hose ends, as well as radially or circumferentially, to an expanded state in response to application of at least a minimum fluid pressure to an inner tube of the hose. Once the fluid pressure falls below the minimum fluid pressure, the hose assembly will contract. The two layer construction of the hose assembly allows for storage in relatively compact spaces, similar flow rates, approximately one-half the weight, and improved maneuverability when compared to conventional hose constructions. In one embodiment the jacket is formed around the tube in a continuous process that welds a material, preferably using hot air, into the jacket. The welded joint forms a region of jacket that is preferably about twice the thickness of the rest of the jacket.

Abstract: An implantable drug delivery device and method that includes a bellows sensor for detecting the displacement of a bellows within an infusate reservoir. Sensor data from the bellows sensor may enable indirect measurement of the flow conditions of the implantable drug delivery device or connected catheter. A processor within the implantable drug delivery device may use the sensor data to determine whether delivery of infusate to a patient over time is outside normal or acceptable parameters and take an action in response.

Abstract: The invention relates to a method for operating a camera system (2) of a motor vehicle (1), in which a first camera (3, 5, 6) captures a first environmental region (14, 16, 17) of the motor vehicle (1), and a second camera (4) captures a second environmental region (15) extending behind the motor vehicle (1), wherein the cameras (3, 4, 5, 6) are electrically connected to a control unit (7) and are controlled by the control unit (7), and the control unit (7) is connected to a communication bus (28) of the motor vehicle (1), wherein upon an interruption of a communication connection (27) between the communication bus (28) and the control unit (7), a rearview image at least partially including the second environmental region (15) is displayed on a display device (18) of the motor vehicle (1) by the control unit (7).

Abstract: In various embodiments, a three-dimensional metallic structure is fabricated in layer-by-layer fashion via deposition of discrete metal particles resulting from the passing of an electric current between a metal wire and an electrically conductive base or a previously deposited layer of particles.

Abstract: The present disclosure provides a system for printing at least a portion of a three-dimensional (3D) object. The system may comprise a source of at least one feedstock, a support for supporting at least a portion of the 3D object, a feeder for directing at least one feedstock from the source towards the support, and a power supply for supplying electrical current. The system may comprise a controller operatively coupled to the power supply. The controller may receive a computational representation of the 3D object. The controller may direct the at least one feedstock through a feeder towards the support and may direct electrical current through the at least one feedstock and into the support. The controller may subject such feedstock to Joule heating such that at least a portion of such feedstock may deposit adjacent to the support, thereby printing the 3D object in accordance with the computational representation.

Abstract: The present disclosure provides a system for printing at least a portion of a three-dimensional (3D) object. The system may comprise a source of at least one feedstock, a support for supporting at least a portion of the 3D object, a feeder for directing at least one feedstock from the source towards the support, and a power supply for supplying electrical current. The system may comprise a controller operatively coupled to the power supply. The controller may receive a computational representation of the 3D object. The controller may direct the at least one feedstock through a feeder towards the support and may direct electrical current through the at least one feedstock and into the support. The controller may subject such feedstock to Joule heating such that at least a portion of such feedstock may deposit adjacent to the support, thereby printing the 3D object in accordance with the computational representation.

Abstract: The present disclosure provides a system for printing at least a portion of a three-dimensional (3D) object. The system may comprise a source of at least one feedstock, a support for supporting at least a portion of the 3D object, a feeder for directing at least one feedstock from the source towards the support, and a power supply for supplying electrical current. The system may comprise a controller operatively coupled to the power supply. The controller may receive a computational representation of the 3D object. The controller may direct the at least one feedstock through a feeder towards the support and may direct electrical current through the at least one feedstock and into the support. The controller may subject such feedstock to Joule heating such that at least a portion of such feedstock may deposit adjacent to the support, thereby printing the 3D object in accordance with the computational representation.

Abstract: Methods for programming an implantable drug delivery device using a mobile computing device that include establishing a connection with a telemetry unit configured for wireless communication with the implantable drug delivery device, displaying user-selectable drug delivery settings for the implantable drug delivery device, receiving at least one selection of a drug delivery setting, translating the received selection into a signal format readable by the telemetry unit, and sending the translated signal to the telemetry unit to program the implantable drug delivery device. Further embodiments include telemetry units for communication with an implantable drug delivery device, and patient programmers and a method for patient modification to a programmed drug delivery regimen.

Abstract: A hose assembly, preferably a garden hose assembly, including a jacketed tube that is lightweight, durable and versatile. The tube is able to expand longitudinally along the length-wise axis of the hose between hose ends, as well as radially or circumferentially, to an expanded state in response to application of at least a minimum fluid pressure to an inner tube of the hose. Once the fluid pressure falls below the minimum fluid pressure, the hose assembly will contract. The two layer construction of the hose assembly allows for storage in relatively compact spaces, similar flow rates, approximately one-half the weight, and improved maneuverability when compared to conventional hose constructions. In one embodiment the jacket is formed around the tube in a continuous process that welds a material, preferably using hot air, into the jacket. The welded joint forms a region of jacket that is preferably about twice the thickness of the rest of the jacket.

Abstract: The present disclosure provides a system for printing at least a portion of a three-dimensional (3D) object. The system may comprise a source of at least one feedstock, a support for supporting at least a portion of the 3D object, a feeder for directing at least one feedstock from the source towards the support, and a power supply for supplying electrical current. The system may comprise a controller operatively coupled to the power supply. The controller may receive a computational representation of the 3D object. The controller may direct the at least one feedstock through a feeder towards the support and may direct electrical current through the at least one feedstock and into the support. The controller may subject such feedstock to Joule heating such that at least a portion of such feedstock may deposit adjacent to the support, thereby printing the 3D object in accordance with the computational representation.

Abstract: Methods for programming an implantable drug delivery device using a mobile computing device that include establishing a connection with a telemetry unit configured for wireless communication with the implantable drug delivery device, displaying user-selectable drug delivery settings for the implantable drug delivery device, receiving at least one selection of a drug delivery setting, translating the received selection into a signal format readable by the telemetry unit, and sending the translated signal to the telemetry unit to program the implantable drug delivery device. Further embodiments include telemetry units for communication with an implantable drug delivery device, and patient programmers and a method for patient modification to a programmed drug delivery regimen.

Abstract: The present invention is related to a breech thread protector for cleaning bore of a firearm from breech area of the barrel to the muzzle of the barrel. The breech thread protector includes an elongated tubular member having a proximal open end and a distal open end. The invention is also related to an assembly including the breech thread protector, a kit for cleaning the bore of the barrel, and a method for cleaning bore of the barrel.

Abstract: The present disclosure provides a method for printing at least a portion of a three-dimensional (3D) object adjacent to a support. The method may comprise receiving in computer memory a computational representation of the 3D object. Subsequent to receiving the computational representation of the 3D object, at least one feedstock may be directed through a feeder towards the support. Upon directing the at least one feedstock through the feeder, electrical current may be flowed through the at least one feedstock and into the support. The at least one feedstock may be subjected to Joule heating upon flow of electrical current through the at least one feedstock, which may be sufficient to melt at least a portion of the at least one feedstock. The at least the portion of the at least one feedstock may be deposited adjacent to the support in accordance with the computational representation of the 3D object.

Abstract: The present invention is related to a breech thread protector for cleaning bore of a firearm from breech area of the barrel to the muzzle of the barrel. The breech thread protector includes an elongated tubular member having a proximal open end and a distal open end. The invention is also related to an assembly including the breech thread protector, a kit for cleaning the bore of the barrel, and a method for cleaning bore of the barrel.

Abstract: A hose assembly, preferably a garden hose assembly, including a fabric jacketed tube that is lightweight, durable and versatile. The tube is radially expandable when pressurized by a fluid, such as water, but does not increase in length. The two layer construction of the hose assembly allows for storage in relatively compact spaces, similar flow rates, approximately one-half the weight, and improved maneuverability when compared to conventional hose constructions. In one embodiment the jacket is formed around the tube in a continuous process that welds a fabric, preferably using hot air, into the jacket. The welded joint forms a region of jacket that is preferably about twice the thickness of the rest of the jacket. This thicker region results in a stiffer section of jacket that makes the hose more controllable and consistent in use.