Abstract: A method of pre-operatively developing a reverse shoulder arthroplasty plan can include receiving an image of a patient shoulder comprising a humerus and a glenoid. The image can be segmented to develop a 3D shoulder model. Virtual surgery can be performed on the 3D shoulder model to generate a modified shoulder model. The virtual surgery can include resecting and reaming a virtual humerus of the 3D shoulder model, and reaming a virtual glenoid of the 3D shoulder model. Selection of a humeral implant and selection of a glenoid implant can be received. A virtual representation of the humeral implant can be implanted on the virtual humerus and a virtual representation of the glenoid implant on the virtual glenoid to virtually update the modified shoulder model. A range of motion of the patient shoulder can be determined and a reverse shoulder arthroplasty can be finalized based on the range of motion.

Abstract: Blockchain-based technologies to facilitate traceability of products through their lifecycle, including design, development, manufacturing, supply chain, and use. The system provides transparent, secure traceability through product lifecycle, drawing insights from collected data and post-market activities. For example, the system could receive tracking data from a plurality of tracking sources along a product's lifecycle and generate one or more blocks in a blockchain to capture the tracking data from the plurality of tracking sources along the product's lifecycle in one or more distributed ledgers.

Abstract: Described herein are examples of orthopedic drill bits and methods of preparing a bone of a living being for fixation. An example method includes coupling a drive attachment of a drill bit to a mounting attachment of a driver, and placing a guide at a desired location on the bone. The guide has an opening corresponding to an area of bone to be removed. The guide provides proper positioning and alignment for drilling a hole. With the guide in place, the method further includes aligning the drill bit with the opening on the guide and drilling a hole in the bone. Once the hole is drilled, the method includes de-coupling the drill bit from the driver, and bending the drill bit at the drive attachment while the drill bit is still in the bone. In some examples, additional method steps follow preparation of the hole.

Abstract: Described herein are examples of illustrative orthopedic staples, systems and methods. In an illustrative orthopedic staple for fusion of a foot or ankle bone fracture, the staple includes a bridge, a first staple leg and a second staple legs. The bridge of the illustrative staple extends from a first end portion to a second end portion along a first direction. The bridge also includes a step down region located between the first end portion and the second end portion, the step down region having a height along the insertion axis of the staple. In some examples, the first staple leg has a first staple leg height extending from the bridge to the first distal tip and the second staple leg has a second staple leg height extending from the bridge to the second distal tip, and the first staple leg height is greater than the second staple leg height.

Abstract: Blockchain-based technologies to facilitate traceability of products through their lifecycle, including design, development, manufacturing, supply chain, and use. The system provides transparent, secure traceability through product lifecycle, drawing insights from collected data and post-market activities. For example, the system could receive tracking data from a plurality of tracking sources along a product's lifecycle and generate one or more blocks in a blockchain to capture the tracking data from the plurality of tracking sources along the product's lifecycle in one or more distributed ledgers.

Abstract: A method of pre-operatively developing a reverse shoulder arthroplasty plan can include receiving an image of a patient shoulder comprising a humerus and a glenoid. The image can be segmented to develop a 3D shoulder model. Virtual surgery can be performed on the 3D shoulder model to generate a modified shoulder model. The virtual surgery can include resecting and reaming a virtual humerus of the 3D shoulder model, and reaming a virtual glenoid of the 3D shoulder model. Selection of a humeral implant and selection of a glenoid implant can be received. A virtual representation of the humeral implant can be implanted on the virtual humerus and a virtual representation of the glenoid implant on the virtual glenoid to virtually update the modified shoulder model. A range of motion of the patient shoulder can be determined and a reverse shoulder arthroplasty can be finalized based on the range of motion.

Abstract: An apparatus including a first leg; a second leg distant from the first leg; and a bridge extending between and connecting the first leg to the second leg; wherein the bridge is configured such that a length of the bridge between the first leg and the second leg can be incrementally adjusted.

Abstract: Blockchain-based technologies for managing the manufacture and delivery of custom medical devices include a device availability manager, a medical device ordering manager and a distributed ledger module. The device availability manager is to generate medical device slot availability data for a plurality of device manufacturers. The medical device ordering manager is to order a custom medical device from one or more of the plurality of device manufacturers based on medical device slot availability data. The distributed ledger module is to create a block in a blockchain associated with a blockchain network that includes one or more of an identifier of the heathcare provider that ordered the custom medical device, and a prescription number.

Abstract: A method of pre-operatively developing a reverse shoulder arthroplasty plan can include receiving an image of a patient shoulder comprising a humerus and a glenoid. The image can be segmented to develop a 3D shoulder model. Virtual surgery can be performed on the 3D shoulder model to generate a modified shoulder model. The virtual surgery can include resecting and reaming a virtual humerus of the 3D shoulder model, and reaming a virtual glenoid of the 3D shoulder model. Selection of a humeral implant and selection of a glenoid implant can be received. A virtual representation of the humeral implant can be implanted on the virtual humerus and a virtual representation of the glenoid implant on the virtual glenoid to virtually update the modified shoulder model. A range of motion of the patient shoulder can be determined and a reverse shoulder arthroplasty can be finalized based on the range of motion.

Abstract: Described herein are examples of orthopedic drill bits and methods of preparing a bone of a living being for fixation. An example method includes coupling a drive attachment of a drill bit to a mounting attachment of a driver, and placing a guide at a desired location on the bone. The guide has an opening corresponding to an area of bone to be removed. The guide provides proper positioning and alignment for drilling a hole. With the guide in place, the method further includes aligning the drill bit with the opening on the guide and drilling a hole in the bone. Once the hole is drilled, the method includes de-coupling the drill bit from the driver, and bending the drill bit at the drive attachment while the drill bit is still in the bone. In some examples, additional method steps follow preparation of the hole.

Abstract: A modular gun rest has a mounting bracket assembly and a rest assembly. The rest assembly is removably attached to the mounting bracket assembly, which is in turn attached to a tree or other surface. The rest assembly has a camouflaged outer core, which may be constructed from polyurethane foam using a silicon mold, and an inner supporting element. The mounting bracket assembly and/or the rest assembly may include an articulating joint, and may be interchangeable with multiple rest assemblies, and vice versa. When assembled, the gun rest provides a stable, non-marring, and naturally appearing surface upon which to rest a gun. A hunter may affix multiple mounting bracket assemblies in the field, and may then use a single rest assembly in conjunction with the multiple mounting bracket assemblies. Additionally, the hunter may even be provided with multiple rest assemblies, according to the species of trees that are present.

Abstract: Described herein are examples of orthopedic drill bits and methods of preparing a bone of a living being for fixation. An example method includes coupling a drive attachment of a drill bit to a mounting attachment of a driver, and placing a guide at a desired location on the bone. The guide has an opening corresponding to an area of bone to be removed. The guide provides proper positioning and alignment for drilling a hole. With the guide in place, the method further includes aligning the drill bit with the opening on the guide and drilling a hole in the bone. Once the hole is drilled, the method includes de-coupling the drill bit from the driver, and bending the drill bit at the drive attachment while the drill bit is still in the bone. In some examples, additional method steps follow preparation of the hole.

Abstract: A method of pre-operatively developing a reverse shoulder arthroplasty plan can include receiving an image of a patient shoulder comprising a humerus and a glenoid. The image can be segmented to develop a 3D shoulder model. Virtual surgery can be performed on the 3D shoulder model to generate a modified shoulder model. The virtual surgery can include resecting and reaming a virtual humerus of the 3D shoulder model, and reaming a virtual glenoid of the 3D shoulder model. Selection of a humeral implant and selection of a glenoid implant can be received. A virtual representation of the humeral implant can be implanted on the virtual humerus and a virtual representation of the glenoid implant on the virtual glenoid to virtually update the modified shoulder model. A range of motion of the patient shoulder can be determined and a reverse shoulder arthroplasty can be finalized based on the range of motion.

Abstract: An adjustable wedge can be used in an Evans technique foot and ankle reconstructive wedge surgery. The adjustable wedge can include a slide. The slide can be positioned to a suitable location on a patient's calcaneus, then fastened to the calcaneus through first and second holes through the slide at opposite ends of the slide. The adjustable wedge can include a body having a pair of wedged surfaces configured to contact the cutout of the calcaneus. The body can include a slot extending between the wedged surfaces. The slot can be sized to accommodate the slide so that the slide is slidable within the slot. A circumferential surface can extend circumferentially between the wedged surfaces. A threaded hole can extend through the circumferential surface to the slot. The threaded hole can receive a fastener, such as a set screw, to secure the slide to the body.

Abstract: A method of pre-operatively developing a reverse shoulder arthroplasty plan can include receiving an image of a patient shoulder comprising a humerus and a glenoid. The image can be segmented to develop a 3D shoulder model. Virtual surgery can be performed on the 3D shoulder model to generate a modified shoulder model. The virtual surgery can include resecting and reaming a virtual humerus of the 3D shoulder model, and reaming a virtual glenoid of the 3D shoulder model. Selection of a humeral implant and selection of a glenoid implant can be received. A virtual representation of the humeral implant can be implanted on the virtual humerus and a virtual representation of the glenoid implant on the virtual glenoid to virtually update the modified shoulder model. A range of motion of the patient shoulder can be determined and a reverse shoulder arthroplasty can be finalized based on the range of motion.

Abstract: Described herein are examples of illustrative orthopedic staples, systems and methods. In an illustrative orthopedic staple for fusion of a foot or ankle bone fracture, the staple includes a bridge, a first staple leg and a second staple legs. The bridge of the illustrative staple extends from a first end portion to a second end portion along a first direction. The bridge also includes a step down region located between the first end portion and the second end portion, the step down region having a height along the insertion axis of the staple. In some examples, the first staple leg has a first staple leg height extending from the bridge to the first distal tip and the second staple leg has a second staple leg height extending from the bridge to the second distal tip, and the first staple leg height is greater than the second staple leg height.

Abstract: Disclosed is an adjustable wedge for insertion into a bone. The adjustable wedge can include a first arm, a second arm, and an adjustment member. The first arm can have a first end and a second end. The second arm can have a third end and a fourth end. The third end of the second arm can be movably connected to the first end of the first arm. The adjustment member can be in contact with the first arm and the second arm. The adjustment member can be configured to cause an increase or a decrease in a distance between the second end and the fourth end.

Abstract: A modular gun rest has a mounting bracket assembly and a rest assembly. The rest assembly is removably attached to the mounting bracket assembly, which is in turn attached to a tree or other surface. The rest assembly has a camouflaged outer core, which may be constructed from polyurethane foam using a silicon mold, and an inner supporting element. The mounting bracket assembly and/or the rest assembly may include an articulating joint, and may be interchangeable with multiple rest assemblies, and vice versa. When assembled, the gun rest provides a stable, non-marring, and naturally appearing surface upon which to rest a gun. A hunter may affix multiple mounting bracket assemblies in the field, and may then use a single rest assembly in conjunction with the multiple mounting bracket assemblies. Additionally, the hunter may even be provided with multiple rest assemblies, according to the species of trees that are present.

Abstract: A glenoid trial and implant assembly for use in reverse total shoulder arthroplasty is provided along with a method for using the same. The glenoid trial and implant assembly includes a baseplate assembly, an adapter assembly, a glenoid trial, a glenoid implant, a humeral cup, and a positioning guide. The glenoid trial is coupled to the adapter assembly when the glenoid trial and implant assembly is assembled in a trialing configuration. The glenoid implant is coupled to the adapter assembly when the glenoid trial and implant assembly is assembled in an installed configuration. A temporary connection, which may be magnetic, releasably couples the glenoid trial to the adapter assembly and provides separation of the glenoid trial and the adapter assembly without requiring disassembly of the adapter assembly. A permanent connection fixes the glenoid implant to the adapter assembly.

Abstract: An apparatus including a first leg; a second leg distant from the first leg; and a bridge extending between and connecting the first leg to the second leg; wherein the bridge is configured such that a length of the bridge between the first leg and the second leg can be incrementally adjusted.