A tendon repair implant for treatment of a partial thickness tear in the supraspinatus tendon of the shoulder is provided. The implant may incorporate features of rapid deployment and fixation by an arthroscopic means approach that compliment current procedures; tensile properties that result in desired sharing of anatomical load between the implant and native tendon during rehabilitation; selected porosity and longitudinal pathways for tissue in-growth; sufficient cyclic straining of the implant in the longitudinal direction to promote remodeling of new tissue to tendon-like tissue; and, may include a bioresorbable construction to provide transfer of additional load to new tendon-like tissue and native tendon over time.

A fixation device. At least one example embodiment is a bone anchor comprising: a proximal head; a bollard coupled to the proximal head; a first barb coupled to the bollard, the first barb extends outward a first distance measured perpendicularly from an anchor central axis, the first distance greater than half the transverse dimension of the bollard, and the first barb extends outward at a first radial from the anchor central axis; and a second barb coupled to the first barb, the second barb extends outward a second distance measured perpendicularly from the anchor central axis, the second distance greater than half the transverse dimension of the bollard, and the second barb extends outward at a second radial from the anchor central axis, the second radial at a second rotational orientation at least 36 angular degrees from the first radial.

In a biomimetic artificial muscle module, a biomimetic artificial muscle assembly having the biomimetic artificial muscle module, and a method of controlling the biomimetic artificial muscle module, the biomimetic artificial muscle module includes an operating part, an elastic part, a driving part, a locking part and first and second sensors. The operating part contracts or relaxes along a longitudinal direction. The elastic part is connected to a first end of the operating part, and behaves elastically behave according to an external force. The driving part is connected to a second end of the operating part, and drives the operating part to be contracted or relaxed. The locking part selectively blocks a length of the operating part from being changed. The first and second sensors respectively sense the elastic part and the operating part.

Disclosed are electrospun scaffolds and methods of making electrospun fibers and electrospun fiber scaffolds. More particularly, the present disclosure relates to electrospun fibrous scaffolds of decellularized muscle tissue and methods of making fibers and fiber scaffolds by electrospinning.

The present invention is directed to a composition comprising a matrix suitable for implantation in humans, comprising defatted, shredded, allogeneic human muscle tissue that has been combined with an aqueous carrier and dried in a predetermined shape. Also disclosed is a tissue graft or implant comprising a matrix suitable for implantation in humans, comprising defatted, shredded, allogeneic human muscle tissue that has been combined with an aqueous carrier and dried in a predetermined shape. The composition and/or tissue graft or implant of the invention is usable in combination with seeded cells, a tissue growth factor, and/or a chemotactic gent to attract a desired cell.

The present invention provides an electromagnetic device comprising: a power circuit, and a contact initiated electro-magnet having an electrical coil in operable connection with the power circuit, wherein one end of the electrical coil is directly connected to the power circuit and the other is connected to the magnetic core of the electromagnet such that, in use, the magnetic core performs the dual purposes of (i) focusing the electromagnetic field created by the coil and (ii) forms part of the electrical circuit that energizes the magnetic core of the electromagnet. Multiple electromagnetic devices may be combined to form a kinetic device capable of creating an electrically-based movement device that mimics the form and function of the skeletal muscle through the use of multiple contact initiated electromagnets held within elastic tubes.

Implants are provided, comprising the implant and a plurality of sensors.

A method and apparatus are disclosed for providing a compression fixation between a first and further component. The apparatus comprises an elongate body having a head end and a tip end and comprising a screw thread including a first region in which the screw thread has a corresponding first pitch and a further region, extending from the tip end, in which the screw thread is tapered and has a corresponding further pitch that continually decreases away from the tip end.

An additive manufacturing (AM) device for biomaterials comprises a reservoir, a shaft, and a material delivery head. The device can be used for intracorporeal additive manufacturing. Material within the reservoir can be expelled by a mechanical transmission element, for example a syringe pump, a peristaltic pump, an air pressure pump, or a hydraulic pressure pump. The reservoir can be a barrel, a cartridge, or a cassette. The reservoir can narrow into the shaft, and the shaft can terminate into the nozzle. The shaft can house an inner tube. The device can have an actuator joint capable of being mechanically linked to a robotic surgical system. The actuator joint can have a motor that drives the mechanical transmission element.

An in-situ implanted bionic artificial anal sphincter system with an independent swing arm structure comprises: an energy transmission control unit and a sphincter prosthesis unit. The energy transmission control unit comprises a master control module and a percutaneous wireless energy transmission module while the sphincter prosthesis unit comprises a wireless energy receiving module, a micro power supply, a sensor, an execution unit and a slave control module. The invention has a simpler and compact structure which reduces the risk of transplanting; the middle ring with independent rotating shaft has simple structure and reduces the difficulty of installation; the hall switch is arranged in the upper ring bin to facilitate wiring; the external gear meshing transmission torque is simple and reliable.