A cranial plug includes a cranial plug housing having a window recess with an access hole. A window is shaped and dimensioned for positioning with the window recess of the cranial plug housing.

The biocompatible lattice structures disclosed herein with an increased or optimized lucency are prepared according to multiple methods of design disclosed herein. The methods allow for the design of a metallic material with sufficient strength for use in an implant and that remains radiolucent for x-ray imaging.

The present invention relates to a discal annular assistance device and the surgical instruments necessary for the insertion and removal thereof. This new device assists the annulus fibrosus following the exeresis of the nucleus pulposus of a lumbar intervertebral disc, to stop accelerated progression towards the discoligamentous instability of a vertebral unit operated on for a nucleus pulposus hernia.

A method for performing a cranioplasty includes the steps of prefabricating a sonolucent craniofacial implant based upon information generated by preoperative scans, creating a cranial, craniofacial, and/or facial defect, and attaching the craniofacial implant to the cranial, craniofacial, and/or facial defect. The craniofacial implant is composed of a material that is sonolucent and exhibits attenuation of less than 6 dB/cm.

Apparatuses, systems and methods such as a trial apparatus for selecting a position of a prosthetic head component on a humerus are disclosed. The trial apparatus can optionally include a body (36) and a thimble (38). The body can have a plurality of indicia (46) and can form a portion of a joint (37). The thimble can be couplable to the body via the joint. The thimble can be rotatable relative to the body via the joint and can include one or more indicia (62) for use with the plurality of indicia of the body. The thimble can be mountable to a prosthetic stem (30) implanted in the humerus.

Provided herein are cranial implant devices that include a cranial implant housing configured for subgaleal scalp implantation within, beneath, and/or over at least one cranial opening of a subject. The cranial implant housing comprises a substantially anatomically-compatible shape and is fabricated from one or more sonolucent materials that permit transmission of mechanical waves through the sonolucent materials when the cranial implant device is subgaleally implanted. The cranial implant housing also includes a pressure sensor operably connected to the cranial implant housing, which pressure sensor is configured to sense intracranial pressure (ICR). The cranial implant housing also includes at least a first controller operably connected to the pressure sensor, which first controller is configured to selectively effect the pressure sensor to sense the ICR within a cranium of the subject to generate ICP data and to transmit the ICP data to an ICP data receiver. In addition, the cranial implant housing also includes a power source operably connected or connectable at least to the first controller. Other aspects are directed to various related systems, computer readable media, and methods.

A method for performing a cranioplasty includes the steps of prefabricating a sonolucent craniofacial implant based upon information generated by preoperative scans, creating a cranial, craniofacial, and/or facial defect, and attaching the craniofacial implant to the cranial, craniofacial, and/or facial defect. The craniofacial implant is composed of a material that is sonolucent and exhibits attenuation of less than 6 dB/cm.

A method for performing a cranioplasty includes the steps of prefabricating a sonolucent craniofacial implant based upon information generated by preoperative scans, creating a cranial, craniofacial, and/or facial defect, and attaching the craniofacial implant to the cranial, craniofacial, and/or facial defect. The craniofacial implant is composed of a material that is sonolucent and exhibits attenuation of less than 6 dB/cm.

A cranial implant for access to a cerebral cortex includes a window member shaped and dimensioned for positioning within a dural defect to provide access through the dura such that access to the cerebral cortex is provided in a location under study. An implant body is provided having a geometry that substantially conforms to a resected portion of a patient's anatomy to which the implant body is to be secured.

A cranial implant for access to a cerebral cortex includes a window member shaped and dimensioned for positioning within a dural defect to provide access through the dura such that access to the cerebral cortex is provided in a location under study. An implant body is provided having a geometry that substantially conforms to a resected portion of a patient's anatomy to which the implant body is to be secured.