Abstract: An intervertebral spinal spacer that can include a substantially annular body that can include an upper surface, a lower surface, an outer surface, and an inner surface. The inner surface of the substantially annular body can define an internal cavity. The annular body can include a plurality of outer apertures and a plurality of inner apertures connected by a plurality of fluid passages that can draw fluid into the internal cavity.

Abstract: An intervertebral spinal spacer that can include a substantially annular body that can include an upper surface, a lower surface, an outer surface, and an inner surface. The inner surface of the substantially annular body can define an internal cavity. The annular body can include a plurality of outer apertures and a plurality of inner apertures connected by a plurality of fluid passages that can draw fluid into the internal cavity.

Abstract: An intervertebral spinal spacer that can include a substantially annular body that can include an upper surface, a lower surface, an outer surface, and an inner surface. The inner surface of the substantially annular body can define an internal cavity. The annular body can include a plurality of outer apertures and a plurality of inner apertures connected by a plurality of fluid passages that can draw fluid into the internal cavity.

Abstract: An intervertebral spinal spacer that can include a substantially annular body that can include an upper surface, a lower surface, an outer surface, and an inner surface. The inner surface of the substantially annular body can define an internal cavity. The annular body can include a plurality of outer apertures and a plurality of inner apertures connected by a plurality of fluid passages that can draw fluid into the internal cavity.

Abstract: A percutaneous surgical device and method for creating a cavity within tissue during a minimally invasive procedure. A cavitation device includes a shaft interconnected to a flexible cutting element. A flexible cutting element has a first shape suitable for minimally invasive passage into tissue. The flexible cutting element has a means to move toward a second shape suitable for forming a cavity in tissue. When used in bone, the resulting cavity is usually filled with bone cement or suitable bone replacement material that is injectable and hardens in situ. The disclosed cavitation device and methods can be used for the following applications: (1) treatment or prevention of bone fracture, (2) joint fusion, (3) implant fixation, (4) tissue harvesting (especially bone), (5) removal of diseased tissue (hard or soft tissue), and (6) general tissue removal (hard or soft tissue).

Abstract: An intervertebral spinal spacer that can include a substantially annular body that can include an upper surface, a lower surface, an outer surface, and an inner surface. The inner surface of the substantially annular body can define an internal cavity. The annular body can include a plurality of outer apertures and a plurality of inner apertures connected by a plurality of fluid passages that can draw fluid into the internal cavity.

Abstract: Instruments and methods for reducing and stabilizing bone fractures are presented, which include providing a cavity in bone, such as a vertebra, wherein the cavity is proximate to an endplate of the bone, such as a vertebra endplate, and wherein the cavity extends radially from a passage into the cavity. The methods further include providing a device, such as an inflatable device, into the cavity and manipulating the device for expansion. The cavity may be expanded thereby reducing and/or stabilizing the fracture. The fracture may be further reduced and/or stabilized by adding a material into the cavity.

Abstract: Instruments and methods for reducing and stabilizing bone fractures are presented, which include providing a cavity in bone, such as a vertebra, wherein the cavity is proximate to an endplate of the bone, such as a vertebra endplate, and wherein the cavity extends radially from a passage into the cavity. The methods further include providing a device, such as an inflatable device, into the cavity and manipulating the device for expansion. The cavity may be expanded thereby reducing and/or stabilizing the fracture. The fracture may be further reduced and/or stabilized by adding a material into the cavity.

Abstract: Instruments and methods for reducing and stabilizing bone fractures are presented. One method provides for cutting a portion of a bone having a fracture to create a cavity, wherein the cavity is substantially axisymmetric, and expanding the volume of the cavity thereby reducing the fracture. The fracture may be further reduced and/or stabilized by adding a material, such as an implant, in-situ curable material and/or in-situ hardenable material.

Abstract: An artificial intervertebral disc for at least partially replacing a diseased or damaged intervertebral disc. The artificial disc includes a concave-convex articulating surface. The artificial disc can be used in the cervical region of the spine, where a concave-convex articulating surface is advantageous for improved anatomical fit and region appropriate kinematics. The artificial disc of the present invention also includes an anchor for attachment to bone.

Abstract: An orthopaedic implant fixation using a surgically created bone cavity as a mold for forming an anchor from an in-situ hardenable material. An in-situ formed anchor of the present invention is especially useful for attaching an implant to osteoporotic cancellous bone. The injectable nature of the in-situ formed anchor allows implants to be adapted to minimally invasive surgical techniques. The present invention can be adapted to numerous implants or implant system components to include fasteners, pins, nails, intramedullary nails, and suture anchors. Applications include bone fracture fixation, bone fracture prevention, and soft-tissue repair.

Abstract: An orthopaedic implant fixation using a surgically created bone cavity as a mold for forming an anchor from an in-situ hardenable material. An in-situ formed anchor of the present invention is especially useful for attaching an implant to osteoporotic cancellous bone. The injectable nature of the in-situ formed anchor allows implants to be adapted to minimally invasive surgical techniques. The present invention can be adapted to numerous implants or implant system components to include fasteners, pins, nails, intramedullary nails, and suture anchors. Applications include bone fracture fixation, bone fracture prevention, and soft-tissue repair.

Abstract: A percutaneous surgical device and method for creating a cavity within tissue during a minimally invasive procedure. A cavitation device includes a shaft interconnected to a flexible cutting element. A flexible cutting element has a first shape suitable for minimally invasive passage into tissue. The flexible cutting element has a means to move toward a second shape suitable for forming a cavity in tissue. When used in bone, the resulting cavity is usually filled with bone cement or suitable bone replacement material that is injectable and hardens in situ. The disclosed cavitation device and methods can be used for the following applications: (1) treatment or prevention of bone fracture, (2) joint fusion, (3) implant fixation, (4) tissue harvesting (especially bone), (5) removal of diseased tissue (hard or soft tissue), and (6) general tissue removal (hard or soft tissue).

Abstract: An intervertebral prosthesis includes a disc member dimensioned for insertion within an intervertebral space between adjacent vertebrae to replace at least a portion of an intervertebral disc removed therefrom. The disc member has sufficient rigidity to support the adjacent vertebrae in spaced relation, and defines a longitudinal axis extending the height of the disc member and a lateral axis transverse to the longitudinal axis. The disc member includes an exterior wall which has a slit defined therein. The slit defines a longitudinal component of direction and a lateral component of direction. Preferably, the exterior wall includes a plurality of helical slits, adjacent slits being disposed in at least partial overlapping relation to define an overlapping region.

Abstract: A percutaneous surgical device and method for creating a cavity within tissue during a minimally invasive procedure. A cavitation device includes a shaft interconnected to a flexible cutting element. A flexible cutting element has a first shape suitable for minimally invasive passage into tissue. The flexible cutting element has a means to move toward a second shape suitable for forming a cavity in tissue. When used in bone, the resulting cavity is usually filled with bone cement or suitable bone replacement material that is injectable and hardens in situ. The disclosed cavitation device and methods can be used for the following applications: (1) treatment or prevention of bone fracture, (2) joint fusion, (3) implant fixation, (4) tissue harvesting (especially bone), (5) removal of diseased tissue (hard or soft tissue), and (6) general tissue removal (hard or soft tissue).

Abstract: An intervertebral prosthesis includes a disc member dimensioned for insertion within an intervertebral space between adjacent vertebrae to replace at least a portion of an intervertebral disc removed therefrom. The disc member has sufficient rigidity to support the adjacent vertebrae in spaced relation, and defines a longitudinal axis extending the height of the disc member and a lateral axis transverse to the longitudinal axis. The disc member includes an exterior wall which has a slit defined therein. The slit defines a longitudinal component of direction and a lateral component of direction. Preferably, the exterior wall includes a plurality of helical slits, adjacent slits being disposed in at least partial overlapping relation to define an overlapping region.

Abstract: An orthopaedic implant fixation using a surgically created bone cavity as a mold for forming an anchor from an in-situ hardenable material. An in-situ formed anchor of the present invention is especially useful for attaching an implant to osteoporotic cancellous bone. The injectable nature of the in-situ formed anchor allows implants to be adapted to minimally invasive surgical techniques. The present invention can be adapted to numerous implants or implant system components to include fasteners, pins, nails, intramedullary nails, and suture anchors. Applications include bone fracture fixation, bone fracture prevention, and soft-tissue repair.

Abstract: A percutaneous surgical device and method for creating a cavity within tissue during a minimally invasive procedure. A cavitation device includes a shaft interconnected to a flexible cutting element. A flexible cutting element has a first shape suitable for minimally invasive passage into tissue. The flexible cutting element has a means to move toward a second shape suitable for forming a cavity in tissue. When used in bone, the resulting cavity is usually filled with bone cement or suitable bone replacement material that is injectable and hardens in situ. The disclosed cavitation device and methods can be used for the following applications: (1) treatment or prevention of bone fracture, (2) joint fusion, (3) implant fixation, (4) tissue harvesting (especially bone), (5) removal of diseased tissue (hard or soft tissue), and (6) general tissue removal (hard or soft tissue).

Abstract: An intervertebral prosthesis includes a disc member dimensioned for insertion within an intervertebral space between adjacent vertebrae to replace at least a portion of an intervertebral disc removed therefrom. The disc member has sufficient rigidity to support the adjacent vertebrae in spaced relation, and defines a longitudinal axis extending the height of the disc member and a lateral axis transverse to the longitudinal axis. The disc member includes an exterior wall which has a slit defined therein. The slit defines a longitudinal component of direction and a lateral component of direction. Preferably, the exterior wall includes a plurality of helical slits, adjacent slits being disposed in at least partial overlapping relation to define an overlapping region.

Abstract: An intervertebral prosthesis dimensioned for insertion within an intervertebral space between adjacent vertebrae to replace at least a portion of an intervertebral disc removed therefrom, includes a disc member having sufficient rigidity to support the adjacent vertebrae in spaced relation. The disc member defines a longitudinal axis and a lateral axis transverse to the longitudinal axis. The disc member includes an exterior wall portion having a first slit with a longitudinal component of direction and a second slit with a lateral component of direction. The first and second slits are dimensioned to extend sufficiently within the exterior wall portion and are arranged relative to the longitudinal axis whereby upon insertion of the disc member within the intervertebral space forces exerted on the disc member are transferred along the exterior wall portion as facilitated by the slit arrangement.