An expandable intervertebral fusion implant, including an inferior component, including a first top surface, a first bottom surface, a first end, a second end, and a first hole including a first portion and a second portion, a superior component, including a second top surface, a second bottom surface, a third end, and a fourth end, and an expansion mechanism including a flexible shaft arranged in the first hole, the flexible shaft including a fifth end, a sixth end connected to the first bottom surface, and a first plurality of teeth.

An implant is disclosed. The implant has a base including an extension arm cavity and a ratchet block cavity that intersects the extension arm cavity, an extension arm that is movably disposed in the extension arm cavity, and a ratchet block that is movably disposed between a first position and a second position in the ratchet block cavity. The ratchet block when disposed in the first position allows movement of the extension arm in an upward direction out of the extension arm cavity and blocks movement of the extension arm in a downward direction into the extension arm cavity. The ratchet block when disposed in the second position allows movement of the extension arm both in the upward direction out of the extension arm cavity and the downward direction into the extension arm cavity.

An implant is disclosed. The implant has a base including an extension arm cavity and a ratchet block cavity that intersects the extension arm cavity, an extension arm that is movably disposed in the extension arm cavity, and a ratchet block that is movably disposed between a first position and a second position in the ratchet block cavity. The ratchet block when disposed in the first position allows movement of the extension arm in an upward direction out of the extension arm cavity and blocks movement of the extension arm in a downward direction into the extension arm cavity. The ratchet block when disposed in the second position allows movement of the extension arm both in the upward direction out of the extension arm cavity and the downward direction into the extension arm cavity.

An expandable intervertebral fusion implant, including a base, an inferior component arranged on a first side of the base, a superior component arranged on a second side of the base, opposite the first side, a first worm rotatably arranged in the base and including a through-hole, a second worm rotatably arranged in the base, the second worm concentrically aligned with and spaced apart from the first worm, and an expansion mechanism, including a first screw extending between the base and the superior component, and a second screw non-rotatably connected to the first screw and extending between the base and the inferior component wherein as the first worm is rotated in a first circumferential direction, the first screw and the second screw rotate in a second circumferential direction and the inferior component and the superior component are displaced relative to the base.

A steerable expandable implant having a lower support member and an upper support member, the upper support member movable relative to the lower support member between a collapsed position and an expanded position. The implant also includes a first control member coupled to the lower support member, where manipulation of the first control member causes the lower support member to move relative to the upper support member. The implant further includes a pivot member configured to receive a tool, the tool and the pivot member rotatable relative to the lower support member between a first position and a second position, where the pivot member includes an aperture and an axis of the aperture is angularly offset from an axis of the first control member in the first position and the axis of the aperture is angularly aligned with the axis of the first control member in the second position.

A unibody implant movable between an expanded position and a contracted position is disclosed. The implant may include a unitary expandable body defined by an inferior portion, a superior portion, and a medial portion that are connected together. The unibody implant may include a first set screw and a second set screw rotatably supported by the body. The first set screw may have a first inclined surface facing a proximal side and the second set screw may have a second inclined surface facing a distal side. The medial portion may include a first inclined ramp and the superior portion may include a second inclined ramp. Movement of the first set screw towards the proximal side urges the first inclined surface against the first inclined ramp and movement of the second set screw towards the distal side urges the second inclined surface against the second inclined ramp.

An expandable implant is disclosed. The expandable implant includes a base member having a top surface and a bottom surface opposite the top surface, and an adjustable member adjustably coupled to the base member and movable between a first, collapsed position, and a second, expanded position. The adjustable member has a top surface and a bottom surface opposite the top surface. The top surface of the adjustable member and the bottom surface of the base member form a first angle while the adjustable member is in the first, collapsed position, and the top surface of the adjustable member and the bottom surface of the base member form a second angle while the adjustable member is in the second, expanded position. The first angle is different from the second angle.

A joint spacer has first and second endplates, with each having a bone engaging surface, and at least two cams with an inclined cam surface positioned on an opposite side. First and second slides, each having ramps with an inclined surface are engaged with the cams of the endplate. The first slide has an angled portion at an end, and the second slide has a hinge portion. A threaded shaft has a hinge portion connected to the slide hinge portion, connecting the shaft to the slide, enabling the shaft to pivot. A nut is threaded to the shaft, and can contact and interfere with the angled portion of the first slide to drive the first slide with respect to the second slide. This results in engagement of the cams and ramps to drive the endplates apart to increase the spacer height.

An expandable implant includes an upper plate configured to receive a first anchoring member, an upper support mechanically coupled to the upper plate, a lower plate configured to receive a second anchoring member, and a lower support mechanically coupled to the lower plate. The implant further includes a control member including a shaft and configured to control movement between the upper support and the lower support, a front portion configured engage the upper support and the lower support and further configured to receive the head of the control member, and a rear portion configured engage the upper support and the lower support and further configured to engage a portion of the shaft, wherein turning the control member causes the front portion to move in a direction towards the rear portion, such that the upper support moves relative to the lower support in a direction away from the lower support.

An interbody fusion device including a body member, at least one side member engaging the body member, and at least one movement mechanism that engages at least one side member and the body member. A surgical method for maintaining a space between two vertebral bodies in a spine, including the steps of obtaining a medical device, such as an interbody fusion device, and inserting and coupling an expansion tool into an opening within the medical device. The surgical method also including slidingly inserting the medical device into a space between two vertebral bodies and rotating the expansion tool to move the at least one side member in a direction relative to the body member. The method may further include detaching the expansion tool from the medical device and removing the tool from the space between the two vertebral bodies in the spine.