Abstract: A bone saw and a method for using the bone saw. The bone saw includes a saw blade comprising a distal end, a proximal end, and a distal tip comprising a cutting edge. The flexible saw blade is rectangular in shape over at least a portion thereof. The bone saw further includes a saw handle base insert a saw shaft tip assembly comprising an opening through which the flexible saw blade is advanced. The saw shaft tip assembly may comprise a saw shaft tip comprising a channel comprising a distal end and a proximal end and a saw channel insert disposed within the channel of the saw shaft tip to form a lumen between the saw shift tip and the saw channel insert. The bone saw may further comprise a saw blade advancement mechanism coupled to the flexible saw blade for moving the flexible saw blade in discrete amounts.

Abstract: An implant to separate a vertebral cut has an upper portion, lower portion, and inner member. The inner member communicates with a swivelable coupling located at each end of the inner member. Each swivelable coupling also interacts with a respective one of the upper and lower portion, within an inner bore thereof. Movement of the inner member relative to one or both of the upper and the lower portions, via one or both swivelable couplings, translates the upper portion away from the lower portion, about a vertebral cut, to widen the vertebral cut and expand the spinal canal. Swivelable action of the couplings allows angulation of the inner member, relative to a longitudinal axis of the implant, to accommodate a natural lateral shift occurring during a widening of a vertebral cut.

Abstract: A bone saw and a method for using the bone saw. The bone saw includes a saw blade comprising a distal end, a proximal end, and a distal tip comprising a cutting edge. The flexible saw blade is rectangular in shape over at least a portion thereof. The bone saw further includes a saw handle base insert a saw shaft tip assembly comprising an opening through which the flexible saw blade is advanced. The saw shaft tip assembly may comprise a saw shaft tip comprising a channel comprising a distal end and a proximal end and a saw channel insert disposed within the channel of the saw shaft tip to form a lumen between the saw shift tip and the saw channel insert. The bone saw may further comprise a saw blade advancement mechanism coupled to the flexible saw blade for moving the flexible saw blade in discrete amounts.

Abstract: Spinal canal expansion through pedicle lengthening in combination with spinal column stabilization, to treat spinal stenosis, spondylolisthesis, kyphosis, scoliosis or a major spinal rotational deformity, with or without a spinal fusion. A device or implant that includes a pedicle lengthening implant to decompress (expand) the spinal canal, and a bridge to connect two or more pedicle lengthening implants and/or pedicle screws or bone anchors to achieve simultaneous spinal stabilization across one or more vertebral segments. The bridge across the vertebral segments can include a longitudinal member, such as a plate or rod. The pedicle lengthening implant is originally made, or can be modified to, connect to the longitudinal member.

Abstract: A bone saw including a flexible, rectangular saw blade having a central longitudinal axis and a cutting edge at a distal tip, and a shaft. The shaft has a central longitudinal axis, and a blade passage within the shaft that houses the saw blade, where the central longitudinal axis of the saw blade, of the shaft, and of the blade passage, are parallel. Further included is a blade opening located through a distal end of the shaft and of the blade passage, the blade opening being perpendicular to the longitudinal axis of the shaft. Also, a curved abutment can exist within the blade passage, aligning the saw blade with the blade opening. Distally translating the saw blade within the blade passage can cause the saw blade to conform to the curved abutment and exit the blade opening with the cutting edge essentially perpendicular to the longitudinal axis of the shaft.

Abstract: A fixation device expands the spinal canal through osteotomies of the dorsal spinal elements (e.g lamina). Fixation is established to the dorsal vertebral elements (e.g. spinous process or lamina), with connection to a fixation device on each side of respective osteotomies. A distracting mechanism dorsally translates the fixated dorsal vertebral elements to expand the spinal canal. The fixation device allows secure fixation of the vertebra in the expanded state to promote bony healing across the osteotomy site. The fixation device can include a dorsal vertebral device (e.g., a transosseous fixation member placed through the spinous process) connected to a vertebral fixation device (e.g., bone screw or rod) by a connecting device with distracting mechanism. The connecting device spans the respective osteotomy, includes the distracting mechanism, and translates (lifts) the dorsal vertebral device from the vertebral fixation device in a dorsal direction to promote spinal canal expansion.

Abstract: Expanding a spinal canal by drilling a cylindrical passage in each pedicle of a vertebra, making a circumferential pedicle cut (osteotomy) through each pedicle from within the passage, separating each pedicle cut by inserting an implant into the passage to distract the pedicle cut (i.e., lengthen the pedicle) to expand the spinal canal, and securing each pedicle cut, allowing the vertebra to heal with the spinal canal expanded. The implant can include an outer sleeve, an inner bolt, and expandable flanges. The outer sleeve includes an upper and a lower portion, with the expandable flanges therein. Rotation of the inner bolt causes the upper and lower portions of the outer sleeve to separate, causing the pedicle cut to widen and the expandable flanges to radially extend into and stabilize the widened pedicle cut for expansion of the spinal canal.

Abstract: Expanding a spinal canal by drilling a cylindrical passage in each pedicle of a vertebra, making a circumferential pedicle cut (osteotomy) through each pedicle from within the passage, separating each pedicle cut by inserting an implant into the passage to distract the pedicle cut (i.e., lengthen the pedicle) to expand the spinal canal, and securing each pedicle cut, allowing the vertebra to heal with the spinal canal expanded. The implant can include an outer sleeve, an inner bolt, and expandable flanges. The outer sleeve includes an upper and a lower portion, with the expandable flanges therein. Rotation of the inner bolt causes the upper and lower portions of the outer sleeve to separate, causing the pedicle cut to widen and the expandable flanges to radially extend into and stabilize the widened pedicle cut for expansion of the spinal canal.

Abstract: A fixation device expands the spinal canal through osteotomies of the dorsal spinal elements (e.g lamina) Fixation is established to the dorsal vertebral elements (e.g. spinous process or lamina), with connection to a fixation device on each side of respective osteotomies. A distracting mechanism dorsally translates the fixated dorsal vertebral elements to expand the spinal canal. The fixation device allows secure fixation of the vertebra in the expanded state to promote bony healing across the osteotomy site. The fixation device can include a dorsal vertebral device (e.g., a transosseous fixation member placed through the spinous process) connected to a vertebral fixation device (e.g., bone screw or rod) by a connecting device with distracting mechanism. The connecting device spans the respective osteotomy, includes the distracting mechanism, and translates (lifts) the dorsal vertebral device from the vertebral fixation device in a dorsal direction to promote spinal canal expansion.

Abstract: Spinal canal expansion through pedicle lengthening in combination with spinal column stabilization, to treat spinal stenosis, spondylolisthesis, kyphosis, scoliosis or a major spinal rotational deformity, with or without a spinal fusion. A device or implant that includes a pedicle lengthening implant to decompress (expand) the spinal canal, and a bridge to connect two or more pedicle lengthening implants and/or pedicle screws or bone anchors to achieve simultaneous spinal stabilization across one or more vertebral segments. The bridge across the vertebral segments can include a longitudinal member, such as a plate or rod. The pedicle lengthening implant is originally made, or can be modified to, connect to the longitudinal member.

Abstract: The present invention expands a spinal canal by drilling a cylindrical passage in each pedicle of a vertebra, making a circumferential pedicle cut (osteotomy) through each pedicle from within the passage, separating each pedicle cut by inserting an implant into the passage which distracts the pedicle cut to expand the spinal canal, and securing each pedicle cut, allowing the vertebra to heal with the spinal canal expanded. The implant includes an outer sleeve, an inner bolt, and expandable flanges. The outer sleeve includes an upper portion and a lower portion, with the expandable flanges connected to the lower portion and housed within the upper portion. Rotation of the inner bolt causes the upper and lower portions of the outer sleeve to separate, causing the pedicle cut to widen and the expandable flanges to radially extend into and stabilize the widened pedicle cut to effectuate expansion of the spinal canal.

Abstract: A method for correcting spinal stenosis involves cannulating a passage in a vertebra, and placing a distal portion of an implant therein. Then, a circumferential vertebral cut is performed from within the passage, using a proximal end of the distal portion of the implant to align the vertebral cut. Then, a proximal portion of the implant is placed into the passage, positioned against the distal portion at the vertebral cut. Operation of the distal and the proximal portions of the implant relative to one another widens the vertebral cut and expands the spinal canal. The proximal portion can then be secured to the distal portion to stabilize the vertebral cut, allowing vertebral healing with the spinal canal expanded. Flanges may exist that radially extend outward from the implant and into the vertebral cut, or into the passage walls, to assist vertebral cut widening and stabilization.

Abstract: The present invention expands a spinal canal by drilling a cylindrical passage in each pedicle of a vertebra, making a circumferential pedicle cut (osteotomy) through each pedicle from within the passage, separating each pedicle cut by inserting an implant into the passage which distracts the pedicle cut to expand the spinal canal, and securing each pedicle cut, allowing the vertebra to heal with the spinal canal expanded. The implant includes an outer sleeve, an inner bolt, and expandable flanges. The outer sleeve includes an upper portion and a lower portion, with the expandable flanges connected to the lower portion and housed within the upper portion. Rotation of the inner bolt causes the upper and lower portions of the outer sleeve to separate, causing the pedicle cut to widen and the expandable flanges to radially extend into and stabilize the widened pedicle cut to effectuate expansion of the spinal canal.

Abstract: The present invention expands a spinal canal by drilling a cylindrical passage in each pedicle of a vertebra, making a circumferential pedicle cut (osteotomy) through each pedicle from within the passage, separating each pedicle cut by inserting an implant into the passage which distracts the pedicle cut to expand the spinal canal, and securing each pedicle cut, allowing the vertebra to heal with the spinal canal expanded. The implant includes an outer sleeve, an inner bolt, and expandable flanges. The outer sleeve includes an upper portion and a lower portion, with the expandable flanges connected to the lower portion and housed within the upper portion. Rotation of the inner bolt causes the upper and lower portions of the outer sleeve to separate, causing the pedicle cut to widen and the expandable flanges to radially extend into and stabilize the widened pedicle cut to effectuate expansion of the spinal canal.

Abstract: The present invention expands a spinal canal by making two pedicle cuts (osteotomies) in a vertebra, separating each vertebral cut by inserting an implant into the cut which expands the spinal canal, and securing each separated vertebral cut allowing the vertebra to heal with the spinal canal expanded. The implant includes two stents, two washers, two screws and a cable. One stent is impacted into each pedicle cut in the vertebra. One screw is inserted through one washer and one stent and is threaded into an anterior portion of the vertebra for each pedicle cut in the vertebra. The cable is attached at each end to a washer and is strapped around and through a posterior portion of the vertebra to secure the posterior portion of the vertebra to the anterior portion of the vertebra, stabilizing the expanded spinal canal and allowing the vertebra to heal with the spinal canal expanded.