WO2012134980A2 - Interbody device insertion systems and methods - Google Patents
Interbody device insertion systems and methods Download PDFInfo
- Publication number
- WO2012134980A2 WO2012134980A2 PCT/US2012/030248 US2012030248W WO2012134980A2 WO 2012134980 A2 WO2012134980 A2 WO 2012134980A2 US 2012030248 W US2012030248 W US 2012030248W WO 2012134980 A2 WO2012134980 A2 WO 2012134980A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- guide
- elongated body
- implant
- during use
- disc space
- Prior art date
Links
Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
- A61F2/02—Prostheses implantable into the body
- A61F2/30—Joints
- A61F2/44—Joints for the spine, e.g. vertebrae, spinal discs
- A61F2/442—Intervertebral or spinal discs, e.g. resilient
- A61F2/4425—Intervertebral or spinal discs, e.g. resilient made of articulated components
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- A—HUMAN NECESSITIES
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- A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
- A61F2/02—Prostheses implantable into the body
- A61F2/30—Joints
- A61F2/44—Joints for the spine, e.g. vertebrae, spinal discs
- A61F2/4405—Joints for the spine, e.g. vertebrae, spinal discs for apophyseal or facet joints, i.e. between adjacent spinous or transverse processes
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- A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
- A61F2/02—Prostheses implantable into the body
- A61F2/30—Joints
- A61F2/46—Special tools or methods for implanting or extracting artificial joints, accessories, bone grafts or substitutes, or particular adaptations therefor
- A61F2/4603—Special tools or methods for implanting or extracting artificial joints, accessories, bone grafts or substitutes, or particular adaptations therefor for insertion or extraction of endoprosthetic joints or of accessories thereof
- A61F2/4611—Special tools or methods for implanting or extracting artificial joints, accessories, bone grafts or substitutes, or particular adaptations therefor for insertion or extraction of endoprosthetic joints or of accessories thereof of spinal prostheses
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- A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
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- A—HUMAN NECESSITIES
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/56—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
- A61B17/58—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
- A61B17/68—Internal fixation devices, including fasteners and spinal fixators, even if a part thereof projects from the skin
- A61B17/70—Spinal positioners or stabilisers ; Bone stabilisers comprising fluid filler in an implant
- A61B17/7001—Screws or hooks combined with longitudinal elements which do not contact vertebrae
- A61B17/7002—Longitudinal elements, e.g. rods
- A61B17/7019—Longitudinal elements having flexible parts, or parts connected together, such that after implantation the elements can move relative to each other
- A61B17/702—Longitudinal elements having flexible parts, or parts connected together, such that after implantation the elements can move relative to each other having a core or insert, and a sleeve, whereby a screw or hook can move along the core or in the sleeve
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- A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
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- A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
- A61F2/02—Prostheses implantable into the body
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- A61F2002/30329—Connections or couplings between prosthetic parts, e.g. between modular parts; Connecting elements
- A61F2002/30383—Connections or couplings between prosthetic parts, e.g. between modular parts; Connecting elements made by laterally inserting a protrusion, e.g. a rib into a complementarily-shaped groove
- A61F2002/30387—Dovetail connection
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Definitions
- Embodiments of the invention generally relate to functional spinal implant assemblies for insertion into an intervertebral space between adjacent vertebrae of a human spine. More specifically, embodiments relate to methods of using and installing interbody devices.
- the human spine is a complex mechanical structure including alternating bony vertebrae and fibrocartilaginous discs that are connected by strong ligaments and supported by musculature that extends from the skull to the pelvis and provides axial support to the body.
- the intervertebral discs provide mechanical cushion between adjacent vertebral segments of the spinal column and generally include two basic components: the nucleus pulposus and the annulus fibrosis.
- the intervertebral discs are positioned between two vertebral end plates.
- the annulus fibrosis forms the perimeter of the disc and is a tough outer ring that binds adjacent vertebrae together.
- the end plates are made of thin cartilage overlying a thin layer of hard cortical bone that attaches to the spongy, cancellous bone of a vertebra.
- the vertebrae generally include a vertebral foramen bounded by the anterior vertebral body and the neural arch, which consists of two pedicles that are united posteriorly by the laminae.
- the spinous and transverse processes protrude from the neural arch.
- the superior and inferior articular facets lie at the root of the transverse process.
- the spine is a flexible structure capable of a high degree of curvature and twist in nearly every direction.
- the motion segment or functional spinal unit is the basic motion unit of the lumbar spine.
- the anterior elements of the FSU include the vertebral bodies, the intervertebral disc, and the connecting soft tissues and ligaments.
- the posterior elements of the FSU include the bony ring created by the pedicles and lamina, the facet joints, and the connecting soft tissues and ligaments. The facet joints are located on both sides at the junction of superior and inferior bony projections of the posterior elements.
- the total motion of the spine results from the cumulative motion of the individual FSUs.
- Each motion segment allows rotational motion in three directions (flexion-extension, lateral bending, and axial rotation) and translational motion in three directions (anterior-posterior, medial-lateral, and superior-inferior).
- the available motion is primarily governed by the intervertebral disc, facet joints, and ligaments. Typical maximum amounts of lumbar rotation are up to about 17° of flexion-extension, 6° of lateral bending, and 3° of axial rotation. Moderate motions of the spine during everyday living may result in less than 10° of flexion-extension.
- the motion segment moment-rotation curve is the rotational response of the FSU due to loading away from the center of rotation.
- the moment- rotation curves are non-linear with an initial low stiffness region, followed by a higher stiffness region.
- the initial region of high flexibility, where spinal motion is produced with less resistance to bending moments, is typically referred to as the neutral zone.
- the neutral zone ranges from 10-50% of the total range of motion.
- the stiffness (Nm/deg) in the neutral zone is about 10-30% of the high stiffness region. Alterations to the FSU caused by surgical intervention, degeneration, acute injury, or other factors are thought to change this non-linear behavior.
- an intervertebral disc or a portion of the intervertebral disc, may be removed from the human spine during a discectomy.
- one or more non-dynamic intervertebral devices may be placed in the disc space to fuse or promote fusion of the adjacent vertebrae.
- fusion may be combined with posterior fixation to address intervertebral disc and/or facet problems.
- the fusion procedure e.g., posterior lumbar interbody fusion
- the posterior fixation and nondynamic intervertebral devices may cooperate to inhibit motion and promote bone healing. Fusing two vertebrae together results in some loss of motion. Fusing two vertebrae together may also result in the placement of additional stress on one or more adjacent functional spinal units. The additional stress may cause deterioration of an adjacent functional spinal unit that may result in the need for an additional surgical procedure or procedures.
- a dynamic intervertebral device may be placed in the disc space.
- the DID may allow for movement of adjacent vertebrae coupled to the DID relative to each other.
- U.S. Patent No. 4,863,477 to Monson which is incorporated herein by reference, discloses a resilient dynamic device intended to replace the resilience of a natural human spinal disc.
- U.S. Patent No. 5, 192,326 to Bao et al which is incorporated herein by reference, describes a prosthetic nucleus for replacing just the nucleus portion of a human spinal disc.
- An intervertebral device may be positioned between vertebrae using a posterior approach, an anterior approach, a lateral approach, or other type of approach.
- a challenge of positioning a device between adjacent vertebrae using a posterior approach is that a device large enough to contact the end plates and slightly expand the space must be inserted through a limited space.
- the anterior approach poses significant challenges as well. Though the surgeon may gain very wide access to the interbody space from the anterior approach, this approach has its own set of complications and limitations.
- the retroperitoneal approach usually requires the assistance of a surgeon skilled in dealing with the visceral contents and the great vessels. The spine surgeon has limited access to the nerve roots and little or no ability to access or replace the facet joints. Complications of the anterior approach that are approach specific include retrograde ejaculation, ureteral injury, and great vessel injury. Injury to the great vessels may result in massive blood loss, postoperative venous stasis, limb loss, or death.
- the anterior approach is often more difficult in patients with significant obesity and may be virtually impossible in the face of previous retroperitoneal surgery.
- the anterior approach does allow for the wide exposure needed to place a large device.
- the anterior longitudinal ligament In accessing the spine anteriorly, one of the major structural ligaments, the anterior longitudinal ligament, must be completely divided. A large amount of anterior annulus must also be removed along with the entire nucleus. Once these structures have been resected, the vertebral bodies may need to be over distracted to place the device within the disc space and restore disc space height. Failure to adequately tension the posterior annulus and ligaments increases the risk of device failure and/or migration. Yet in the process of placing these devices, the ligaments are overstretched while the devices are forced into the disc space under tension. Over distraction can damage the ligaments and the nerve roots.
- the anterior disc replacement devices currently available or in clinical trials may be too large to be placed posteriorly, and may require over distraction during insertion to allow the ligaments to hold them in position.
- a facet joint or facet joints of a functional spinal unit may be subjected to deterioration, disease or trauma that requires surgical intervention.
- Disc degeneration is often coupled with facet degeneration, so that disc replacement only may not be sufficient treatment for a large group of patients.
- Facet degeneration may be addressed using a posterior approach.
- a second surgical approach may be required if the disc degeneration is treated using an anterior approach.
- the need to address facet degeneration has led to the development of facet replacement devices.
- Some facet replacement devices are shown in U.S. Patent Nos. 6,419,703 to Fallin et al; 6,902,580 to Fallin et al.; 6,610,091 to Reiley; 6,811,567 to Reiley; and 6,974,478 to Reiley et al, each of which is incorporated herein by reference.
- the facet replacement devices may be used in conjunction with anterior disc replacement devices, but the facet replacement devices are usually not designed to provide a common center of rotation with the anterior disc replacement devices.
- the use of an anterior disc replacement device that has a fixed center of rotation contrary to the fixed center of rotation of the facet replacement device may restrict or diminish motion and be counterproductive to the intent of the operation.
- posterior fixation system may be coupled to the spine.
- posterior fixation systems may be coupled to each side of the spine.
- the posterior fixation systems may include elongated members that are coupled to vertebrae by fasteners (e.g., hooks and screws).
- fasteners e.g., hooks and screws.
- One or more transverse connectors may be connected to the posterior fixation systems to join and stabilize the posterior fixation systems.
- a dynamic interbody device or devices may be used in conjunction with one or more dynamic posterior stabilization systems.
- a method of implanting an interbody device into a disc space located between a first and second vertebra including inserting a base plate of a first implant trial into the disc space.
- the method further includes inserting a base plate of a second implant trial into the disc space, wherein the second implant trial is coupled to the first implant trial to position the base plate of the first implant trial relative to the base plate of the second implant trial.
- the method still further includes inserting one or more dilators into the disc space proximate the base plates of the first or second implant trials to distract the first and second vertebrae.
- the method still further includes removing the base plate of the first implant trial and the dilators from the disc space.
- the method still further includes inserting the interbody device into the disc space in substantially the same position as the base plate of the first implant trial.
- a method of implanting interbody devices into a disc space located between a first and second vertebra including inserting a base plate of a first implant trial to a selected location at least partially within the disc space, the first implant trial including an elongated body and a base plate coupled to the elongated body.
- the selected location includes a selected angle with respect to the sagittal plane of the vertebra.
- the method further includes inserting a first dilator between the base plate of the first implant trial and the first or second vertebra to distract the vertebrae.
- the method still further includes coupling a first guide member of a guide frame to the elongated body of the first implant trial, the guide frame further including a second guide member.
- the first and second guide members of the guide frame are rigidly coupled and positioned at a selected convergent angle relative to one another.
- the method still further includes coupling an elongated body of a second implant trial to the second guide member such that a base plate of the second implant trial is inserted at least partially within the disc space, and such that at least a portion of the base plate of the second implant trial abuts a portion of the base plate of the first implant trial.
- the method still further includes inserting a second dilator between the base plate of the second implant trial and the first or second vertebra to distract the vertebrae.
- the method still further includes removing the base plate of the first implant trial and the first dilator from the disc space and uncoupling the elongated body of the first implant trial from the first guide member.
- the method still further includes, coupling an elongated body of a first insertion instrument to the first guide member such that a first interbody device is inserted at least partially within the disc space in substantially the same position as the base plate of the first implant trial, the first insertion instrument including the elongated body and an insertion member coupled to the elongated body, wherein the insertion member is releasably coupled to the first interbody device.
- the first interbody device is positioned within the disc space at a selected angle with respect to the sagittal plane of the vertebra.
- the method still further includes, removing the base plate of the second implant trial and the second dilator from the disc space and uncoupling the elongated body of the second implant trial from the second guide member.
- the method still further includes, coupling an elongated body of a second insertion instrument to the second guide member such that a second interbody device is inserted at least partially within the disc space in substantially the same position as the base plate of the second implant trial, the second insertion instrument including an elongated body and an insertion member coupled to the elongated body, wherein the insertion member is releasably coupled to the second interbody device. At least a portion of the second interbody device is located at or near the first interbody device.
- the method still further includes, uncoupling the first interbody device from the insertion member of the first insertion instrument.
- the method still further includes, uncoupling the second interbody device from the insertion member of the second insertion instrument.
- a system for implanting an interbody device into a disc space located between a first and second vertebra including a guide frame, the guide frame including a guide member having an opening.
- the system further includes an implant trial including an elongated body and a base plate coupled to the elongated body.
- the elongated body of the implant trial is releasably coupled to the guide member of the guide frame during use such that the opening guides longitudinal movement of the implant trial relative to the guide frame.
- the system still further includes a dilator operatively coupled to the elongated body during use for distracting the disc space.
- the system still further includes an insertion instrument including an elongated body and an insertion member coupled to the elongated body.
- the elongated body of the insertion instrument is releasably coupled to the guide member of the guide frame during use such that the opening guides longitudinal movement of the insertion instrument relative to the guide frame.
- the insertion member is releasably coupled to at least a portion of the interbody device during use.
- a system for implanting interbody devices into a disc space located between a first and second vertebra including a guide frame, the guide frame including a first guide member having a first opening and a second guide member have a second opening.
- the system further includes first and second implant trials each including an elongated body and a base plate coupled to the elongated body.
- the elongated bodies of the first and second implant trials are releasably coupled to the first and second guide members of the guide frame respectively during use such that the openings of the first and second guide members of the guide frame guide longitudinal movement of the first and second implant trials respectively relative to the guide frame.
- the system still further includes a dilator operatively coupled to the elongated body of the first or second implant trial during use for distracting the disc space.
- the system still further includes, first and second insertion instruments each including an elongated body and an insertion member coupled to the elongated body.
- the elongated bodies of the first and second insertion instruments are releasably coupled to the first and second guide members of the guide frame respectively during use such that the openings of the first and second guide members of the guide frame guide longitudinal movement of the first and second insertion instruments respectively relative to the guide frame.
- the insertion members of the first and second insertion instruments are each releasably coupled to complementary interbody devices during use.
- a system for implanting an interbody device into a disc space located between a first and second vertebra including a guide frame, the guide frame including an insertion bridge and first and second guide members.
- the first and second guide members of the guide frame are rigidly coupled to the insertion bridge and positioned at a convergent angle relative to one another during use.
- the first and second guide members of the guide frame each include an opening, the openings including a channel with a lateral opening.
- the first and second guide members of the guide frame each include at least a first portion of a locking mechanism.
- the system further includes first and second implant trials each including an elongated body and a base plate coupled to the elongated body.
- the elongated bodies of the first and second implant trials are releasably coupled to the first and second guide members of the guide frame respectively during use such that the respective openings of the first and second guide members of the guide frame guide longitudinal movement of the implant trials relative to the guide frame.
- the system still further includes, a dilator operatively coupled to the elongated body of the first or second implant trial during use for distracting the disc space.
- the system still further includes, first and second insertion instruments each including an elongated body and an insertion member coupled to the elongated body.
- the elongated bodies of the first and second insertion instruments are releasably coupled to the first and second guide members of the guide frame respectively during use.
- the insertion members of the first and second insertion instruments are releasably coupled to complementary interbody devices during use.
- a system for implanting interbody devices into a disc space located between a first and second vertebra including a guide frame, the guide frame including first and second guide members.
- the first and second guide members of the guide frame are rigidly coupled to one another and positioned at a selected convergent angle relative to one another during use.
- the first and second guide members of the guide frame each include openings receiving an elongated body during use.
- the first and second guide members of the guide frame each include at least a first portion of a locking mechanism fixedly coupling the guide frame to an elongated body during use.
- the system further includes first and second implant trials each including an elongated body and a base plate coupled to the elongated body.
- the elongated bodies of the first and second implant trials are releasably coupled to the first and second guide members of the guide frame respectively during use such that the respective openings guide longitudinal movement of the implant trials relative to the guide frame.
- the elongated bodies are configured to advance laterally into engagement with the openings of the first and second guide members of the guide frame.
- the system further includes first and second insertion instruments each including an elongated body and an insertion member coupled to the elongated body.
- the elongated bodies of the first and second insertion instruments are releasably coupled to the first and second guide members of the guide frame respectively during use.
- the insertion members of the first and second insertion instruments are releasably coupled to complementary interbody devices during use.
- a system for implanting interbody devices into a disc space located between a first and second vertebra including a guide frame, the guide frame including first and second guide members.
- the system further includes first and second implant trials, the first and second implant trials each including an elongated body.
- the elongated bodies of the first and second implant trials are releasably coupled to the first and second guide members of the guide frame respectively during use.
- the first and second implant trials each further include a base plate coupled to the elongated body.
- the base plate includes an inferior and/or superior surface having a shape that is substantially the same as the shape of an inferior and/or superior surface of an interbody device.
- the system still further includes a dilator releasably coupled to the elongated body of the first or second implant trial during use such that, the dilator can be uncoupled from the elongated body and replaced with another dilator.
- the system still further includes first and second insertion instruments each including an elongated body and an insertion member coupled to the elongated body.
- the elongated bodies of the first and second insertion instruments are releasably coupled to the first and second guide members of the guide frame respectively during use.
- the insertion members of the first and second insertion instruments are releasably coupled to complementary interbody devices during use.
- a system for implanting interbody devices into a disc space located between a first and second vertebra including a guide frame including first and second guide members.
- the first and second guide members of the guide frame are rigidly coupled to one another and positioned at a selected convergent angle relative to one another during use.
- the system further includes first and second implant trials each including an elongated body and a base plate coupled to the elongated body.
- the elongated bodies of the first and second implant trials are releasably coupled to the first and second guide members of the guide frame respectively during use.
- the system still further includes first and second dilators releasably coupled to the respective elongated bodies of the first and second implant trials during use such that the first and second dilators can be uncoupled from the elongated bodies of the first and second implant trials and replaced with another dilator.
- the base plates of the first and second implant trials are coupled to the respective elongated bodies of the first and second implant trials such that, during use, when the elongated bodies of the first and second implant trials are coupled to the respective first and second guide members of the guide frame, and when the base plates of the first and second implant trials are at least partially inserted into the disc space, the base plates of the first and second implant trials are positioned at a substantially equal anterior-posterior depth within the disc space.
- the system still further includes first and second insertion instruments each including an elongated body and an insertion member coupled to the elongated body.
- the elongated bodies of the first and second insertion instruments are releasably coupled to the first and second guide members of the guide frame respectively during use.
- the insertion members of the first and second insertion instruments are releasably coupled to complementary interbody devices during use.
- a system for implanting interbody devices into a disc space located between a first and second vertebra including a guide frame, the guide frame including an insertion bridge and first and second guide members.
- the first and second guide members of the guide frame are rigidly coupled to the insertion bridge and positioned at a selected convergent angle relative to one another during use.
- the first and second guide members of the guide frame each include an opening, the openings including a channel with a lateral opening.
- the first and second guide members of the guide frame each include a first portion of a locking mechanism.
- the system further includes first and second implant trials including an elongated body and a base plate coupled to the elongated body.
- the elongated body of the first implant trial is slidable through the opening of the first guide member and the elongated body of the second implant trial is slidable through the opening of the second guide member.
- the elongated bodies of the first and second implant trials each include a second portion of the locking mechanism, such that, during use, when the first and second portions of the locking mechanism are engaged, the first and second guide members of the guide frame are fixedly coupled to the respective elongated bodies of the first and second implant trials at a selected location on the elongated bodies of the first and second implant trials.
- the first and second implant trials each include a longitudinal slot.
- the system still further includes a dilator operatively coupled to the elongated body of the first or second implant trial during use for distracting the disc space.
- the dilator is located in the longitudinal slot of the first or second implant trial.
- the system still further includes first and second insertion instruments including an elongated body and an insertion member coupled to the elongated body. The elongated body of the first insertion instrument is slidable through the opening of the first guide member and the elongated body of the second insertion instrument is slidable through the opening of the second guide member.
- the elongated bodies of the first and second insertion instruments each include the second portion of the locking mechanism, such that, during use, when the first and second portions of the locking mechanism are engaged, the first and second guide members of the guide frame are fixedly coupled to the respective elongated bodies of the first and second insertion instruments at a selected location on the elongated bodies of the first and second insertion instruments.
- the insertion members of the first and second insertion instruments are releasably coupled to respective complementary interbody devices during use.
- an apparatus for implanting an interbody device into a disc space located between a first and second vertebra including a guide frame, the guide frame including an insertion bridge and first and second guide members.
- the first and second guide members of the guide frame are rigidly coupled to the insertion bridge and positioned at a convergent angle between about 20° to 30° relative to one another during use.
- the first and second guide members of the guide frame each include openings receiving an elongated body during use, the openings including a channel with a lateral opening.
- the first and second guide members of the guide frame each include at least a first portion of a locking mechanism fixedly coupling the guide frame to an elongated body during use.
- an apparatus for implanting an interbody device into a disc space located between a first and second vertebra including an implant trial, the implant trial including an elongated body.
- the implant trial further including a base plate coupled to the elongated body during use.
- the base plate includes an inferior and/or superior surface having a shape that is substantially the same as the shape of an inferior and/or superior surface of an interbody device.
- the implant trial still further including a dilator releasably coupled to the elongated body during use such that the dilator can be uncoupled from the elongated body and replaced with another dilator.
- the implant trial still further includes a nerve root shield coupled to the elongated body during use.
- the nerve root shield includes a surface that is shaped complementary to a surface of the first or second vertebra.
- FIG. 1 is a perspective view of two dynamic interbody devices positioned between vertebrae in accordance with one or more embodiments of the present technique
- FIG. 2 is a rear view of the two dynamic interbody devices in accordance with one or more embodiments of the present technique
- FIG. 3 is a front view of a first member of a dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 4 is a side view of the first member of the dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 5 is a top view of the first member of the dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 6 is a front view of a second member of the dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 7 is a side view of the second member of the dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 8 is a top view of the second member of the dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 9 is a bottom view of the second member of the dynamic interbody device in accordance with one or more embodiments of the present technique.
- FIG. 10 is a perspective view of the second member of the dynamic interbody device in accordance with one or more embodiments of the present technique
- FIG. 11 is a perspective view of the third member of the dynamic interbody device in accordance with one or more embodiments of the present technique.
- FIG. 12 is a perspective view of a posterior stabilization system in accordance with one or more embodiments of the present technique.
- FIG. 13 is a side view of a dynamic interbody device and a posterior stabilization system coupled to vertebrae in accordance with one or more embodiments of the present technique;
- FIG. 14 is a front perspective view of an implant trial in accordance with one or more embodiments of the present technique;
- FIG. 15 is a rear perspective view of the implant trial in accordance with one or more embodiments of the present technique.
- FIG. 16 is a side view of a lower portion of the implant trial in accordance with one or more embodiments of the present technique.
- FIG. 17 is a perspective view of the implant trial including a dilator in accordance with one or more embodiments of the present technique
- FIG. 18 is a side view of a lower portion of the implant trial including a dilator in accordance with one or more embodiments of the present technique
- FIG. 19 is a perspective view of a guide frame in accordance with one or more embodiments of the present technique.
- FIG. 20 is a top view of a guide member of the guide frame with a guide release in a first position in accordance with one or more embodiments of the present technique
- FIG. 21 is a top view of the guide member of the guide frame with a guide release in a second position in accordance with one or more embodiments of the present technique
- FIG. 22 is a perspective view of an insertion instrument in accordance with one or more embodiments of the present technique.
- FIG. 23 is a perspective view of an implant trial having a base plate inserted into a disc space between vertebrae in accordance with one or more embodiments of the present technique
- FIG. 24 is a front view of a lower portion of the implant trial of FIG. 23 with the base plate inserted into a disc space between vertebrae in accordance with one or more embodiments of the present technique;
- FIG. 25 is a perspective view of an upper portion of the implant trial of FIG. 23 depicting a dilator being coupled to the implant trial in accordance with one or more embodiments of the present technique;
- FIG. 26 is a side view of a lower portion of the implant trial of FIG. 23 having a base plate inserted into a disc space between vertebrae and including a dilator in accordance with one or more embodiments of the present technique;
- FIG. 27 is a perspective view of an upper portion of the implant trial of FIG. 23 depicting a guide member being coupled to the implant trial in accordance with one or more embodiments of the present technique;
- FIG. 28 is a perspective view of a second implant trial being coupled to a second guide member in accordance with one or more embodiments of the present technique
- FIG. 29 is a front view of lower portions of the two implant trials having respective base plates inserted into a disc space between vertebrae in accordance with one or more embodiments of the present technique
- FIG. 30 is a perspective view of an upper portion of the implant trial of FIG. 23 including a drill guide in accordance with one or more embodiments of the present technique
- FIG. 31 is a perspective view of an upper portion of the implant trial of FIG. 23 depicting a anchor guide being inserted into the disc space in accordance with one or more embodiments of the present technique;
- FIG. 32 is a side view of a lower portion of the implant trial of FIG. 23 having a base plate inserted into a disc space between vertebrae and including drill and anchor guides in accordance with one or more embodiments of the present technique;
- FIG. 33 is a perspective view of the implant trial of FIG. 23 including drill and anchor guides having a base plate inserted into a disc space between vertebrae and coupled to a guide member in accordance with one or more embodiments of the present technique;
- FIG. 34 is a perspective view of a top portion of an insertion instrument being coupled to a guide member in accordance with one or more embodiments of the present technique
- FIG. 35 is a side view of lower portion of the insertion instrument of FIG. 34 coupled to a dynamic interbody device inserted into a disc space between vertebrae in accordance with one or more embodiments of the present technique;
- FIG. 36 is a front view of two insertion instruments coupled to respective dynamic interbody devices inserted into a disc space between vertebrae in accordance with one or more embodiments of the present technique
- FIG. 37 is a flowchart that illustrates a method of inserting a dynamic interbody device into a disc space in accordance with one or more embodiments of the present technique.
- a “functional spinal unit” generally refers to a motion segment of a spine.
- the functional spinal unit may include two vertebrae, an intervertebral disc between the vertebrae, and the two facet joints between the vertebrae.
- An “artificial functional spinal unit” refers to a functional spinal unit where one or more of the components of the functional spinal unit are replaced by implants or devices that permit at least some motion of the spine. At least a portion of the intervertebral disc and/or one or both of the facet joints may be replaced by implants or devices during a spinal stabilization procedure.
- Coupled includes a direct or indirect joining or touching unless expressly stated otherwise.
- a first member is coupled to a second member if the first member contacts the second member, or if a third member is positioned between the first member and the second member.
- An "interbody device” generally refers to an artificial intervertebral implant.
- the interbody device may replace a portion or all of an intervertebral disc.
- a pair of interbody devices is installed during a spinal stabilization procedure.
- one or more interbody devices are installed using a posterior approach.
- one or more interbody devices may be installed using an anterior approach or other type of approach.
- one or more interbody devices are placed in a disc space between vertebrae, and at least one posterior stabilization system is coupled to the vertebrae.
- one or more interbody devices are placed in the disc space without coupling a posterior stabilization system to the vertebrae.
- a "fusion interbody device” generally refers to an interbody device that facilitates fusion of adjacent vertebrae coupled to the device.
- a fusion device may provide stabilization of adjacent vertebra to at least partially inhibit movment of the vertebra to facilitate bone growth and cause it to fuse the adjacent vertebra.
- a “dynamic interbody device” generally refers to an interbody device that allows for flexion/extension, lateral bending and/or axial rotation of vertebrae coupled to the device.
- the dynamic interbody device is a bimodal device.
- Bimodal refers to a device that has at least two separate curved surfaces to accommodate flexion/extension with lateral bending and/or axial rotation.
- Dynamic interbody devices may have surfaces that contact vertebrae.
- a surface of the dynamic interbody device that contacts a vertebra may include one or more anchors, protrusions, and/or osteoconductive/osteoinductive layers or coatings.
- a anchor of the dynamic interbody device may be positioned in an aperture formed in a vertebra. The aperture may be formed in the vertebra so that the dynamic interbody device will be positioned at a desired location when inserted into the patient.
- one or more dynamic interbody devices are installed in a disc space formed between vertebrae during a spinal stabilization procedure.
- the shape and/or size of a dynamic interbody device may depend on a number of factors including surgical approach employed for insertion, intended position in the spine (e.g., cervical or lumbar), and patient anatomy. As described in U.S. Patent Publication No. 2009/0105829 to Gimbel et al, several sizes of interbody devices may be provided in the instrument kit for the spinal stabilization procedure.
- the dynamic interbody devices may include indicia indicating the height of the spinal stabilization devices.
- the dynamic interbody devices may allow for flexion/extension, axial rotation, and/or lateral bending of vertebrae coupled to the dynamic interbody device.
- the dynamic interbody device may allow for coupled lateral bending and axial rotation so that axial rotation causes some lateral bending and lateral bending causes some axial rotation.
- the dynamic interbody device may be formed so that a set amount of lateral bending results in a set amount of axial rotation.
- a pair of dynamic interbody devices may be installed between two vertebrae to establish all or a portion of a spinal stabilization system.
- Each dynamic interbody device of the pair of dynamic interbody devices may be installed using a posterior approach.
- a “dynamic posterior stabilization system” generally refers to an apparatus that may be used to at least partially replace or supplement a facet joint while allowing for both dynamic resistance and at least some motion of the first vertebra to be stabilized relative to the second vertebra to be stabilized.
- the first vertebra and the second vertebra may be vertebrae of a functional spinal unit.
- bone fasteners of the dynamic posterior stabilization system are secured to the first vertebra and the second vertebra.
- a bone fastener of the dynamic posterior stabilization system may be coupled to a vertebra adjacent to the vertebrae of the functional spinal unit being stabilized.
- the bone fasteners may be coupled to lamina, pedicles, and/or vertebral bodies of the vertebrae.
- dynamic posterior stabilization systems may be positioned in three or more vertebrae to form a multi-level stabilization system.
- the dynamic posterior stabilization system may replace or supplement a normal, damaged, deteriorated, defective or removed facet joint.
- the dynamic posterior stabilization system may include bone fasteners, an elongated member, and at least one bias member.
- the bias member may provide little or no initial resistance to movement of a first vertebra coupled to the system relative to a second vertebra coupled to the system. Resistance to additional movement of the first vertebra relative to the second vertebra may increase. The increasing resistance provided by the bias member may mimic the behavior of a normal functional spinal unit.
- the dynamic posterior stabilization system may stabilize the vertebrae, limit the range of motion of the first vertebra relative to the second vertebra, and/or share a portion of the load applied to the vertebrae.
- the dymanic posterior stabilization system may work in conjunction with one or more interbody devices to provide support provided by a natural facet.
- a dynamic interbody device may provide for coupled lateral bending and axial rotation of the adjacent vertebra as well as enable flexion and extension, while the posterior stabilization system provides for controlled/dampened lateral bending, axial rotation, flexion and extension of the adjacent vertebra.
- dynamic interbody devices and dynamic posterior stabilization systems may be made of non-magnetic, radiolucent materials to allow unrestricted intra-operative and post-operative imaging. Certain material may interfere with x-ray and/or magnetic imaging. Magnetic materials may interfere with magnetic imaging techniques. Most non-magnetic stainless steels and cobalt chrome contain enough iron and/or nickel so that both magnetic imaging and x-ray imaging techniques are adversely affected. Other materials, such as titanium and some titanium alloys, are substantially iron free. Such materials may be used when magnetic imaging techniques are to be used, but such materials are often radio-opaque and sub-optimal for x-ray imagining techniques.
- the dynamic interbody devices and/or the dynamic posterior stabilization systems may include coatings and/or markers that indicate the positions of the devices and/or systems during operative and/or post-operative imaging.
- two cooperative interbody devices may be positioned in a disc space between two vertebrae during a spinal stabilization procedure.
- FIG. 1 is a perspective view of two interbody devices 100', 100" positioned between vertebrae 102, 104 in accordance with one or more embodiments of the present technique.
- interbody devices 100', 100" includes dynamic interboyde devices.
- Dynamic interbody devices 100', 100" may be implanted using a posterior approach.
- Dynamic interbody devices 100', 100" may be positioned near the edge of the endplates of vertebrae 102, 104 so that the dynamic interbody devices abut strong, supportive bone of the vertebrae to be stabilized.
- Dynamic interbody devices 100', 100" may be bilateral devices with coupled axial rotation and lateral bending.
- fusion interbody devices e.g, spinal fusion implants.
- interbody devices 100' and 100" may include fusion interbody devices in place of dynamic interbody deivces described herein.
- FIG. 2 is a rear view of dynamic interbody devices 100', 100" in accordance with one or more embodiments of the present technique.
- Each dynamic interbody device 100' or 100" may include first member 106, second member 108 and third member 1 10.
- First members 106 may be coupled to second members 108 so that dynamic interbody devices 100', 100" accommodate lateral bending and axial rotation of vertebrae coupled to the dynamic interbody devices.
- dynamic interbody devices 100', 100" coupled lateral bending and axial motion together so that lateral bending motion causes axial rotation, and axial rotation causes lateral bending.
- Third members 1 10 may be coupled to second members 108 so that dynamic interbody device 100', 100" accommodate flexion and extension of vertebrae coupled to the dynamic interbody device.
- Dynamic interbody devices 100', 100" are shown in positions of neutral lateral bending, neutral axial rotation and maximum flexion in FIG. 2.
- the first members are coupled to the second members to allow for lateral bending without coupled axial rotation and/or axial rotation without coupled lateral bending.
- first member 106 of dynamic interbody device 100' may be substantially a mirror image first member 106 of dynamic interbody device 100"
- third member 110 of dynamic interbody device 100' may be substantially a mirror image of third member 110 of dynamic interbody device 100".
- the first member of dynamic interbody device 100' may have a shape that is different than the mirror image of the first member of dynamic interbody device 100" and/or the third member of dynamic interbody device 100' may have a shape that is different than the mirror image of the third member of dynamic interbody device 100".
- Second member 108 of dynamic interbody device 100' may be substantially the mirror image of second member 108 of dynamic interbody device 100" with the exception of second member 108 of dynamic interbody device 100' having portion 1 12 (e.g., a protrusion) that engages a complementary portion 114 (e.g., a recess) of second member 108 of dynamic interbody device 100" to join dynamic interbody device 100' to dynamic interbody device 100" when the dynamic interbody devices are positioned between vertebrae.
- portion 1 12 e.g., a protrusion
- complementary portion 114 e.g., a recess
- first member 106 of dynamic interbody device 100' has a portion (e.g., a protrusion) that engages a portion (e.g., a recess) of first member 106 of dynamic interbody device 100" when the dynamic interbody devices are positioned between vertebrae.
- third member 110 of dynamic interbody device 100' has a portion (e.g., a protrusion) that engages a portion (e.g., a recess) of first member 1 10 of dynamic interbody device 100" when the dynamic interbody devices are positioned between vertebrae.
- FIGS. 3-5 are front, side and top views, respectively, of first member 106 of dynamic interbody device 100' in accordance with one or more embodiments of the present technique.
- First member 106 may include anchor 116 (e.g., a anchor or the like), superior surface 1 18, slot 120, and opening 122.
- Anchor 1 16 may reside in an aperture or recess formed in a vertebra when dynamic interbody device 100' is positioned in a disc space between vertebrae. Anchor 1 16 may inhibit undesired movement of dynamic interbody device 100' relative to the vertebrae.
- Superior surface 1 18 of first member 106 may be curved. The curvature of superior surface 1 18 may complement a curvature of an inferior surface of the second member of the dynamic interbody device to allow the dynamic interbody device to accommodate lateral bending.
- First member 106 may include arcuate slot 120.
- Arcuate slot 120 may interact with a complementary protrusion of second member 108 to allow the dynamic interbody device to accommodate axial rotation.
- the curvature of superior surface 118 and arcuate slot 120 allows dynamic interbody device 100' to provide coupled lateral bending and axial rotation to the vertebrae adjacent to the dynamic interbody device.
- second member 108 may have an arcuate slot and first member 106 may have a complementary protrusion.
- Arcuate slot 120 and the protrusion of second member 108 may be dovetailed or include another type of interconnection system that inhibits non-rotational separation of first member 106 from second member 108 when the protrusion of the second member is engaged in slot 120 of the first member.
- End surfaces 124 of arcuate slot 120 may interact with the end surfaces of the protrusion of second member 108 to resist shear load applied to dynamic interbody device 100' when the dynamic interbody device is positioned between vertebrae.
- End surfaces 124 and the end surfaces of the protrusion of second member 108 may be guides for lateral bending and axial rotation of the vertebrae coupled to dynamic interbody device 100'.
- First member 106 may include opening 122 in slot 120.
- a pin may be positioned in opening 122.
- the pin may reside in a groove in second member 108 to define the maximum amount of lateral bending/axial rotation allowed by dynamic interbody device 100'.
- a pin positioned in an opening in second member 108 may reside in a groove in first member 106 to define the maximum amount of lateral bending/axial rotation allowed by dynamic interbody device 100'.
- FIGS. 6-10 are front, side, top, bottom and perspective views, respectively of second member 108 of dynamic interbody device 100' in accordance with one or more embodiments of the present technique.
- Second member 108 may include inferior surface 126, recessed surface 128, superior surface 130, protrusion 132, bearing 134, tabs 136, groove 138, and portion 112. Some of inferior surface 126 may rest on superior surface 118 of first member 106 when protrusion 132 is placed in the arcuate slot 120 of the first member.
- Inferior surface 126 may include a curvature that complements the curvature of superior surface 118 of first member 106 and protrusion 132 may complement the arcuate slot in the first member so that dynamic interbody device 100' is able to accommodate coupled lateral bending and axial rotation of the vertebra joined to the dynamic interbody device.
- Portion 1 12 of second member 108 of dynamic interbody device 100' (shown in FIGS. 1 and 6) may engage a complementary portion of second member 108 of second dynamic interbody device 100" positioned adjacent to dynamic interbody device 100' when dynamic interbody devices 100', 100" are positioned in a disc space between vertebrae.
- FIG. 10 depicts second member 108 with portion 1 14 that complements portion 112 of second member shown in FIG. 6.
- Engaging portion 112 of dynamic interbody device 100' with complementary portion 1 14 of dynamic interbody device 100" may stabilize and align the dynamic interbody devices when the dynamic interbody devices are positioned between vertebrae. Coupling and aligning dynamic interbody devices 100', 100" together with portions 1 12, 1 14 may assure that the second members of the dynamic interbody devices move in tandem relative to the first members of the dynamic interbody devices.
- Coupling dynamic interbody devices 100', 100" together with portions 1 12, 1 14 may inhibit migration of the dynamic interbody devices and/or subsidence of the vertebrae coupled to the dynamic interbody devices.
- Having complementary portions may require that a specific dynamic interbody device be installed prior to the other dynamic interbody device during an insertion procedure.
- the dynamic interbody device with a female connection portion i.e., portion 1 14 in FIG. 10.
- the dynamic interbody device with a female connection portion i.e., portion 1 14 in FIG. 10
- migration and/or removal of the dynamic interbody devices is only possible by reversing the insertion order with the two dynamic interbody devices held in the same position as during insertion (i.e., neutral in axial rotation and lateral bending while in full flexion).
- Proper positioning of the two dynamic interbody devices may be determined by examining the position of the connected portions using imaging techniques before removal of the insertion instruments.
- second member 108 may include bearing 134.
- Bearing 134 may fit in a recess of third member 110 to allow the dynamic interbody device to accommodate flexion and extension of the vertebra coupled to the dynamic interbody device.
- Bearing 134 may include tabs 136.
- Tabs 136 may fit in tracks in third member 1 10 to inhibit separation of second member 108 from the third member.
- third member 110 may be coupled to second member 108, and/or second member 108 may be coupled to first member 106. The first member will inhibit separation of the third member from the second member even when the dynamic interbody device is subjected to the maximum amount of extension.
- groove 138 may be formed in protrusion 132 of second member 108.
- groove 138 may be open at one side of second member 108.
- a pin in opening 112 of first member 106 may reside in groove 138 of the assembled dynamic interbody device.
- Second member 108 may include recessed surface 128 in inferior surface 126. Recessed surface 128 may allow a portion of second member 108 to extend over a portion of first member 106 of second dynamic interbody device 100" without interference during lateral bending.
- FIG. 11 is a perspective view of third member 1 10 of dynamic interbody device 100' in accordance with one or more embodiments of the present technique.
- Third member 110 may include recess 140 with tracks 142. Recess 140 and tracks 142 may complement the bearing and tabs of the second member.
- first member 106 of each dynamic interbody device 100', 100" may include opening 144.
- Opening 144 may accept a complementary portion of another device.
- Opening 144 may be a threaded opening or have another type of releasable coupling mechanism.
- Opening 144 may be used to releasably couple dynamic interbody device 100' or 100" to an insertion instrument used for placing dynamic interbody device within an intervertebral disc space.
- openings for the insertion instrument may be located in second member 108 and/or the third member 1 10.
- the dynamic interbody device may include one or more features that allow the insertion instrument to hold the dynamic interbody device in a desired position.
- first member 106 may include slot 146 and third member 1 10 may include slot 148.
- slots 146, 148 may include other types of depressions such as a round hole or elongated slot for accepting a complementary portion of insertion instrumentation.
- a portion of the insertion instrument may be placed in slots 146, 148.
- the portion of the insertion instrument that fits in slots 146, 148 may place the dynamic interbody device in a desired position for insertion between vertebrae (i.e., neutral axial rotation, neutral lateral bending, and full flexion).
- a pin of an insertion instrumentation placed in both of slots 148 and 146 may fix realtive rotational/bending/flexion positions of first member 106, second member 108 and/or third member 110 such that they may be held in a relatively fixed position during insertion into the intervertebral disc space.
- Dynamic interbody devices 100', 100" may work in conjunction to allow for coupled lateral bending and axial rotation and/or flexion/extension of vertebrae 102, 104 the dynamic interbody devices are positioned between. During an insertion procedure, careful positioning of the dynamic interbody devices 100', 100" may be needed to ensure that dynamic interbody device 100' works in conjunction with dynamic interbody device 100". In some dynamic interbody device embodiments, a separation angle of about 30° (i.e., each implant oriented at about 15° from a center line (See angle 450 of FIG. 24) of endplate of the inferior vertebra being stabilized) is desired between dynamic interbody devices 100', 100".
- a separation angle of about 24° i.e., each implant oriented at about 12° from a center line (See angle 450 of FIG. 24) of endplate of the inferior vertebra being stabilized
- Other embodiments of dynamic interbody devices may be designed to operate in conjunction with each other at other separation angles.
- insertion instruments may allow insertion of dynamic interbody devices 100', 100" so that ends of the dynamic interbody devices touch.
- Intra-operative imaging may be used to ensure the proper positioning and alignment of the dynamic interbody devices.
- a portion of dynamic interbody device 100' may engage a portion of dynamic interbody device 100" to ensure proper positioning of the dynamic interbody devices 100', 100".
- a dovetailed portion of dynamic interbody device 100' fits in a complementary groove of dynamic interbody device 100" when the dynamic interbody devices are properly positioned.
- Engaging dynamic interbody devices may inhibit migration of the dynamic interbody devices after insertion.
- the superior surface of the dynamic interbody device may be coupled to an upper vertebra of the vertebrae to be stabilized.
- An inferior surface of the dynamic interbody device may be coupled to the inferior vertebra of the vertebrae to be stabilized. At least a portion the superior surface may be positioned near the edge of the endplate of the upper vertebra so that the dynamic interbody device abuts strong, supportive bone of the upper vertebra. At least a portion of the inferior surface may be positioned near the edge of the endplate of the inferior vertebra so that the dynamic interbody device abuts strong, supportive bone of the inferior vertebra.
- Dynamic posterior stabilization systems may be used to support vertebrae and/or to provide resistance to motion of a first vertebra relative to a second vertebra.
- FIG. 12 is a perspective view of a posterior stabilization system 200 in accordance with one or more embodiments of the present technique.
- Posterior stabilization system 200 may be an in-line dynamic posterior stabilization system 200.
- Dynamic posterior stabilization system 200 may include first bone fastener 202, second bone fastener 204, and dampener system 206.
- Embodiments of a dynamic posterior stabilization system are further described in U.S. Patent Publication No. 2009/0105829 to Gimbel et al.
- FIG. 13 is a side view of dynamic interbody device 100 and posterior stabilization system 200 positioned between vertebrae 102, 104 in accordance with one or more embodiments of the present technique.
- Dynamic posterior stabilization system 200 may share a portion of the load applied to vertebrae 102, 104 while providing guidance and resistance to flexion/extension and/or lateral bending that is, or is approximate to, the resistance provided by a normal functional spinal unit. Allowing for movement of the dynamic interbody device and for movement of the dynamic posterior stabilization system may inhibit deterioration of adjacent functional spinal units.
- a posterior approach may be used to install a stabilization system for a patient.
- the stabilization system may replace one or more parts of a functional spinal unit of the patient.
- the stabilization system may include one or more dynamic interbody devices, and one or more dynamic posterior stabilization systems.
- a discectomy may provide a disc space between two vertebrae in which one or more interbody devices may be implanted.
- two implant trials may be inserted into the disc space between the vertebrae.
- the implant trials may facilitate proper insertion of one or more dynamic interbody devices into the disc space.
- the implant trials may be used to properly align and position the dynamic interbody devices within the disc space.
- the implant trials may be used to separate or distract the vertebrae to allow insertion of the dynamic interbody devices into the disc space.
- the implant trials may be inserted on opposite sides of the sagittal plane of the vertebrae.
- the implant trial used on one side of the sagittal plane may be a mirror image of the implant trial used on the other side.
- FIGS. 14-18 depict various views of an implant trial 400 in accordance with one or more embodiments of the present technique.
- Implant trial 400 may include elongated body 402, base plate 404, and nerve root shield 406.
- Nerve root shield 406 may include elongated portion 406a and shielding portion 406b.
- shielding portion 406b may be located superiorly to base plate 404.
- Nerve root shield 406 may abut portions of the vertebra during insertion.
- shielding portion 406b may about an end plate of the vertebrae and shielding portion 406a may contact a posterior edge portion of the vertebrae proximate the endplate as implant trial 400 is advanced into the intervertebral space adjacent the vertebrae.
- Nerve root shield 406 may inhibit contact of other portions (e.g., body 402) with the vertebrae.
- Elongated body 402 may be any physical structure, having more length than width, capable of at least partially supporting another object. Additionally, elongated body 402 may have any suitable shape. For example, in the illustrated embodiment, elongated body 402 includes a combination of straight and curved surfaces. Elongated body 402 may include key 408, slot 410, pin catch 412, channel/groove 414, and aperture 416. Key 408 may ensure that only a proper guide member can be used in association with the implant trial 400. For example, key 408 may have an external shape that is complementary to an internal shape of the proper (e.g., right or left) guide member.
- Slot 410 may be located between a portion of elongated body 402 and elongated portion 406a of nerve root shield 406.
- a dilator may be inserted through slot 410 (thereby coupling the dilator to the implant trial) to distract the disc space.
- Pin catch 412 may form a portion of a locking mechanism. Pin catch 412 in conjunction with one or more other portions of the locking mechanism may couple implant trial 400 to the guide member and fix the position of the implant trial relative to the guide member (and vice versa).
- pin catch 412 may receive a complementary biased stop pin of the proper guide member.
- Channel/groove 414 may extend from the distal end of elongated body 402 to the proximal end of elongated body 402.
- Channel/groove 414 may be substantially parallel to a longitudinal axis of body 402.
- a drill bit or other type of cutting tool e.g., an end mill, countersink, or reamer
- Aperture 416 may extend laterally through elongated body 402 when the implant trial 400 is inserted into the disc space.
- aperture 416 may be perpendicular or oblique to a longitudinal axis of body 402.
- a true lateral image of the implant trial 400 may be achieved by aligning imaging equipment with aperture 416.
- Base plate 404 may be coupled to elongated body 402.
- Base plate 404 may include inferior surface 404a and superior surface 404b.
- Inferior surface 404a may have a shape that is substantially the same as the shape of an inferior surface of a dynamic interbody device (e.g., inferior surface of first member 106 of dynamic interbody device 100').
- Base plate 404 may further include x-ray visible features 418 and 420. The location of x-ray visible feature 418 within the disc space may correspond to the approximate location of the anterior edge of a dynamic interbody device when the device is inserted into the disc space in place of base plate 404.
- x-ray visible feature 418 may indicate the approximate expected location of the anterior edge of the dynamic interbody device being inserted subsequent to positioning of implant trial. For example, if base plate 404, coupled to elongated body 402, is removed from the disc space and the dynamic interbody device, coupled to the insertion member of an insertion instrument, is inserted into the disc space via the same guide member as base plate 404, then the anterior edge of the dynamic interbody device may be located at approximately the same anterior-posterior depth within the disc space as was x-ray visible feature 418. Similarly, x-ray visible feature 420 may indicate the approximate expected location of the center of rotation of the dynamic interbody device.
- implant trial 400 may include one or more additional features that are visible via intra-operative techniques (e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging).
- one or more dilators 422 may be used to distract the disc space.
- FIGS. 17 and 18 are perspective and side views, respectively, of implant trial 400 including dilator 422 in accordance with one or more embodiments of the present technique. As depicted in FIGS. 17 and 18, one or more dilators 422 may be positioned between base plate 404 and nerve root shield 406 to facilitate separation of the vertebrae. In some embodiments, with a leading end of insertion instrument 400 disposed in a vertebral space between adjacent vertebra, insertion of dilator 422 may spread inferior and superior surfaces of base plate 404 and nerve root shield 406 apart, thereby engaging the end plates of the vertebrae and distracting the vertebrae apart from one another.
- Distraction may increase the distance between the two vertebra to facilitate subsequent insertion of one or more dynamic interbody devices (e.g., dynamic interbody devices 100' and 100") within the disc space.
- distraction may be conducted to a distance that is about the same or greater than a height of the dynamic interbody device to be implanted.
- Dilator 422 may include proximal portion 422a, elongated portion 422b, and distal portion 422c.
- Proximal portion 422a of dilator 422 may have an inferior and/or superior surface with a shape that is substantially the same as the shape of an inferior and/or superior surface of a dynamic interbody device.
- Dilator 422 may be releasably coupled to elongated body 402 to distract the disc space.
- dilator 422 is inserted through slot 410 of elongated body 402 such that the proximal portion 422a of the dilator is located between an inferior/superior surface of base plate 404 and a superior/interior surface of shielding portion 406b of nerve root shield 406.
- dilator 422 may be uncoupled from elongated body 402 and replaced with another dilator.
- dilator 422 may be extracted from slot 410 of elongated body 402.
- Dilator 422 may include lip 424 and x- ray visible feature 426. Lip 424 may limit insertion of dilator 422 through slot 410.
- lip 424 may be located proximate distal end 422c of dilator 422 and may engage a complementary portion of elongated body 402, thereby preventing over-insertion of dilator 422 between base pate 404 and shielding portion 406, and the disc space.
- X-ray visible feature 426 may indicate the approximate expected location of the posterior edge of the dynamic interbody device.
- x-ray visible feature 426 is radio-opaque.
- dilator 422 may include one or more additional features that are visible via intra-operative techniques (e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging).
- shielding portion 406b of nerve root shield 406 may be pressed against the end plate of the superior vertebra.
- Shielding portion 406b may protect the nerve root of the superior vertebra during the insertion of dilator 422.
- shielding portion 406b may inhibit chafing of the nerve root by preventing direct contact between dilator 422 and the nerve root.
- a surface of shielding portion 406b is shaped substantially complementary to a surface of the superior vertebra.
- shielding portion 406b may have a superior surface with a shape that is substantially the same as the shape of a superior surface of the dynamic interbody device to be inserted in its place.
- a guide frame 428 may couple two implant trials to one another during use, thereby fixing the positions of the implant trials relative to one another during use. Fixing the implant trials realtive to one another may help to ensure that the dynamic interbody devices are disposed in desired positions relative to one another.
- FIG. 19 is a perspective view of guide frame 428 in accordance with one or more embodiments of the present technique.
- Guide frame 428 may include guide members 430, and insertion bridge 432 coupling the guide members.
- Insertion bridge 432 may include handle portion 432a and coupling portion 432b. Handle portion 432a may provide for grasping and manipulation of guide frame 428 by a user.
- Coupling portion 432b may provide for coupling of guide members 430 and instrumentation thereto.
- Guide members 430 may be coupled to insertion bridge 432 such that the guide members are positioned at a selected convergent angle relative to one another.
- guide members 430 are rigidly coupled to one another during use via coupling of each of guide members 430 to portion 432b of insertion bridge 432.
- the convergent angle is about 45° between longitudinal axes of the guide members, or about 22.5° from a midline axis of insertion bridge 432.
- the convergent angle is about 20° to 30° between longitudinal axes of the guide members, or about 10° to 15° from a midline axis of insertion bridge 432.
- the convergent angle is about 24° between longitudinal axes of the guide members, or about 12° from a midline axis of insertion bridge 432.
- the position of one guide member is substantially mirrored by the other guide member. That is, the guide members are equally angled from a midline axis of insertion bridge 432.
- Guide member 430 may include guide 434 and guide release 436.
- FIGS. 20 and 21 are top views of guide member 430 with guide release 436 in a first (locked) position and a second (unlocked) position, respectively, in accordance with one or more embodiments of the present technique.
- the internal shape of guide 434 may define an opening 434a.
- Opening 434a may be of any suitable shape or size.
- opening 434a includes a channel having a lateral opening.
- opening 434a includes a laterally enclosed passage having a longitudinal opening.
- Opening 434a may be complementary to the external shape of a key of the proper corresponding implant trial or insertion instrument.
- opening 434a may guide longitudinal movement of the implant trial or insertion instrument relative to guide frame 428.
- the elongated body of an implant trial or insertion instrument may slide longitudinally through opening 434a of guide 434.
- Guide release 436 may include grip 438 and stop pin 440.
- Stop pin 440 may form a portion of a locking mechanism. Stop pin 440 in conjunction with one or more other of the locking mechanism may couple implant trial 400 to guide member 430 and fix the position of the implant trial relative to guide member 430.
- stop pin 440 may protrude into the complementary pin catch of an implant trial 400. In a first (locked) position (depicted in FIG. 20), stop pin 440 may extend laterally into opening 434a of guide 434.
- a spring or other bias member may urge stop pin 440 into opening 434a.
- stop pin 440 may be pulled out of opening 434a via grip 438.
- implant trial 400 or similar instrumentation may be able to slide longitudinally though opening 434a, whereas, with pin 440 in the locked position, the implant trial 400 or similar instrumentation may be inhibited from sliding longitudinally though opening 434a
- FIG. 22 is a perspective view of an insertion instrument 500 in accordance with one or more embodiments of the present technique.
- two cooperative dynamic interbody devices may be inserted between the vertebrae using one or more insertion instruments 500.
- each of the dynamic interbody devices may be releasably coupled to a respective insertion instrument.
- a first of the implant trials 400 is removed from opening 434a of guide frame 428 and replaced with a first insertion instrument 500 having a first dynamic interbody device coupled thereto, followed by a second of the implant trials 400 being removed from the other opening 434a of guide frame 428 and replaced with a second insertion instrument 500 having a second dynamic interbody device coupled thereto.
- the insertion instrument for the second dynamic interbody device may be a mirror image of the insertion instrument for the first dynamic interbody device.
- Insertion instrument 500 may include elongated body 502, insertion member 504, wheel 506, and insert(s) 507.
- Elongated body 502 may include key 508, pin catch 510, passageway 512, and ridge/protrusion 514.
- Key 508 may ensure that only the proper guide member can be used in association with the particular insertion instrument.
- key 508 may have an external shape that is complementary to the internal shape (e.g., shape of opening 434a) of the proper guide member.
- the proper guide member for the insertion instrument 500 may be the same guide member used in conjunction with implant trial 400.
- the external shape of key 508 of insertion instrument 500 may be substantially the same as the external shape of key 408 of implant trial 400.
- Pin catch 510 may form a portion of a locking mechanism. Pin catch 510 in conjunction with one or more other portions of the locking mechanism may couple the insertion instrument to the guide member and fix the position of the insertion instrument relative to the guide member. For example, pin catch 510 may receive a complementary biased stop pin of the proper guide member. Insert 507 may provide for the adjustment of a height/thickness of insertion instrument 500 to mathc a specifc height implant. For example, the illustrated embodiment, insert 507 labled "12mm” is desgined for use with a 12mm implant (e.g., interbody device 100', 100").
- a 12mm implant e.g., interbody device 100', 100"
- Insertion member 504 may be coupled to elongated body 502 of insertion instrument 500.
- insertion member 504 may be positioned within passageway 512 of elongated body 502.
- insertion member 504 is telescopically coupled to elongated body 502.
- wheel 506 may be rotated to rotate insertion member 504.
- Rotating insertion member 504 may advance or retract the insertion member relative to the elongated body 502 of insertion instrument 500.
- insertion member 504 is provided with a substantially circular cross-section.
- insertion member 504 includes a cylindrical rod shaped member.
- Insertion member 504 may include a distal end 504a and a proximal end 504b.
- Distal end 504a of insertion member 504 may be coupled to wheel 506.
- Proximal end 504b of insertion member 504 may protrude from the proximal end of elongated body 502.
- Proximal end 504b of insertion member 504 may be threaded.
- An appropriate dynamic interbody device may be releasably coupled to insertion member 504.
- proximal end 504b of insertion member 504 may mate with a threaded opening in the appropriate dynamic interbody device. Further, when proximal portion 504b of insertion member 504 is threaded to the appropriate dynamic interbody device, ridge 514 may reside in a corresponding slot of the dynamic interbody device to place the dynamic interbody device in the desired position for insertion (i.e., neutral axial rotation, neutral lateral bending, and full flexion).
- FIGS. 23-36 illustrate a sequence of steps for inserting a dynamic interbody device into a disc space.
- FIG. 37 is a flowchart that illustrates a method 600 of inserting a dynamic interbody device into a disc space in accordance with one or more embodiments of the present technique.
- the same or similar techniques may be employed for inserting other types of implants, such as spinal fusion implants.
- the illustrated method may also be used for inserting one or more non-dynamic interobdy devices (e.g., a pair of fusion interbody) into a disc space.
- Method 600 may generally include inserting a base plate of an implant trial into an intervertebral disc space; inserting one or more dilators into the disc space to achieve distraction of the disc space; removing the base plate and dilators from the disc space; and inserting the interbody device into the disc space in substantially the same position as the base plate.
- method 600 includes inserting a base plate of an implant trial into an intervertebral disc space, as depicted at block 602. Initially, when a dilator is not coupled to the elongated body (see FIG.
- the implant trial may have a distraction height that is less than the separation height of the vertebrae, thereby allowing for insertion of base plate 404' into the disc space between vertebrae 104 and vertebrae 102 (not depicted in FIG. 23 for clarity).
- the distraction height may be measured as the distance between inferior surface 404a' of base plate 404' and the superior surface of shielding portion 406b' of nerve root shield 406'.
- the separation height 480 may be measured as the distance between the superior surface of inferior vertebra 104 and the inferior surface of superior vertebra 102 (see FIG. 26).
- Base plate 404' of implant trial 400' may be selectively inserted and positioned at least partially within the disc space.
- base plate 404' is positioned at a selected anterior-posterior depth 444 (see FIG. 24).
- base plate 404' may be inserted into the disc space until x-ray visible feature 418' is positioned at a selected distance from the anterior edge 104a of inferior vertebra 104.
- base plate 404' may be inserted into the disc space substantially through a region bordered by the vertebral endplates, dura, and exiting nerve root (not shown) of the vertebrae.
- Base plate 404' may be positioned against the superior surface of inferior vertebra 104.
- Base plate 404' may be positioned within the disc space at a selected angle 450 with respect to the sagittal plane 452. In some embodiments, the selected angle is between about 10° to 14°. In certain embodiments, the selected angle is about 12°. Base plate 404' may be positioned within the disc space such that a portion of the base plate is on or near the sagittal plane. Positioning of base plate 404' may be confirmed by locating x-ray visible features 418', 420', and/or an additional feature of base plate 404' via intra-operative (e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging). In some embodiments, lateral imaging techniques may be used to confirm that anterior-posterior depth of base plate 404'. Intra-operative equipment may be aligned with aperture 416' of implant trail 400' to obtain a true lateral image of the implant trial within the disc space.
- intra-operative e.g., x-ray, computed tomography, ultrasound, and magnetic resonance
- method 600 includes inserting one or more dilators to the disc space to achieve distraction of the disc space, as depicted at block 604.
- Proximal portion 422a' of dilator 422' may be inserted between the vertebrae to distract the disc space.
- dilator 422' may be removably inserted into slot 410' of implant trial 400' (see FIG. 25). Dilator 422' may be inserted into slot 410' until lip 424' is engaged with a portion of elongated body 402'.
- the height of dilator 422' may be such that shielding portion 406b' of nerve root shield 406' is pressed against the inferior face of superior vertebra 102 (see FIG. 26).
- X-ray visible feature 426' may be located less than about 5 millimeters (about 0.196 inches) from the posterior vertebral body edge 104b of inferior vertebra 104.
- the position of dilator 422' may be verified by locating x-ray visible feature 426' and/or an additional feature of dilator 422' via intra-operative (e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging).
- Guide member 430' of guide frame 428 may be placed proximate implant trial 400'.
- Guide member 430' may be coupled to implant trial 400'.
- grip 438' of guide release 436' may be pulled outwards to withdraw a stop pin from opening 434a' of guide 434'; guide 434' may then be engaged with key 408' of elongated body 402' (see FIG. 27).
- guide 434' is laterally engaged with key 408'.
- guide 434' is longitudinally engaged with key 408'.
- Grip 438' may be released so that a spring in guide release 436' urges the stop pin against key 408'.
- guide member 430' may be lowered along key 408' until the stop pin extends into pin catch 412'.
- elongated body 402' is slidable through opening 434a' of guide 434'.
- Implant trial 400" may be placed proximate second guide member 430" of guide frame 428 (see FIG. 28). Implant trial 400" may be coupled to guide member 430". For example, in the illustrated embodiment, grip 438" of guide release 436" may be pulled outwards to withdraw a stop pin from opening 434a" of guide 434"; key 408" may then be engaged with guide 434". In some embodiments, key 408" is laterally engaged with guide 434". In some embodiments, key 408" is longitudinally engaged with guide 434". Grip 438" may be released so that a spring in guide release 436" urges the stop pin against key 408". Once engaged, implant trial 400"may be lowered along guide 434" until the stop pin extends into pin catch 412". In some embodiments, elongated body 402" is slidable through opening 434a" of guide 434".
- the position of base plate 404" within the disc space may substantially mirror the position of base plate 404' within the disc space. As such, a portion of base plate 404" may abut or be close to abutting the portion of base plate 404' on or near the sagittal plane 452 (see FIG. 29). Angle 458 between the abutting portions of base plates 404' and 404" may be equal to the convergent angle of the guide members. In some embodiments, angle 458 is about 20° to 30°. In certain embodiments, angle 458 is about 24°. In some embodiments, the base plates of the expandable trials may be coupled together with male and female portions when the base plates are positioned between the vertebrae.
- base plates 404' and 404" are positioned at a selected, substantially equal anterior-posterior depth 444. Positioning of base plates 404', 404" may be confirmed via intra-operative (e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging).
- intra-operative e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging.
- a method of positioning two implants may include basically forming two mirrored right-angled triangles where 2 sides and one angle are known, thus mirroring the implant positions relative to each other.
- a position of the triangle relative to a vertebral body may be fixed using an attachment to the body, and/or by visual means (with or without xray), and/or by use of a computer assisted "image guided system".
- a bridge may be outside the wound.
- Angle b (not shown FIG.
- Angle b is not the shape of the bridge which is irrelevant. Furthermore it could be 90 degrees (or even greater) as some systems, contemplate parallel, or even slightly divergent implants.
- the triangles may intersect at some point outside of the body in space, but that isn't necessary.
- the bridge forming distance A (not shown FIG. 29, the distance of the combined bases of the mirrored triangles), may be single or multiple pieces.
- Implant holders and Trial instruments connect to the bridge and are interchangeable. The instruments may be used to direct a cut in the bone (keel or anchor) to accept the implant. In some embodiments, it is an anchor in the caudal (below) endplate, but it could be the cranial (above), or both.
- the proximal portion of a second dilator may be inserted between the vertebrae to further distract the disc space.
- the second dilator may be removably inserted into slot 410" of implant trial 400".
- the height of the second dilator may be such that shielding portion 406b" of nerve root shield 406" is firmly pressed against the inferior face of superior vertebra 102.
- the dilators inserted into the disc space may be sequentially removed and replaced one after the other with progressively larger dilators until a maximum separation height is achieved.
- a maximum separation height may be achieved when the disc space opens posteriorly without parallel anterior separation.
- the separation height 480 between the vertebrae may be verified via lateral x-ray imaging.
- the size of a dynamic interbody device to be implanted within the disc space is determined according to the maximum separation height. In some embodiments, a height of the interbody device is less than or equal to the maximum separation height achieved via distraction. For example, the height of a dynamic interbody device may be about 2 millimeters (about 0.079 inches) or less than the maximum separation height achieved via distraction.
- a drill guide 460' may be positioned in a groove of implant trial 400' (see FIG. 30).
- Drill guide 460' may include flag 462' and tubular body 464'. The proximal end of drill guide 460' may abut the posterior vertebral body edge 104b of inferior vertebra 104.
- Flag 462' may be located at the distal end of the drill guide.
- the distance 466 between flag 462' and a surface of elongated body 402' may indicate the approximate expected distance between the posterior end of the dynamic interbody device and the posterior vertebral body edge 104b of inferior vertebra 104.
- a anchor guide 468' may be inserted through tubular body 464' of drill guide 460' to form an aperture in inferior vertebra 104 for the anchor of the dynamic interbody device (see FIG. 31).
- Anchor guide 468' may include shaft 470', drill bit 472', and drill stop 474'.
- Shaft 470' may extend drill bit 472' through tubular body 464' and into the disc space.
- Drill bit 472' may pierce the vertebral body of the inferior vertebra 104, thereby forming an aperture (see FIG. 32) in the inferior vertebra.
- Drill stop 474' located near the distal end of the anchor guide, may abut a portion of elongated body 402 to prevent boring of the vertebral body passed a selected depth.
- Similar drill and anchor guides may be used in conjunction with implant trial 400" to form a second aperture in the vertebral body of the inferior vertebra 104.
- method 600 removing the base plate and dilators from the disc space, as depicted at block 606.
- a dilator may be removed from the disc space and slot 410" to decrease the distraction height of implant trial 400".
- Implant trial 400" may be uncoupled from guide member 430" of guide frame 428.
- grip 438" of guide release 436" may be pulled outwards to withdraw the stop pin from guide 434".
- Implant trial 400" may then be removed from the disc space and guide member 430".
- Base plate 404" of implant trial 400” may be removed from the disc space while base plate 404' of implant trial 400' remains at least partially inserted in the disc space (see FIG. 33).
- method 600 includes inserting the interbody device into the disc space in substantially the same position as the base plate, as depicted at block 608.
- Insertion instrument 500" coupled to dynamic interbody device 100" may be placed proximate guide member 430" of guide frame 428.
- Elongated body 502" of insertion instrument 500” may be coupled to guide member 430".
- grip 438" of guide release 436" may be pulled outwards to withdraw the stop pin from the opening of guide 434"; key 508” may be engaged with guide 434" (see FIG. 34).
- key 508" is laterally engaged with guide 434".
- key 508" is longitudinally engaged with guide 434".
- Grip 438' may then be released so that the spring in guide release 436" urges the stop pin against key 508".
- insertion instrument 500" may be lowered through guide 434" until the stop pin extends into pin catch 510".
- Anchor 116 of dynamic interbody device 100" may be received by the aperture formed in inferior vertebra 104. If needed, a mallet or other impact instrument may be driven against a distal end of insertion instrument 500" to drive dynamic interbody device 100" between the vertebrae (see FIG. 35).
- Implant trial 400' may be removed from the disc space and guide member 430' of guide frame 428. Insertion instrument 500' coupled to dynamic interbody device 100' may be inserted in a similar manner as that described above with respect to insertion instrument 500" and dynamic interbody device 100".
- FIG. 36 depicts insertion instruments 500', 500" and dynamic interbody devices 100', 100" positioned in the disc space. Positioning of dynamic interbody devices 100', 100" may be confirmed via intra-operative (e.g., x-ray, computed tomography, ultrasound, and magnetic resonance imaging).
- insertion members 504', 504" may be uncoupled from the respective portions of the dynamic interbody devices 100', 100".
- wheels 506', 506" of insertion instruments 500', 500" may be rotated to withdraw insertion members 504', 504" from openings 144 of dynamic interbody devices 100', 100".
- Grips 438', 438" of guide members 430', 430" may be pulled outwards to retract the stop pins of the guide releases 436', 436" from channels 434', 434", and insertion instruments 500', 500” may be removed from the disc space and guide members.
- implant trial 400' may be removed and insertion instrument 500' and dynamic interbody device 100' may be installed prior to removal of implant trial 400" and installation of insertion instrument 500" and dynamic interbody device 100".
- insertion bridge 428 and/or guide frame 432 may be removed prior to removal of insertion instruments 500', 500".
Abstract
Description
Claims
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GB1316753.1A GB2503166B (en) | 2011-03-25 | 2012-03-23 | Interbody device insertion systems and methods |
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US13/072,511 US8388687B2 (en) | 2011-03-25 | 2011-03-25 | Interbody device insertion systems and methods |
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Also Published As
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GB201316753D0 (en) | 2013-11-06 |
DE112012001452T5 (en) | 2014-01-16 |
US8940051B2 (en) | 2015-01-27 |
US20130245769A1 (en) | 2013-09-19 |
US20120245689A1 (en) | 2012-09-27 |
WO2012134980A3 (en) | 2013-01-10 |
US8388687B2 (en) | 2013-03-05 |
DE112012001452T8 (en) | 2014-04-10 |
GB2503166B (en) | 2017-10-18 |
GB2503166A (en) | 2013-12-18 |
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