US20010020188A1 - Selective uptake of materials by bone implants - Google Patents
Selective uptake of materials by bone implants Download PDFInfo
- Publication number
- US20010020188A1 US20010020188A1 US09/778,046 US77804601A US2001020188A1 US 20010020188 A1 US20010020188 A1 US 20010020188A1 US 77804601 A US77804601 A US 77804601A US 2001020188 A1 US2001020188 A1 US 2001020188A1
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- Prior art keywords
- implant
- bone
- demineralized
- segment
- mineralized
- Prior art date
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Definitions
- This invention relates to a device made from segmentally demineralized and appropriately shaped and machined bone for implantation as a ligament, tendon, support or in any other application in which an implant having at least one rigid segment and at least one flexible segment, is required.
- this invention disclosure relates to the novel selective uptake of materials by bone implants of this type by modifying the mineralization status of various portions of bone implants.
- the present invention is directed to methods of selective update of materials into bone for implantation.
- the selective uptake of almost any material has been found to be enhanced by selectively demineralizing that portion of bone and then contacting the thus-treated portion of bone with a liquid milieu containing the material the selective uptake of which into the bone implant is desired.
- any of a number of different materials may be selectively taken up, absorbed, infused or otherwise contained by segmentally demineralized bone.
- This invention provides a novel bone implant having at least one rigid, mineralized bone segment, which may be machined to include threads, grooves, a driver head, a recess or a symmetric or asymmetric shape, and at least one flexible, demineralized segment, which may also be machined to any desired shape prior to demineralization, or after demineralization.
- the subject implants may comprise only demineralized portions or mineralized portions, wherein the demineralized or mineralized portions have utility separately, or are brought into association together.
- the subject implants are preferably made of cortical, cortico-cancellous, or cancellous bone. It is to be understood that the type of bone used to make the subject bone implants will depend on the intended end use of the implant.
- Factors to be considered in determining the type of bone to use include, but are not limited to, strength, porosity, and/or flexibility, the effect of which will be apparent to those skilled in the art in view of the teachings herein.
- the selectively demineralized portions of the bone implant are contacted with materials, compositions, compounds, solutions, cells or the like, the selective uptake of which is enhanced in those portion of the implant that are demineralized.
- the result of such uptake is the conferral on the selectively demineralized portions of the bone implant of particular properties, such as the more rapid remodeling of the bone implant into autogenous bone, by virtue of selective uptake of bone progenitor cells, or the more rapid remodeling of the bone into flexible connective tissue, such as cartilage or ligaments or tendons, through selective uptake of chondrocytes, or fibroblasts, or the like, depending on whether the implant portion is desired to remodel into one tissue type or another.
- FIG. 1 provides a view of a first embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit threads on each end (FIG. 1A), and which is then demineralized only in the internal section to provide a flexible segment between the machined ends (FIG. 1C);
- FIG. 1B provides a view of an alternate embodiment in which one end of the implant has a rigid fixation bone block;
- FIG. 1D shows an end-on view of a cannulated embodiment of the implant of this invention.
- FIG. 2 provides a view of a second embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit threads on one end and an attachment hole at the other (FIG. 2A), and which is then demineralized on the attachment hole end of the implant to provide a flexible segment, while retaining the threaded segment as a rigid member (FIG. 2B).
- a partial cannulation of the implant is shown in end-on (FIG. 2C), top (FIG. 2D) and side views (FIG. 2E).
- FIG. 3 provides a view of a third embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit a fixation block at each end of the implant (FIG. 3A), and which is then demineralized between the two ends to provide a flexible segment between the machined fixation block ends (FIG. 3B).
- FIG. 4 provides a view of a fourth embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit a fixation block at one end and an attachment hole (FIG. 4A) or several holes or perforations (FIG. 4B) at the other, and which is then demineralized at the end bearing the attachment hole(s) (FIGS. 4C and 4D) to provide a flexible segment, while retaining the fixation block end as a rigid member.
- FIG. 4A attachment hole
- FIG. 4B several holes or perforations
- FIG. 5 shows one method of implantation of the implant of this invention in which fixation screws are utilized to retain the implant of this invention in place either by locking the implant in place through holes in the rigid segment of the implant (FIG. 5A), or by locking the implant into place at the rigid end of the implant via a tapped recess (FIGS. 5B and 5C).
- FIG. 6 shows an embodiment of this invention in which the implant is a femoral ring (FIG. 6A) in which the upper and lower ends of the ring are retained in a rigid, mineralized state and which may be machined to exhibit a thread or a groove, and the internal segment of the implant is demineralized to exhibit a soft spongy layer to provide flexible support upon insertion of this embodiment of the invention between adjacent vertebral bodies; alternatively, the upper, lower or both segments may be demineralized and the internal segment may be retained in a mineralized state; FIG. 6B shows this implant having angled faces; FIG. 6C shows this implant machined as a wedge.
- FIG. 6A femoral ring
- FIG. 7 shows various cross-sections (FIG. 7A, spherical; FIG. 7B, elliptical; FIG. 7C, rectangular; FIG. 7D, cross-shaped) for the mineralized or demineralized segment of the implant of this invention.
- FIG. 8 depicts one embodiment of a prosthetic joint according to this invention having pointed projections for replacement of a joint (FIG. 8A) or for insertion between vertebrae (FIG. 8B).
- FIG. 9 depicts a flexible implant according to this invention for contoured repair of bone defects, including but not limited to craniomaxillofacial defects, including a first “pizza-shaped implant” (FIG. 9A), a second “pizza-shaped implant” (FIG. 9B), and a wrap implant having alternating mineralized and demineralized segments (FIG. 9C).
- FIG. 10A depicts a first embodiment and FIG. 10B depicts a second embodiment of an anterior longitudinal ligament replacement for limiting motion between adjacent vertebrae to be fused.
- FIG. 11 depicts a band for limiting the motion and reducing the degradation of vertebrae juxtaposed to vertebrae undergoing fusion (i.e. as a spinal tension band) or for being affixed to any other anatomical structures to minimize motion of such structures in relation to each other.
- FIG. 12 depicts a perforated sheet comprising mineralized and demineralized bone for use as a “mesh”, such as for use in a dressing or to retain particulate matter.
- FIG. 13 depicts a cortical bone screw comprising at least a portion thereof which is demineralized or partially demineralized.
- FIG. 14A shows a side view
- FIG. 14B shows a rear view
- FIG. 14C shows a frontal view of an implant that is particularly suited for implantation into the intervertebral space.
- FIG. 15 depicts an embodiment that is particularly suited for implantation into the intervertebral space.
- FIG. 16A depicts an embodiment useful as a delivery vehicle comprising a mineralized region and a demineralized region, wherein the demineralized region contains a biologically active substance.
- FIG. 16B shows the embodiment as conformed around an internal structure.
- FIG. 17 depicts an embodiment that is flexible and has associated therewith a support structure that confers the ability to maintain a predetermined shape.
- FIG. 18 depicts an embodiment in the form of a plate which has mineralized regions formed thereon for providing a secure substrate for an attachment means.
- FIG. 19A depicts a top view
- FIG. 19B depicts a side view portion of an embodiment having a demineralized cortex and mineralized rows disposed thereon.
- FIG. 20 depicts a 3-D view of an embodiment that comprises a demineralized cortex and a plurality of mineralized projections extending from the demineralized cortex.
- FIG. 21 demonstrates an implant with at least one and optionally a plurality of lumens running longitudinally therethrough.
- FIG. 22 is a representation of a segmentally demineralized bone implant in which cellular material has been selectively taken up by the portion of the bone implant that is demineralized.
- This invention provides a biologically acceptable ligament, tendon, support or other implant for replacement of damaged ligaments, tendons, vertebral disks and the like, wherein there is a need for an implant having both a rigid machined portion or segment as well as a flexible, demineralized portion or segment.
- a segment of preferably cortical bone is machined into a desired shape, with at least one end being machined so as to provide a means for fixation of that end directly to a bone machined in a complementary fashion.
- a first embodiment of the implant of this invention 100 is shown in which the ends 101 and 102 of the implant are machined so as to exhibit a thread, and the bone to which the implant is to be affixed is tapped to exhibit a receiving thread complementary to the thread on the implant end.
- the threaded ends 101 , 102 may be self-tapping, thereby eliminating the need to tap the receiving bone.
- a simple hole, of a diameter slightly smaller than the diameter of the threaded implant ends, may be drilled or produced by like means to receive the threaded implant end.
- An internal segment 103 of the implant is demineralized to provide a flexible segment of the implant, while transition zones 104 , 105 are provided wherein the level of mineralization of the bone gradually changes from a fully mineralized to a demineralized state.
- the two ends 101 , 102 of the implant are machined to exhibit threads such that clockwise or counterclockwise rotation of the entire implant results in simultaneous insertion of both ends of the implant or extraction of both ends of the implant into or out of complementarily machined bones to which the implant is to be affixed, without kinking of the flexible segment 103 of the implant.
- FIG. 1B an alternate embodiment is shown wherein one of the ends, 101 ′, is not threaded, but is machined to any desirable shape, such as a fixation block, such that the threaded end 102 may be threaded into the receiving bone, while the fixation block 101 ′ is affixed in place by interference screws or like means known in the art.
- the entire implant is machined so as to exhibit a cannulation 110 throughout its length or a portion thereof. In this fashion, the implant may be inserted over a guide-wire or like guide means.
- the aspect 110 may be an internal thread capable of receiving a threaded retention screw.
- FIG. 2 In a further embodiment of this invention 200 shown in FIG. 2, only one end 202 of the implant 200 is machined to exhibit a thread or another machined feature, while the other end 201 may be machined to exhibit a fixation hole 210 or a similar feature, which permits for suturing or otherwise fixing that end to a ligament or a tendon.
- a transition zone 204 from a mineralized to a demineralized state is provided, as is a flexible segment of the implant 203 .
- FIGS. 2 C-E there are shown an end-on view, a side view and a top view, respectively.
- an optional cannulation 220 is shown, permitting threading of the machined portion 202 of the implant over a guide-wire, for example, while not interfering with the flexible, demineralized segment 203 of the implant.
- the implant may be used to replace a ligament.
- two transition zones 304 , 305 from the flexible segment 303 to terminally mineralized fixation blocks 301 , 302 are provided.
- the fixation blocks 301 and 302 each have a canal 306 , 307 machined therein for receiving a fixation screw or pin.
- the mineralized sections 302 , 303 may be machined into any desired form of an anchoring fixture.
- the anchoring fixture may contain a screw thread, a hole for receipt of an anchoring pin or an anchoring screw, or a screw that rotates within a sleeve.
- the implant is used for repair or replacement of a tendon.
- only one end 402 of the implant 400 is machined for fixation in a bone
- the second end 401 of the implant is adapted to a variety of shapes, terminating in a means, such as a threadable hole 410 , for fixation of that end to bone, muscle, tendon or ligament.
- the end 401 ′ is machined to exhibit a plurality of holes or perforations, 410 ′ , such that end 401 ′ may be sutured to a receiving biological structure, such as a muscle, ligament, tendon, bone or the like.
- FIG. 5 one method of implantation of the implant 500 of this invention is shown in which fixation screws 553 are utilized to retain an embodiment of the implant 500 of this invention in a machined slot 551 in a bone 550 either by locking the implant in place (FIG. 5A) through holes 552 in the rigid segment 501 of the implant (FIG. 5A), or by locking the implant into place at the rigid end 503 of the implant via a tapped recess (FIGS. 5B and 5C).
- the other end of the implant 504 is demineralized, and is thus flexible, and terminates in a hole 502 or other fixation means by which that end of the implant is attached to bone, tendon, ligament or muscle.
- section 501 could be threaded, end 502 could be retained in a mineralized state and could be shaped as a fixation block for retention by an interference screw, or threaded.
- the implant 500 may be cannulated, with the recess 503 continuing through the entire length of the implant, or some portion thereof.
- FIG. 6A shows an embodiment of this invention in which the implant 600 is a femoral ring member or a portion thereof wherein the upper and lower ends or faces 602 , 604 are retained in a rigid, mineralized state and which may be machined to exhibit a thread or a groove by means known in the art (see WO 97/25945, hereby incorporated by reference for this purpose).
- the internal segment of the implant 603 is demineralized to exhibit a soft spongy region to provide flexible support upon insertion of this embodiment of the invention between, for example, adjacent vertebral bodies.
- An internal canal 601 is shown in the femoral ring, which derives from the natural intramedullary canal of the bone from which the femoral ring is obtained by substantially planar, parallel cross-cuts across the diaphysis of a femur or like long bone. Alternatively, a transverse cut to form a dowel which is then segmentally demineralized is also contemplated.
- the canal may be left open or filled with osteogenic factors, including but not limited to autologous bone or marrow.
- the canal may be filled with a carrier and growth factors, including but not limited to bone morphogenetic proteins, demineralized bone matrix (DBM), or any inert or biologically active substance considered beneficial for insertion into the spine to assist in support thereof or for fusion of adjacent vertebrae.
- the canal may retain the natural architecture of the intramedullary canal or it may be scraped out or otherwise modified.
- the upper end 601 , the lower end 604 , or both may be demineralized, while the internal segment 603 of the implant may be maintained in a mineralized state.
- the upper 602 and lower 604 faces of the implant may not be parallel, but rather may slope toward each other, as shown for embodiment 610 in FIG. 6B, such that H 1 is greater than H 2 .
- the upper and lower faces may exhibit curvature and external features, such as grooves, pits or protrusions to assist in the retention of the implant when inserted between adjacent vertebrae.
- the slant of the upper and lower faces should be such that the natural lordosis of the spinal segment into which the implant is inserted is maintained.
- the shape of the implant may include a substantially circular, elliptical, rectangular or like shape. As shown in FIG.
- the implant may comprise a portion of the femoral ring, exhibiting a greater width W1 and a lesser width W2.
- the upper surface, lower surface or both surfaces may comprise features such as grooves, pits, indents, teeth or protrusions to inhibit slippage or expulsion of the implant.
- the implant of this invention comprising a segmentally demineralized bone comprising at least one mineralized portion or segment, and at least one flexible, demineralized portion or segment is produced by machining a piece of preferably cortical bone into any desired shape.
- the bone is preferably chosen to be strong cortical bone, such as from the femur, tibia, fibula, radius or ulna.
- the source of the donor bone may be autograft, allograft or xenograft bone, with the appropriate cautionary steps known in the art being taken in each case to prevent introduction into the recipient of pathogenic or antigenic agents.
- a segment of the implant is preferably machined to exhibit a thread or like fixation means whereby the implant may be directly affixed to recipient bone machined in a complementary fashion. That segment of the implant is retained in a mineralized state, by appropriately protecting that segment of the implant with any protective device, such as with parafilm, a rubber or latex covering, plastic wrap, and the like.
- the remaining segment of the implant is then demineralized according to methods known in the art. For example, in the embodiment 100 of this invention shown in FIG.
- both ends 101 , 102 may be inserted into rubber stoppers spanning the transition zones 104 , 105 , and the internal segment 103 , is exposed to an acid solution of sufficient strength to leach the minerals from that segment of the bone.
- a 5% acetic acid solution or a 1 N hydrochloric acid solution may be employed, and the implant checked periodically for the desired level of flexibility of the internal zone 103 . It is important that an excessively high concentration of strong acid not be employed for this process, as this will result in cleavage of the peptide bonds of the collagenous matrix within which the minerals are deposited.
- HC1 concentrations of between about 0.1N to 2N are acceptable, with the period of exposure to acid being increased for the lower acid concentrations and decreased for the higher acid concentrations.
- the transition zones 104 , 105 are formed by diffusion of the acid into and diffusion of the minerals out of the bone in that segment of the implant covered by the protective covering.
- the implant of this invention may be prepared by appropriately masking portions of the implant, using a tape, rubber, latex or any other material which may be adhered to any portion of the bone, to prevent demineralization of portions thereof.
- the implant is produced by masking portions of a flat segment of cortical bone, to form a striated “pizza-slice-shaped” implant device, as shown in FIG. 9.
- a shape, such as a substantially hexagonal piece of cortical bone 900 is demineralized after application of masking means 910 such that intermediate sections 920 are demineralized while zones of mineralized bone remain where masked at 910 .
- an implant 950 is produced wherein zones 960 are protected from the demineralizing agent (acid, chelating agents, and the like), while areas 970 are not protected.
- demineralizing agent acid, chelating agents, and the like
- the result is a pizza-slice-shaped implant 950 having flexible hinge portions with mineralized pizza-slice-shaped portions 960 which retain mineral and rigidity.
- An implant such as 900 or 950 has application, for example, in the repair of craniofacial or craniomaxillofacial defects, among other possible applications.
- 9C may be produced from a sheet of cortical bone with alternating mineralized 990 and demineralized 985 zones for wrapping around a piece of fractured bone, for example.
- the mineralized portion of the bone-wrap acts as a splint while the flexible, demineralized portion of the bone-wrap permits the implant to wrap around the fractured bone segment.
- the flexibility of the implant permits the implant to be contoured to the surface of a bone defect area to repair such defect.
- implants of a wide variety of shapes, sizes and applications may be produced in a similar manner wherein a portion of the implant retains a rigid mineralized portion and a portion of the implant is at least partially demineralized to produce a flexible portion of the implant.
- sheets of bone, partially demineralized wrapping sheets and the like are all variations on this theme which come within the scope of the instant invention.
- a partial demineralization of the surface of bone implants has been found to be beneficial in that modification of the stress-fracture behavior of the bone may thus be achieved. Accordingly, depletion of up to about 25 percent of the natural bone mineral may be achieved by limited demineralization to break up the bone crystal structure in the partially demineralized portion of the implant. As a result, reduction in the variability of the stress load at which bone fractures upon stress of the bone has been noted, even when as little as a one percent reduction in the bone mineral content is used. This observation may be combined with embodiments of the implant of this invention wherein a portion of the implant is maintained in a rigid, mineralized state, while at least one portion of the implant is demineralized or partially demineralized.
- the implant of this invention may be further treated by tanning or other means known in the art to reduce the antigenicity of the implant.
- glutaraldehyde treatment see U.S. Pat. No. 5,053,049, hereby incorporated by reference for this purpose
- the implant may be subjected to treatment with chaotropic agents, including but not limited to urea, guanidine hydrochloride, combinations thereof and like agents, to remove noncovalent immunogens.
- Treatment with reducing agents, detergents, chelating agents and the like may also be beneficially applied, depending on the nature of the bone implant and its source. For example, where xenograft bone is used as the material for implant production, reduction in the antigenicity of the bone becomes much more important than if autograft or allograft bone is used.
- FIG. 7 various cross-sectional shapes of the implant of this invention are shown.
- a cylindrical cross-section is shown.
- various diameters from as small as 0.5 mm or smaller to as large as 10 mm, or in certain applications, even larger, may be desirable.
- FIG. 7B an oval cross-section is provided.
- FIG. 7C a flat cross section is provided.
- FIG. 7D a cross-shaped cross-section is provided.
- the implant of this invention may be appropriately fashioned for a wide diversity of applications.
- an implant of this invention may be applied to repair of ligaments or tendons in the hand, elbow, knee, foot, ankle or any other anatomical location as needed.
- the implant of this invention may be applied to replacement any of a variety of joints. Methods and implant shapes known in the art for joint replacement, (see, for example U.S. Pat. Nos. 4,871,367; Des. 284,099; Des. 277,784; Des.
- a piece of cortical bone is shaped so as to form a surgically implantable prosthetic joint having a load distributing flexible hinge, analogous to that disclosed in U.S. Pat. No. 3,875,594 (which was made from molded silicone rubber).
- a prosthesis is formed consisting of an enlarged midsection, and a pair of oppositely projecting distal and proximal stem portions.
- the volar aspect of the midsection is machined to exhibit an indent or transverse channel extending across its width, to form the flexible hinge upon demineralization of the midsection.
- the midsection, intended to act as the hinge, is demineralized, and the mineralized extremities of the implant are retained in a mineralized state for insertion of each end into the intramedullary space of the bones adjacent to the joint which the implant replaces.
- the mineralized extremities are machined to exhibit a thread or a ratcheting tooth structure, such that upon insertion of each end into the intramedullary space of the adjacent bones, the end is fixed in place. Since the ends are made from bone, the natural process of fusion between the implant and the bone into which it is inserted occurs over several weeks, thus permanently fixing the prosthesis into position and preventing any movement of the ends of the implant. Implants according to this embodiment of the invention may be used, for example, to replace metacarpophalangeal joints, proximal interphalangeal joints and the like. Accordingly, this invention represents a significant advance in the art as it provides a natural alternative to currently employed metallic, hydroxyapatite, silastic, silicone or like elastomeric materials for joint arthroplasty.
- FIG. 8A there is provided one diagrammatic representation of an implant of a prosthetic joint according to this invention and which may be prepared according to the concepts central to the instant invention.
- the implant 800 has an enlarged midsection 810 which is demineralized up to and including a portion of the transition segment 820 .
- On either side of the midsection 810 are mineralized projections 830 adapted for insertion into the intramedullary canals of bones adjacent to the joint which the implant 800 replaces.
- a groove or channel 850 is provided to act as the hinge and to allow bending motion of the joint according to principles described in U.S. Pat. No. 3,875,594, herein incorporated by reference for this purpose.
- the projections 830 may exhibit an external feature designed to enhance retention of the implant in the intramedullary spaces.
- this feature is shown as a tooth-like serration which may be machined into an upper or lower aspect of each projection 830 or which may project around the circumference of the projections.
- Alternate external features which may aid in retention of the implant include holes through which retention pins may be inserted, grooves, ribbing and the like.
- the demineralized midsection 810 permits the implant 800 sufficient flexibility to allow that portion of the implant to act as a joint, while the projections 830 fuse with the bone into which they are inserted to form a permanent fixation. It will be appreciated that, as shown in FIG.
- an implant 860 similar to that shown in FIG. 8A may be implemented for inducing spinal fusion, whereby an intermediate section 870 is demineralized while extensions thereof 880 are retained in a mineralized state.
- an intermediate section 870 is demineralized while extensions thereof 880 are retained in a mineralized state.
- the height H 1 may be greater or smaller than the height H 2 .
- the upper surface 885 , the lower surface 886 , or both may comprise features such as grooves, pits, or projections which help retain the implant between vertebrae when inserted into an intervertebral space.
- FIG. 10 there is provided one embodiment 1000 of the ALL according to this invention.
- the ALL 1000 is prepared from the distal femur or other flat cortical surface, such as the proximal humerus or tibia.
- a top portion 1010 and a bottom portion 1020 is retained in a mineralized state, or is only partially demineralized, or is surface demineralized to modify the stress-fracture behavior of that portion of the implant.
- the top portion 1010 and the bottom portion 1020 each have a series of holes 1005 by means of which the ALL is affixed to a superior vertebra V 1 and an inferior vertebra V 2 .
- An intermediate section, 1030 is demineralized, to an extent sufficient to permit that segment of the ALL to have a degree of flexibility.
- the ALL substantially restricts motion at the vertebral segment spanned by the ALL.
- a pair of interbody implants 1040 inserted between superior vertebra V 1 and inferior vertebra V 2 , spanned by the ALL, in order to induce fusion between V 1 and V 2 .
- FIG. 10B there is shown a further embodiment of the ALL of this invention which is identical in all respects to the implant shown in FIG. 10A, but wherein this embodiment has an enlarged upper segment 1010 ′ and lower segment 1020 ′ for affixation to the vertebrae V 1 and V 2 .
- the precise shape of the ALL is not critical.
- the ALL may span more than two vertebrae.
- a spinal tension band STB.
- the motion segment adjacent to the fused segment have been found to rapidly degrade. This degradation appears to be due to the hypermotion at these levels, due to the decreased motion at the juxtaposed fused segments.
- the STB of this invention assists in preventing this degradation and can avoid the need for further surgery, by spanning the fused segments and attaching to the juxtaposed vertebral body at the spinous process thereof.
- the STB may be used in any region of the spin, but is typically most useful for spanning fusions at two, three or more levels.
- the STB of this invention replaces or augments use of flexible stainless steel, titanium cables, elastomeric or polymeric synthetic materials currently in use. Accordingly, known techniques for attaching such devices to the spinous processes may be used, or the STB may be affixed to juxtaposed vertebral bodies in a fashion analogous to that described above for the ALL.
- FIG. 11 there is disclosed one embodiment of the STB 1100 of this invention. As can be seen, the STB 1100 is affixed to a superior vertebrae, VA, and an inferior vertebra, VB, each of which are juxtaposed to a vertebrae V 1 and V 2 , which are being fused to each other by means of interbody fusion devices IB 1 and IB 2 .
- Intermediate portion 1110 of the STB may be demineralized, while the top portion 1120 and bottom portion 1130 maybe retained in a mineralized or partially demineralized state.
- Fixation means 1125 and 1135 are provided for fixation of the STB to the juxtapose vertebrae VA and VB, respectively.
- this embodiment of the invention may be applied to any other anatomical structures to minimize motion of such structures in relation to each other.
- the tension band of this invention may be utilized outside of the spinal context, such as for repair of a split sternum in a sternotomy.
- FIG. 12 there is shown a further embodiment 1200 of the implant of this invention in the form of a sheet 1205 having a plurality of perforations 1206 comprising mineralized 1210 and demineralized 1220 segments.
- the perforated segmentally demineralized sheet of this embodiment of the invention may be used as a wrap or as a retention means for particulate material, gel material and the like when deposited on, in or around a bone, for example.
- Compositions which may be used in connection with this embodiment of the invention include osteogenic bone paste and the like.
- FIG. 13 there is shown a further embodiment 1300 of the implant of this invention in the form of a screw made from cortical bone, comprising at least a portion thereof which is demineralized or partially demineralized.
- desirable physical characteristics, and in vivo remodeling characteristics of such a device may be achieved by demineralizing or partially demineralizing various segments of the screw.
- the point 1310 of the screw may be mineralized while the thread 1320 or drive head 1330 may be partially demineralized, to provide desirable surface characteristics, including but not limited to greater capacity for in vivo remodeling or minimized stress-fracture characteristics.
- FIG. 13 the point 1310 of the screw may be mineralized while the thread 1320 or drive head 1330 may be partially demineralized, to provide desirable surface characteristics, including but not limited to greater capacity for in vivo remodeling or minimized stress-fracture characteristics.
- FIG. 14A shows a side view of the implant 1400 .
- the implant 1400 has an elongated demineralized segment 1405 designed to be positioned in the intervertebral space of the spine.
- the elongated segment has a tapered end 1430 to resemble an intervertebral disc.
- Attached and positioned transversely to the elongated demineralized segment is a mineralized segment 1410 .
- a damaged or herniated disc is surgically removed from a patient and the demineralized segment 1405 of the implant 1400 is inserted into the space created by the excised disc.
- the mineralized segment can then be affixed to the two adjacent (superior and inferior) vertebrae by any suitable attachment means, e.g., screw, pin, staples, sutures, etc., which can be made of inert materials such as metals or polymers, or made of bone.
- the mineralized segment preferably has provided thereon one or more holes 1420 to receive a screw or other fixation device.
- FIG. 14B shows a rear view of the implant 1400 which illustrates the holes 1420 as passing completely through the mineralized segment.
- FIG. 14C shows a preferred embodiment of the implant which comprises a demineralized portion 1425 surrounding the holes 1420 .
- This demineralized portion 1425 allows for flexibility and range of motion of the implant 1400 when affixed.
- segment 1410 may be mineralized, partially demineralized or completely demineralized, while segment 1405 may be completely demineralized, partially demineralized, or mineralized.
- implant 1500 comprises a demineralized segment 1505 , a mineralized segment 1510 transversely attached to the demineralized segment 1505 , holes 1520 disposed on the mineralized segment 1510 for receiving an attachment means, and a demineralized portion 1525 surrounding the holes 1520 .
- the demineralized segment 1505 of the implant 1500 is slightly curved to accommodate possible irregularities in the patient's anatomy or to provide different angles of approach for insertion of the implant 1500 .
- the implants 1500 and 1400 may be formed from a unitary piece of bone or it may be assembled from different pieces of bone and different portions of the implant may be partially or completely demineralized.
- FIG. 16A-B there is shown a further embodiment 1600 of the implant of the subject invention that is comprised of a multiple layers that is designed for use as a delivery vehicle, wherein, preferably, one layer has infused therein a substance having biological activity.
- the implant 1600 is preferably made of a block of corticocancellous bone or cancellous bone having a demineralized layer 1620 and a mineralized layer 1610 .
- Delivery vehicles such as sponges that are currently in use do not lead to good bone formation, typically as a result of overlying muscle tissue crushing and flexing the sponge.
- the implant 1600 overcomes this problem by providing a rigid, mineralized layer 1610 that protects the demineralized layer 1620 from being crushed, thereby allowing a sustained release of an additive infused therein.
- the demineralized layer 1620 possesses the ability to flex around internal structures. For example, as shown in FIG. 16B, the implant 1600 is capable of flexing around the transverse process of the spine 1630 .
- the implant 1600 is produced by treating the cancellous side of a corticocancellous plate with 0.5 N HC1 for approximately one hour, thereby forming a demineralized layer.
- the resultant implant can then be infused with a substance such as growth factor(s), and the like.
- the implant 1600 provides a delivery vehicle that is easy to produce and is made of a substance that can be resorbed and remodeled by the body.
- Additives can be infused into the implant 1600 by, for example, soaking the demineralized portion in a solution containing one or more additives.
- additives that can be infused into implant 1600 include, but are not limited to, hydroxyapatite; collagen and insoluble collagen derivatives, such as gelatin, and soluble solids and/or liquids dissolved therein, e.g., antiviricides, particularly those effective against HIV and hepatitis; antimicrobials and/or antibiotics such as erythromycin, bacitracin, neomycin, penicillin, polymyxin B, tetracyclines, viomycin, chloromycetin and streptomycins, cefazolin, ampicillin, azactam, tobramycin, clindamycin and gentamycin, etc.; amino acids, magainins, peptides, vitamins, inorganic elements, co-factors for protein synthesis; hormones; endocrine tissue or tissue fragments; synthe
- growth factors can be infused into implant 1600 , such as, for example, epidermal growth factor (EGF), transforming growth factor-alpha (TGF-alpha), transforming growth factor-beta (TGF-beta), human endothelial cell growth factor (ECGF), granulocyte macrophage colony stimulating factor (GM-CSF), bone morphogenetic protein (BMP), nerve growth factor (NGF), vascular endothelial growth factor (VEGF), fibroblast growth factor (FGF), insulin-like growth factor (IGF), platelet derived growth factor (PDGF), cartilage derived morphogenetic protein (CDMP), or combinations thereof.
- EGF epidermal growth factor
- TGF-alpha transforming growth factor-alpha
- TGF-beta transforming growth factor-beta
- ECGF transforming growth factor-beta
- ECGF transforming growth factor-beta
- ECGF transforming growth factor-beta
- ECGF transforming growth factor-beta
- FIG. 17 shows a further embodiment 1700 of the implant of the subject invention which is comprised of demineralized bone component 1710 and an external and/or internal support structure component 1730 .
- the implant 1700 has a demineralized bone component that has inserted (e.g., woven) therein a flexible support structure made of, for example, an inert material such as titanium, titanium alloy, stainless steel, stainless steel alloy, plastics, or combinations thereof.
- an inert material such as titanium, titanium alloy, stainless steel, stainless steel alloy, plastics, or combinations thereof.
- Other suitable materials such as, but not limited to, resorbable or nonresorbable polymers would be readily appreciated by those skilled in the art.
- the support structure 1730 is in the shape of pins or wire and is malleable such that it can bend and retain its bent shape.
- the support structure spans at least one axis, or along two or more axes of the demineralized component 1710 .
- the implant 1700 may have pre-formed holes 1720 which span along the x-axis, y-axis or both, or along a diagonal axis of the demineralized component 1710 to accommodate the structural component(s) 1730 .
- the combination of the demineralized bone component and the support structure provide an implant that is flexible, malleable, and capable of retaining a given shape.
- the support structure 1730 is made of cortical bone, wherein the cortical bone is fully mineralized, or partially or fully demineralized. Naturally, using mineralized cortical bone as the support structure 1730 will result in the implant being more rigid.
- FIG. 18 shows a further embodiment 1800 of the implant of the subject invention.
- the implant 1800 comprises a demineralized plate 1810 that has positioned thereon one or more mineralized areas 1820 .
- the mineralized areas are positioned such that securing of the plate in the implant area of a patient is optimized. Securing of the plate comprises engaging an attachment means, such as a screw, pin, staple, suture, etc., through the mineralized area and onto the implant area.
- the mineralized area acts as a rigid substrate to stabilize the contact between the attachment means and the implant 1800 .
- FIG. 19(A-B) there is shown a further embodiment 1900 of the subject invention that comprises a demineralized cortex region 1910 and a plurality of mineralized rows 1920 extending from the demineralized cortex region 1910 .
- the mineralized rows are aligned along one axis of the implant 1900 .
- This configuration allows for flexibility of the implant in one axis and rigidity along the other axis.
- the embodiment as shown in FIG. 19 will bend on itself on the y-axis but maintain rigidity on the x-axis.
- the dimensions of the implant 1900 can vary. For example, as shown in FIG.
- dimension g preferably ranges from 0.2 mm to 2 mm
- dimension h preferably ranges from about 0.5 mm to about 3.5 mm
- dimension i preferably ranges from about 0.2 mm to about 2 mm
- o preferably ranges from about 0.5 mm to about 5 mm
- FIG. 20 a further embodiment 2000 of the subject invention is shown.
- This embodiment is preferably in the form of a plate and comprises a demineralized cortex 2010 and a plurality of mineralized projections 2020 extending from the demineralized cortex 2010 .
- the mineralized projections 2020 are aligned in rows spanning along both the x-axis and y-axis of the implant 2000 . This pattern gives the implant 2000 flexibility along multiple axes.
- Implant 2100 is preferably made of partially or fully demineralized bone (cortical, cortico-cancellous, or cancellous).
- Implant 2100 comprises an elongated portion of bone 2110 that has a lumen 2120 formed within its interior, wherein the lumen 2120 preferably but not necessarily comprises a channel that runs completely through the elongated portion 2110 .
- the lumen 2120 aids in the handling and attachment of the implant 2100 at the site of need.
- the lumen 2120 allows for the convenient insertion of various surgical instruments to facilitate manipulation of the implant 2100 both inside and outside the patient during a surgical procedure.
- the lumen 2120 allows for attachment of an end of a damaged tendon, ligament, and/or bone, or some other body part, by the simple insertion of the end of the tendon, ligament or bone inside the lumen.
- the tendon or ligament can then be secured to the implant 2100 by conventional methods such as, but not limited to, suturing, pinning, tacking, and/or stapling.
- the implant 2100 can be attached to one or more bones, and/or muscle, to serve as a ligament or tendon.
- the implant 2100 can be attached to one or more bones through conventional methods and need not utilize the lumen 2120 to facilitate attachment, though use of the lumen 2100 for attachment is preferred.
- sutures can be passed through the lumen, attached to the ligament or tendon, and then pulled back into the lumen to help guide the ligament or tendon into the lumen.
- the implant 2100 is specifically implemented in ACL or other ligament reconstruction surgeries.
- the ACL and PCL cooperate, together with other ligaments and soft tissue, to provide both static and dynamic stability to the knee.
- the anterior cruciate ligament i.e., the ACL
- various surgical procedures have been developed for reconstructing the ACL so as to restore normal function to the knee.
- FIG. 22 there is shown a further aspect of this invention wherein we have found that upon implantation of a segmentally demineralized bone implant, cells contacted with the demineralized portion of the implant infused that portion of the bone, while the mineralized portions of the bone were infused to a significantly lower extent.
- the implant 2200 is shown with suture threading holes 2210 and 2220 for fixing the mineralized end 2230 to a desired location, while the demineralized segment 2240 is available for use as a ligament, tendon or the like. This particular implant was temporarily inserted into the knee joint of a goat and then removed.
- segmentally demineralized bone implant is contacted with bone progenitor cells prior to implantation.
- the demineralized portion of the bone implant selectively takes up the bone progenitor cells, and upon implantation, the infused portion of demineralized bone remodels into autogenous bone more rapidly than the non-demineralized, less infused portion of the bone implant.
- the demineralized portion of the bone is to act as a ligament or tendon or cartilage
- the appropriate cells such as chondrocytes, fibroblasts or the like are contacted with the demineralized portion of the implant prior to implantation.
- the demineralized, infused portion of the bone implant remodels into the desired tissue form more rapidly than does the mineralized portion of bone, which may remain in a rigid form for anchoring of the implant to the recipient's bone.
- this embodiment of the invention may be applied to filly demineralized segments of bone, by masking portions of the bone and allowing infiltration of materials only into exposed portions of the demineralized bone.
- cells including but not limited to mesenchymal stem cells (MSC's), other cells, blood components, growth factors, including but not limited to bone morphogenetic proteins, (BMPs), fibroblast growth factors (FGFs), platelet derived growth factor (PDGF), cartilage derived morphogenetic proteins (CDMPs), tissue derived growth factors (TGFs), and the like, nucleic acids, especially nucleic acids encoding such growth factors, proteins, peptides, antibiotics, antineoplastics, anti-inflammatory compounds, and like molecules.
- MSC's mesenchymal stem cells
- BMPs bone morphogenetic proteins
- FGFs fibroblast growth factors
- PDGF platelet derived growth factor
- CDMPs cartilage derived morphogenetic proteins
- TGFs tissue derived growth factors
- Such compounds may be included in an implant where such compound is beneficial to a the patient in amelioration of a condition under treatment.
- infusion of the replacement bone implant with an antineoplastics compound would be beneficial to prevent any potential metastasis from diseased to new healthy tissue, and to treat any residual tumor tissue through diffusion of the antineoplastics compound into surrounding tissue.
- any other desirable material even though not specifically disclosed or suggested herein, may be selectively infused into a bone implant through practicing the methods of this invention as disclosed herein.
- the starting bone stock was chosen such that a piece of bone consisting substantially of cortical bone was used to machine the implant of this invention. Implants from the linea aspera of the femur or an anterior aspect of the tibia were used for this purpose, but other cortical sources of bone would be acceptable.
- the desired bone segment was removed with a bone saw or a water-cooled diamond core cutter, and trimmed to fit in a lathe for machining of desired external features.
- the bone was first machined to a known diameter and length. The ends were then machined to exhibit an internal thread, an external thread, or to have one machined end while the other end of the implant was drilled to exhibit one to several holes.
- the internal segment destined for demineralization was then either retained in a cylindrical form or machined in a milling machine or a grinder, to exhibit a flat internal segment, or another desired shape, between the threaded ends or the fixation ends.
- Demineralization of a machined large cylindrical ligament repair graft was completed in three days using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- Demineralization of a machined small cylindrical ligament repair graft was completed in two days using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- Demineralization of a machined ligament or tendon repair graft wherein an internal segment of the graft was machined flat was completed in twenty-four hours using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution.
- the implant was exposed to fresh solution at least once per day.
- the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- Demineralization of a machined, flat ligament repair graft was completed in twenty-four hours using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- the implant was exposed to the acid solution only in the middle segment by keeping the threaded end of the implant above the meniscus of the acid, and the fixation block end of the implant was inserted into a bored-out stopper, which also acted as a plug at the bottom of the acid container, into which a hole adequate to receive the implant bearing stopper had been drilled.
- a flat cortical segment of bone is partially demineralized to form an ALL replacement or an STB, for stabilization of portions of the spine undergoing fusion.
- the ALL is affixed to two adjacent vertebrae undergoing fusion, while the STB is affixed to vertebrae juxtaposed to vertebrae undergoing fusion.
- the mineralized portion of the ALL and STB are utilized to affix the implants to the vertebrae by means of cortical bone screws, metallic pins or by hooking demineralized portions of the ALL or STB over vertebral processes. Craniomaxillofacial implantation of a pizza shaped implant such as that shown in FIG.
- a sheet of cortical bone is segmentally masked such that adjacent liner segments of alternating mineralized and demineralized bone are produced upon contact of the masked bone to demineralizing agents such as acetic acid, hydrochloric acid, chelating agents, and the like.
- demineralizing agents such as acetic acid, hydrochloric acid, chelating agents, and the like.
- the bone-wrap is wrapped around a segment of fractured bone to provide support and to contain added osteogenic compositions to maximize repair of the fractured bone.
- any implant disclosed herein or a variant thereof may be modified by selective infusion into the demineralized portion of the implant of any desirable material, including but not limited to: cells, including but not limited to mesenchymal stem cells (MSC's), other cells, osteoblasts, osteoclasts, chondrocytes, fibroblasts, chondrogenic stem cells, hematopoietic stem cells, blood components, growth factors, including but not limited to bone morphogenetic proteins, (BMPs), fibroblast growth factors (FGFs), platelet derived growth factor (PDGF), cartilage derived morphogenetic proteins (CDMPs), tissue derived growth factors (TGFs), and the like, nucleic acids, especially nucleic acids encoding such growth factors, proteins, peptides, antibiotics, antineoplastics, anti-inflammatory compounds, and like molecules.
- MSC's mesenchymal stem cells
- BMPs bone morphogenetic proteins
- FGFs fibroblast growth factors
- PDGF platelet
- a bone implant was machined in the form of a ligament with a mineralized portion of the implant bearing holes for suture passage therethrough.
- a second portion of the implant was demineralized, and the entire segmentally demineralized bone implant was implanted into an animal model to test for strength of the implant used as a ligament replacement. It was noted that after presence in the biological system, the demineralized portion of the implant had a much darker color than the portion of the implant that was left in a mineralized state. This observation leads to the conclusion that the demineralized portion of the implant is taking up materials with which it is contacted much more efficiently than the mineralized portion of the implant.
- various implants are prepared with different degrees of demineralization, and such implants are contacted with various materials including, but not limited to those described above.
- various materials including, but not limited to those described above.
- a wide variety of properties may be conferred on the implants thus treated to achieve desired biological functions, from the formation of connective tissues, bone, cartilage, and the like.
- Use of masking procedures facilitates the production of implants with complex patterns of material uptake, as needed.
Abstract
Description
- This application is a continuation-in-part of application Ser. No. 09/585,772, filed on Jun. 2, 2000, pending Attorney Docket Number RTI-1051C, which was a continuation-in-part of application Ser. No. 09/518,000 filed Mar. 2, 2000, pending Attorney Docket Number RTI-105-IB, which was a continuation-in-part of application Ser. No. 09/417,401 filed Oct. 13, 1999, pending Attorney Docket Number RTI-105IA and application Ser. No. 08/958,364, filed on Oct. 27, 1997, now U.S. Pat. No. 6,090,998, the subject matter and disclosure of all of which is hereby incorporated herein by reference as if fully set forth herein.
- This invention relates to a device made from segmentally demineralized and appropriately shaped and machined bone for implantation as a ligament, tendon, support or in any other application in which an implant having at least one rigid segment and at least one flexible segment, is required. In particular, this invention disclosure relates to the novel selective uptake of materials by bone implants of this type by modifying the mineralization status of various portions of bone implants.
- There is a continuing need in the art for biologically acceptable ligament or tendon replacements. Various efforts have been made in the art to accommodate this need. For example, in U.S. Pat. No. 5,053,049, a flexible prosthesis of predetermined shape and a process for making said prosthesis was disclosed. According to that disclosure, a flexible biocompatible and non-antigenic prosthesis for replacement of a cartilaginous part was prepared by machining bone into a desired shape corresponding to the shape of a cartilaginous body part to be replaced, demineralization of the bone to impart flexibility, and tanning to reduce antigenicity. There was no disclosure or suggestion of using the demineralized bone as a tendon or ligament replacement.
- In U.S. Pat. No. 5,092,887, a method for replacement or augmentation of a damaged fibrous connective tissue was disclosed wherein a ligament made from a segment of bone that had been demineralized was attached between first and second body parts. There was no disclosure or suggestion of machining the bone prior to demineralization to produce fixation ends thereon, and demineralization of only a segment of the thus machined bone to produce a flexible segment, while leaving the machined attachment ends in a fully mineralized and rigid state for fixation directly to bone adapted to receive such fixation ends. The disclosure in the 5,092,887 patent with respect to its discussion of background art and methods of demineralization of bone is hereby incorporated by reference.
- In particular, the present invention is directed to methods of selective update of materials into bone for implantation. The selective uptake of almost any material has been found to be enhanced by selectively demineralizing that portion of bone and then contacting the thus-treated portion of bone with a liquid milieu containing the material the selective uptake of which into the bone implant is desired. According to this invention, any of a number of different materials may be selectively taken up, absorbed, infused or otherwise contained by segmentally demineralized bone. Thus, those skilled in the art will know, based on the instant disclosure, which shows selective uptake of osteogenic progenitor cells, hematopoietic cells, growth factors, antibiotics, nucleic acids and the like, that any desired material may be induced to selectively be taken up by demineralized portions of bone implants.
- This invention provides a novel bone implant having at least one rigid, mineralized bone segment, which may be machined to include threads, grooves, a driver head, a recess or a symmetric or asymmetric shape, and at least one flexible, demineralized segment, which may also be machined to any desired shape prior to demineralization, or after demineralization. According to alternative aspects, the subject implants may comprise only demineralized portions or mineralized portions, wherein the demineralized or mineralized portions have utility separately, or are brought into association together. The subject implants are preferably made of cortical, cortico-cancellous, or cancellous bone. It is to be understood that the type of bone used to make the subject bone implants will depend on the intended end use of the implant. Factors to be considered in determining the type of bone to use include, but are not limited to, strength, porosity, and/or flexibility, the effect of which will be apparent to those skilled in the art in view of the teachings herein. In particular, in this aspect of the invention, the selectively demineralized portions of the bone implant are contacted with materials, compositions, compounds, solutions, cells or the like, the selective uptake of which is enhanced in those portion of the implant that are demineralized. The result of such uptake is the conferral on the selectively demineralized portions of the bone implant of particular properties, such as the more rapid remodeling of the bone implant into autogenous bone, by virtue of selective uptake of bone progenitor cells, or the more rapid remodeling of the bone into flexible connective tissue, such as cartilage or ligaments or tendons, through selective uptake of chondrocytes, or fibroblasts, or the like, depending on whether the implant portion is desired to remodel into one tissue type or another.
- FIG. 1 provides a view of a first embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit threads on each end (FIG. 1A), and which is then demineralized only in the internal section to provide a flexible segment between the machined ends (FIG. 1C); FIG. 1B provides a view of an alternate embodiment in which one end of the implant has a rigid fixation bone block; FIG. 1D shows an end-on view of a cannulated embodiment of the implant of this invention.
- FIG. 2 provides a view of a second embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit threads on one end and an attachment hole at the other (FIG. 2A), and which is then demineralized on the attachment hole end of the implant to provide a flexible segment, while retaining the threaded segment as a rigid member (FIG. 2B). A partial cannulation of the implant is shown in end-on (FIG. 2C), top (FIG. 2D) and side views (FIG. 2E).
- FIG. 3 provides a view of a third embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit a fixation block at each end of the implant (FIG. 3A), and which is then demineralized between the two ends to provide a flexible segment between the machined fixation block ends (FIG. 3B).
- FIG. 4 provides a view of a fourth embodiment of the implant of this invention in which a rigid bone segment is machined to exhibit a fixation block at one end and an attachment hole (FIG. 4A) or several holes or perforations (FIG. 4B) at the other, and which is then demineralized at the end bearing the attachment hole(s) (FIGS. 4C and 4D) to provide a flexible segment, while retaining the fixation block end as a rigid member.
- FIG. 5 shows one method of implantation of the implant of this invention in which fixation screws are utilized to retain the implant of this invention in place either by locking the implant in place through holes in the rigid segment of the implant (FIG. 5A), or by locking the implant into place at the rigid end of the implant via a tapped recess (FIGS. 5B and 5C).
- FIG. 6 shows an embodiment of this invention in which the implant is a femoral ring (FIG. 6A) in which the upper and lower ends of the ring are retained in a rigid, mineralized state and which may be machined to exhibit a thread or a groove, and the internal segment of the implant is demineralized to exhibit a soft spongy layer to provide flexible support upon insertion of this embodiment of the invention between adjacent vertebral bodies; alternatively, the upper, lower or both segments may be demineralized and the internal segment may be retained in a mineralized state; FIG. 6B shows this implant having angled faces; FIG. 6C shows this implant machined as a wedge.
- FIG. 7 shows various cross-sections (FIG. 7A, spherical; FIG. 7B, elliptical; FIG. 7C, rectangular; FIG. 7D, cross-shaped) for the mineralized or demineralized segment of the implant of this invention.
- FIG. 8 depicts one embodiment of a prosthetic joint according to this invention having pointed projections for replacement of a joint (FIG. 8A) or for insertion between vertebrae (FIG. 8B).
- FIG. 9 depicts a flexible implant according to this invention for contoured repair of bone defects, including but not limited to craniomaxillofacial defects, including a first “pizza-shaped implant” (FIG. 9A), a second “pizza-shaped implant” (FIG. 9B), and a wrap implant having alternating mineralized and demineralized segments (FIG. 9C).
- FIG. 10A depicts a first embodiment and FIG. 10B depicts a second embodiment of an anterior longitudinal ligament replacement for limiting motion between adjacent vertebrae to be fused.
- FIG. 11 depicts a band for limiting the motion and reducing the degradation of vertebrae juxtaposed to vertebrae undergoing fusion (i.e. as a spinal tension band) or for being affixed to any other anatomical structures to minimize motion of such structures in relation to each other.
- FIG. 12 depicts a perforated sheet comprising mineralized and demineralized bone for use as a “mesh”, such as for use in a dressing or to retain particulate matter.
- FIG. 13 depicts a cortical bone screw comprising at least a portion thereof which is demineralized or partially demineralized.
- FIG. 14A shows a side view, FIG. 14B shows a rear view, and FIG. 14C shows a frontal view of an implant that is particularly suited for implantation into the intervertebral space.
- FIG. 15 depicts an embodiment that is particularly suited for implantation into the intervertebral space.
- FIG. 16A depicts an embodiment useful as a delivery vehicle comprising a mineralized region and a demineralized region, wherein the demineralized region contains a biologically active substance. FIG. 16B shows the embodiment as conformed around an internal structure.
- FIG. 17 depicts an embodiment that is flexible and has associated therewith a support structure that confers the ability to maintain a predetermined shape.
- FIG. 18 depicts an embodiment in the form of a plate which has mineralized regions formed thereon for providing a secure substrate for an attachment means.
- FIG. 19A depicts a top view, and FIG. 19B depicts a side view portion of an embodiment having a demineralized cortex and mineralized rows disposed thereon.
- FIG. 20 depicts a 3-D view of an embodiment that comprises a demineralized cortex and a plurality of mineralized projections extending from the demineralized cortex.
- FIG. 21 demonstrates an implant with at least one and optionally a plurality of lumens running longitudinally therethrough.
- FIG. 22 is a representation of a segmentally demineralized bone implant in which cellular material has been selectively taken up by the portion of the bone implant that is demineralized.
- This invention provides a biologically acceptable ligament, tendon, support or other implant for replacement of damaged ligaments, tendons, vertebral disks and the like, wherein there is a need for an implant having both a rigid machined portion or segment as well as a flexible, demineralized portion or segment. According to one embodiment of this invention, a segment of preferably cortical bone is machined into a desired shape, with at least one end being machined so as to provide a means for fixation of that end directly to a bone machined in a complementary fashion. Referring to FIG. 1A, a first embodiment of the implant of this
invention 100 is shown in which the ends 101 and 102 of the implant are machined so as to exhibit a thread, and the bone to which the implant is to be affixed is tapped to exhibit a receiving thread complementary to the thread on the implant end. Alternatively, the threaded ends 101, 102 may be self-tapping, thereby eliminating the need to tap the receiving bone. A simple hole, of a diameter slightly smaller than the diameter of the threaded implant ends, may be drilled or produced by like means to receive the threaded implant end. Aninternal segment 103 of the implant is demineralized to provide a flexible segment of the implant, whiletransition zones flexible segment 103 of the implant. In FIG. 1B, an alternate embodiment is shown wherein one of the ends, 101′, is not threaded, but is machined to any desirable shape, such as a fixation block, such that the threadedend 102 may be threaded into the receiving bone, while thefixation block 101′ is affixed in place by interference screws or like means known in the art. In yet a further embodiment, shown in FIG. 1D, the entire implant is machined so as to exhibit acannulation 110 throughout its length or a portion thereof. In this fashion, the implant may be inserted over a guide-wire or like guide means. Alternatively, theaspect 110 may be an internal thread capable of receiving a threaded retention screw. It will be recognized that features disclosed for this embodiment or any of the other embodiments of the invention may be applied to other embodiments of this invention, to produce embodiments exhibiting a variety of combinations of different features disclosed for each of the individually disclosed embodiments. - In a further embodiment of this
invention 200 shown in FIG. 2, only oneend 202 of theimplant 200 is machined to exhibit a thread or another machined feature, while theother end 201 may be machined to exhibit afixation hole 210 or a similar feature, which permits for suturing or otherwise fixing that end to a ligament or a tendon. Atransition zone 204 from a mineralized to a demineralized state is provided, as is a flexible segment of theimplant 203. In FIGS. 2C-E, there are shown an end-on view, a side view and a top view, respectively. In this embodiment of the invention, anoptional cannulation 220 is shown, permitting threading of the machinedportion 202 of the implant over a guide-wire, for example, while not interfering with the flexible,demineralized segment 203 of the implant. - In a
further embodiment 300 of this invention shown in FIG. 3, the implant may be used to replace a ligament. In this embodiment, twotransition zones flexible segment 303 to terminally mineralized fixation blocks 301, 302 are provided. The fixation blocks 301 and 302 each have acanal mineralized sections - In the
embodiment 400 shown in FIG. 4A, the implant is used for repair or replacement of a tendon. In this embodiment, only oneend 402 of theimplant 400 is machined for fixation in a bone, and thesecond end 401 of the implant is adapted to a variety of shapes, terminating in a means, such as athreadable hole 410, for fixation of that end to bone, muscle, tendon or ligament. In an alternate embodiment shown in FIGS. 4B and 4D, theend 401′ is machined to exhibit a plurality of holes or perforations, 410′ , such thatend 401′ may be sutured to a receiving biological structure, such as a muscle, ligament, tendon, bone or the like. - In FIG. 5, one method of implantation of the
implant 500 of this invention is shown in which fixation screws 553 are utilized to retain an embodiment of theimplant 500 of this invention in a machinedslot 551 in abone 550 either by locking the implant in place (FIG. 5A) throughholes 552 in therigid segment 501 of the implant (FIG. 5A), or by locking the implant into place at therigid end 503 of the implant via a tapped recess (FIGS. 5B and 5C). The other end of theimplant 504 is demineralized, and is thus flexible, and terminates in ahole 502 or other fixation means by which that end of the implant is attached to bone, tendon, ligament or muscle. As noted above,section 501 could be threaded, end 502 could be retained in a mineralized state and could be shaped as a fixation block for retention by an interference screw, or threaded. In addition, theimplant 500 may be cannulated, with therecess 503 continuing through the entire length of the implant, or some portion thereof. - FIG. 6A shows an embodiment of this invention in which the
implant 600 is a femoral ring member or a portion thereof wherein the upper and lower ends or faces 602, 604 are retained in a rigid, mineralized state and which may be machined to exhibit a thread or a groove by means known in the art (see WO 97/25945, hereby incorporated by reference for this purpose). The internal segment of theimplant 603 is demineralized to exhibit a soft spongy region to provide flexible support upon insertion of this embodiment of the invention between, for example, adjacent vertebral bodies. Aninternal canal 601 is shown in the femoral ring, which derives from the natural intramedullary canal of the bone from which the femoral ring is obtained by substantially planar, parallel cross-cuts across the diaphysis of a femur or like long bone. Alternatively, a transverse cut to form a dowel which is then segmentally demineralized is also contemplated. The canal may be left open or filled with osteogenic factors, including but not limited to autologous bone or marrow. Alternatively, the canal may be filled with a carrier and growth factors, including but not limited to bone morphogenetic proteins, demineralized bone matrix (DBM), or any inert or biologically active substance considered beneficial for insertion into the spine to assist in support thereof or for fusion of adjacent vertebrae. Furthermore, the canal may retain the natural architecture of the intramedullary canal or it may be scraped out or otherwise modified. Those skilled in the art will appreciate that in this embodiment of the invention, theupper end 601, thelower end 604, or both may be demineralized, while theinternal segment 603 of the implant may be maintained in a mineralized state. It will further be appreciated that the upper 602 and lower 604 faces of the implant may not be parallel, but rather may slope toward each other, as shown forembodiment 610 in FIG. 6B, such that H1 is greater than H2. Furthermore, the upper and lower faces may exhibit curvature and external features, such as grooves, pits or protrusions to assist in the retention of the implant when inserted between adjacent vertebrae. In an embodiment comprising sloping upper and lower faces, the slant of the upper and lower faces should be such that the natural lordosis of the spinal segment into which the implant is inserted is maintained. It will further be appreciated that the shape of the implant may include a substantially circular, elliptical, rectangular or like shape. As shown in FIG. 6C, the implant may comprise a portion of the femoral ring, exhibiting a greater width W1 and a lesser width W2. Furthermore, the upper surface, lower surface or both surfaces may comprise features such as grooves, pits, indents, teeth or protrusions to inhibit slippage or expulsion of the implant. - The implant of this invention comprising a segmentally demineralized bone comprising at least one mineralized portion or segment, and at least one flexible, demineralized portion or segment is produced by machining a piece of preferably cortical bone into any desired shape. The bone is preferably chosen to be strong cortical bone, such as from the femur, tibia, fibula, radius or ulna. The source of the donor bone may be autograft, allograft or xenograft bone, with the appropriate cautionary steps known in the art being taken in each case to prevent introduction into the recipient of pathogenic or antigenic agents.
- After appropriately shaping the implant bone stock, a segment of the implant is preferably machined to exhibit a thread or like fixation means whereby the implant may be directly affixed to recipient bone machined in a complementary fashion. That segment of the implant is retained in a mineralized state, by appropriately protecting that segment of the implant with any protective device, such as with parafilm, a rubber or latex covering, plastic wrap, and the like. The remaining segment of the implant is then demineralized according to methods known in the art. For example, in the
embodiment 100 of this invention shown in FIG. 1A, both ends 101, 102 may be inserted into rubber stoppers spanning thetransition zones internal segment 103, is exposed to an acid solution of sufficient strength to leach the minerals from that segment of the bone. A 5% acetic acid solution or a 1 N hydrochloric acid solution may be employed, and the implant checked periodically for the desired level of flexibility of theinternal zone 103. It is important that an excessively high concentration of strong acid not be employed for this process, as this will result in cleavage of the peptide bonds of the collagenous matrix within which the minerals are deposited. Accordingly, HC1 concentrations of between about 0.1N to 2N are acceptable, with the period of exposure to acid being increased for the lower acid concentrations and decreased for the higher acid concentrations. Likewise, depending on the strength of the acid used. Thetransition zones - The implant of this invention may be prepared by appropriately masking portions of the implant, using a tape, rubber, latex or any other material which may be adhered to any portion of the bone, to prevent demineralization of portions thereof. Accordingly, in one embodiment of this invention, the implant is produced by masking portions of a flat segment of cortical bone, to form a striated “pizza-slice-shaped” implant device, as shown in FIG. 9. According to this embodiment of the invention, a shape, such as a substantially hexagonal piece of
cortical bone 900 is demineralized after application of masking means 910 such thatintermediate sections 920 are demineralized while zones of mineralized bone remain where masked at 910. Alternatively, as shown in FIG. 9B, animplant 950 is produced whereinzones 960 are protected from the demineralizing agent (acid, chelating agents, and the like), whileareas 970 are not protected. The result is a pizza-slice-shapedimplant 950 having flexible hinge portions with mineralized pizza-slice-shapedportions 960 which retain mineral and rigidity. An implant such as 900 or 950 has application, for example, in the repair of craniofacial or craniomaxillofacial defects, among other possible applications. As a result, what is produced is either an implant which comprises a plurality of adjacent mineralized triangular segments, the apex of each triangle meeting at a common point and the sides of each triangle except the base opposite the apex being joined to each other through a demineralized hinge, or an implant which comprises a plurality of adjacent demineralized triangular segments, the apex of each triangle meeting at a common point and the sides of each triangle except the base opposite the apex being joined to each other through a mineralized hinge. It will be understood that other shapes or forms of alternating mineralized and demineralized bone may also be produced and used according to this invention. Thus, for example, a “bone-wrap” 980 shown in FIG. 9C may be produced from a sheet of cortical bone with alternating mineralized 990 and demineralized 985 zones for wrapping around a piece of fractured bone, for example. In this way, the mineralized portion of the bone-wrap acts as a splint while the flexible, demineralized portion of the bone-wrap permits the implant to wrap around the fractured bone segment. The flexibility of the implant permits the implant to be contoured to the surface of a bone defect area to repair such defect. Naturally, based on this disclosure, those skilled in the art will appreciate that implants of a wide variety of shapes, sizes and applications may be produced in a similar manner wherein a portion of the implant retains a rigid mineralized portion and a portion of the implant is at least partially demineralized to produce a flexible portion of the implant. Thus, sheets of bone, partially demineralized wrapping sheets and the like are all variations on this theme which come within the scope of the instant invention. - In a further aspect of this invention, a partial demineralization of the surface of bone implants has been found to be beneficial in that modification of the stress-fracture behavior of the bone may thus be achieved. Accordingly, depletion of up to about 25 percent of the natural bone mineral may be achieved by limited demineralization to break up the bone crystal structure in the partially demineralized portion of the implant. As a result, reduction in the variability of the stress load at which bone fractures upon stress of the bone has been noted, even when as little as a one percent reduction in the bone mineral content is used. This observation may be combined with embodiments of the implant of this invention wherein a portion of the implant is maintained in a rigid, mineralized state, while at least one portion of the implant is demineralized or partially demineralized.
- It will further be appreciated that the implant of this invention may be further treated by tanning or other means known in the art to reduce the antigenicity of the implant. For example, glutaraldehyde treatment (see U.S. Pat. No. 5,053,049, hereby incorporated by reference for this purpose), may be used. Alternatively, or in addition, the implant may be subjected to treatment with chaotropic agents, including but not limited to urea, guanidine hydrochloride, combinations thereof and like agents, to remove noncovalent immunogens. Treatment with reducing agents, detergents, chelating agents and the like may also be beneficially applied, depending on the nature of the bone implant and its source. For example, where xenograft bone is used as the material for implant production, reduction in the antigenicity of the bone becomes much more important than if autograft or allograft bone is used.
- In FIG. 7, various cross-sectional shapes of the implant of this invention are shown. Thus, in FIG. 7A, a cylindrical cross-section is shown. It will be recognized that various diameters, from as small as 0.5 mm or smaller to as large as 10 mm, or in certain applications, even larger, may be desirable. In FIG. 7B, an oval cross-section is provided. In FIG. 7C, a flat cross section is provided. In FIG. 7D, a cross-shaped cross-section is provided. Those skilled in the art will recognize that the disclosure of this invention permits for essentially any desirable shape to be generated for the flexible or rigid segments of the implant of this invention, and such variations come within the scope of this disclosure and the appended claims. In forming the various crosssectional shapes suggested herein, it is desirable that a smooth transition occurs between the rigid end(s) of the implant and the flexible segment. This is accomplished by appropriately machining the end(s) such that a taper into the flexible segment occurs, and by carefully controlling the demineralization process to ensure a graded demineralization from the fully mineralized segment to the demineralized segment.
- It will further be understood from the foregoing disclosure that the implant of this invention may be appropriately fashioned for a wide diversity of applications. For example, an implant of this invention may be applied to repair of ligaments or tendons in the hand, elbow, knee, foot, ankle or any other anatomical location as needed. Furthermore, the implant of this invention may be applied to replacement any of a variety of joints. Methods and implant shapes known in the art for joint replacement, (see, for example U.S. Pat. Nos. 4,871,367; Des. 284,099; Des. 277,784; Des. 277,509; 3,886,600; 3,875,594; 3,772,709; 5,484,443; 5,092,896; 5,133,761; 5,405,400; and 4,759,768; all of which are herein incorporated by reference for their teachings of various considerations applicable to joint prosthetic implants), may be fashioned according to and replaced by the implant of the instant disclosure. Thus, in one embodiment of this invention, a piece of cortical bone is shaped so as to form a surgically implantable prosthetic joint having a load distributing flexible hinge, analogous to that disclosed in U.S. Pat. No. 3,875,594 (which was made from molded silicone rubber). According to this embodiment of the invention, a prosthesis is formed consisting of an enlarged midsection, and a pair of oppositely projecting distal and proximal stem portions. The volar aspect of the midsection is machined to exhibit an indent or transverse channel extending across its width, to form the flexible hinge upon demineralization of the midsection. The midsection, intended to act as the hinge, is demineralized, and the mineralized extremities of the implant are retained in a mineralized state for insertion of each end into the intramedullary space of the bones adjacent to the joint which the implant replaces. The mineralized extremities are machined to exhibit a thread or a ratcheting tooth structure, such that upon insertion of each end into the intramedullary space of the adjacent bones, the end is fixed in place. Since the ends are made from bone, the natural process of fusion between the implant and the bone into which it is inserted occurs over several weeks, thus permanently fixing the prosthesis into position and preventing any movement of the ends of the implant. Implants according to this embodiment of the invention may be used, for example, to replace metacarpophalangeal joints, proximal interphalangeal joints and the like. Accordingly, this invention represents a significant advance in the art as it provides a natural alternative to currently employed metallic, hydroxyapatite, silastic, silicone or like elastomeric materials for joint arthroplasty.
- In FIG. 8A, there is provided one diagrammatic representation of an implant of a prosthetic joint according to this invention and which may be prepared according to the concepts central to the instant invention. The
implant 800 has anenlarged midsection 810 which is demineralized up to and including a portion of thetransition segment 820. On either side of themidsection 810 aremineralized projections 830 adapted for insertion into the intramedullary canals of bones adjacent to the joint which theimplant 800 replaces. A groove orchannel 850 is provided to act as the hinge and to allow bending motion of the joint according to principles described in U.S. Pat. No. 3,875,594, herein incorporated by reference for this purpose. Optionally, theprojections 830 may exhibit an external feature designed to enhance retention of the implant in the intramedullary spaces. In the embodiment shown in FIG. 8A, this feature is shown as a tooth-like serration which may be machined into an upper or lower aspect of eachprojection 830 or which may project around the circumference of the projections. Alternate external features which may aid in retention of the implant include holes through which retention pins may be inserted, grooves, ribbing and the like. Thedemineralized midsection 810 permits theimplant 800 sufficient flexibility to allow that portion of the implant to act as a joint, while theprojections 830 fuse with the bone into which they are inserted to form a permanent fixation. It will be appreciated that, as shown in FIG. 8B, animplant 860 similar to that shown in FIG. 8A may be implemented for inducing spinal fusion, whereby anintermediate section 870 is demineralized while extensions thereof 880 are retained in a mineralized state. In this embodiment, there is no need for an enlarged internal segment of demineralized bone, although there may be applications in which it is desirable for the height H1 to be greater or smaller than the height H2. For example, where the natural lordosis of the spinal segment into which theimplant 860 is to be inserted, the height H1 may preferably be greater than the height H2. In addition, theupper surface 885, thelower surface 886, or both may comprise features such as grooves, pits, or projections which help retain the implant between vertebrae when inserted into an intervertebral space. - Further applications to which the instant invention may be applied include production of a segmentally demineralized anterior longitudinal ligament (ALL) for stabilization of spinal motion segments anteriorly after removal or ligation of an anterior longitudinal ligament. An ALL produced according to the method of this invention may be used to advantage to prevent expulsion of interbody grafts, and is preferably affixed to the vertebral bodies with screws, pins, staples or anchors of various types know in the art or heretofore developed. As a result, lumbar extension is reduced, thereby providing a more stable environment to promote fusion. In FIG. 10, there is provided one
embodiment 1000 of the ALL according to this invention. TheALL 1000 is prepared from the distal femur or other flat cortical surface, such as the proximal humerus or tibia. Atop portion 1010 and abottom portion 1020 is retained in a mineralized state, or is only partially demineralized, or is surface demineralized to modify the stress-fracture behavior of that portion of the implant. Thetop portion 1010 and thebottom portion 1020 each have a series ofholes 1005 by means of which the ALL is affixed to a superior vertebra V1 and an inferior vertebra V2. An intermediate section, 1030 is demineralized, to an extent sufficient to permit that segment of the ALL to have a degree of flexibility. In this fashion, while permitting a slight amount of motion, the ALL substantially restricts motion at the vertebral segment spanned by the ALL. Also shown in outline is a pair ofinterbody implants 1040 inserted between superior vertebra V1 and inferior vertebra V2, spanned by the ALL, in order to induce fusion between V1 and V2. In FIG. 10B, there is shown a further embodiment of the ALL of this invention which is identical in all respects to the implant shown in FIG. 10A, but wherein this embodiment has an enlargedupper segment 1010′ andlower segment 1020′ for affixation to the vertebrae V1 and V2. It will be appreciated that the precise shape of the ALL is not critical. Furthermore, the ALL may span more than two vertebrae. - In yet a further embodiment of the segmentally demineralized implant of this invention, there is provided a spinal tension band, STB. Typically, in spinal fusions, the motion segment adjacent to the fused segment (the juxtaposed discs) have been found to rapidly degrade. This degradation appears to be due to the hypermotion at these levels, due to the decreased motion at the juxtaposed fused segments. The STB of this invention assists in preventing this degradation and can avoid the need for further surgery, by spanning the fused segments and attaching to the juxtaposed vertebral body at the spinous process thereof. The STB may be used in any region of the spin, but is typically most useful for spanning fusions at two, three or more levels. The STB of this invention replaces or augments use of flexible stainless steel, titanium cables, elastomeric or polymeric synthetic materials currently in use. Accordingly, known techniques for attaching such devices to the spinous processes may be used, or the STB may be affixed to juxtaposed vertebral bodies in a fashion analogous to that described above for the ALL. In FIG. 11, there is disclosed one embodiment of the
STB 1100 of this invention. As can be seen, theSTB 1100 is affixed to a superior vertebrae, VA, and an inferior vertebra, VB, each of which are juxtaposed to a vertebrae V1 and V2, which are being fused to each other by means of interbody fusion devices IB1 and IB2.Intermediate portion 1110 of the STB may be demineralized, while thetop portion 1120 andbottom portion 1130 maybe retained in a mineralized or partially demineralized state. Fixation means 1125 and 1135 are provided for fixation of the STB to the juxtapose vertebrae VA and VB, respectively. Those skilled in the art will appreciate that this embodiment of the invention may be applied to any other anatomical structures to minimize motion of such structures in relation to each other. For example, the tension band of this invention may be utilized outside of the spinal context, such as for repair of a split sternum in a sternotomy. - In FIG. 12, there is shown a
further embodiment 1200 of the implant of this invention in the form of asheet 1205 having a plurality ofperforations 1206 comprising mineralized 1210 and demineralized 1220 segments. The perforated segmentally demineralized sheet of this embodiment of the invention may be used as a wrap or as a retention means for particulate material, gel material and the like when deposited on, in or around a bone, for example. Compositions which may be used in connection with this embodiment of the invention include osteogenic bone paste and the like. - In FIG. 13 there is shown a
further embodiment 1300 of the implant of this invention in the form of a screw made from cortical bone, comprising at least a portion thereof which is demineralized or partially demineralized. In this embodiment of the invention, desirable physical characteristics, and in vivo remodeling characteristics of such a device may be achieved by demineralizing or partially demineralizing various segments of the screw. Thus, for example, thepoint 1310 of the screw may be mineralized while thethread 1320 or drivehead 1330 may be partially demineralized, to provide desirable surface characteristics, including but not limited to greater capacity for in vivo remodeling or minimized stress-fracture characteristics. In FIG. 14 A-C, there is shown afurther embodiment 1400 of the implant of this invention that is particularly shaped to be used in spinal surgery. FIG. 14A shows a side view of theimplant 1400. Theimplant 1400 has an elongateddemineralized segment 1405 designed to be positioned in the intervertebral space of the spine. Preferably the elongated segment has a taperedend 1430 to resemble an intervertebral disc. Attached and positioned transversely to the elongated demineralized segment is amineralized segment 1410. In a preferred embodiment, a damaged or herniated disc is surgically removed from a patient and thedemineralized segment 1405 of theimplant 1400 is inserted into the space created by the excised disc. The mineralized segment can then be affixed to the two adjacent (superior and inferior) vertebrae by any suitable attachment means, e.g., screw, pin, staples, sutures, etc., which can be made of inert materials such as metals or polymers, or made of bone. To aid in the fixation of theimplant 1400, the mineralized segment preferably has provided thereon one ormore holes 1420 to receive a screw or other fixation device. FIG. 14B shows a rear view of theimplant 1400 which illustrates theholes 1420 as passing completely through the mineralized segment. FIG. 14C shows a preferred embodiment of the implant which comprises ademineralized portion 1425 surrounding theholes 1420. Thisdemineralized portion 1425 allows for flexibility and range of motion of theimplant 1400 when affixed. Based on this disclosure, those skilled in the art will appreciate that thesegment 1410 may be mineralized, partially demineralized or completely demineralized, whilesegment 1405 may be completely demineralized, partially demineralized, or mineralized. - In FIG. 15, there is shown another
embodiment 1500 of the implant of the subject invention, which is a modified version ofimplant 1400. Similar to implant 1400,implant 1500 comprises ademineralized segment 1505, amineralized segment 1510 transversely attached to thedemineralized segment 1505, holes 1520 disposed on themineralized segment 1510 for receiving an attachment means, and ademineralized portion 1525 surrounding theholes 1520. Thedemineralized segment 1505 of theimplant 1500 is slightly curved to accommodate possible irregularities in the patient's anatomy or to provide different angles of approach for insertion of theimplant 1500. Theimplants - In FIG. 16A-B, there is shown a
further embodiment 1600 of the implant of the subject invention that is comprised of a multiple layers that is designed for use as a delivery vehicle, wherein, preferably, one layer has infused therein a substance having biological activity. Theimplant 1600 is preferably made of a block of corticocancellous bone or cancellous bone having ademineralized layer 1620 and amineralized layer 1610. Delivery vehicles such as sponges that are currently in use do not lead to good bone formation, typically as a result of overlying muscle tissue crushing and flexing the sponge. Besides disrupting the bone rebuilding process (i.e., migration and attachment of bone progenitor cells), the crushing of current sponge devices causes the undesirable rapid release of osteogenic substances contained in such sponges. Theimplant 1600 overcomes this problem by providing a rigid,mineralized layer 1610 that protects thedemineralized layer 1620 from being crushed, thereby allowing a sustained release of an additive infused therein. However, thedemineralized layer 1620 possesses the ability to flex around internal structures. For example, as shown in FIG. 16B, theimplant 1600 is capable of flexing around the transverse process of thespine 1630. In one embodiment, theimplant 1600 is produced by treating the cancellous side of a corticocancellous plate with 0.5 N HC1 for approximately one hour, thereby forming a demineralized layer. The resultant implant can then be infused with a substance such as growth factor(s), and the like. Accordingly, theimplant 1600 provides a delivery vehicle that is easy to produce and is made of a substance that can be resorbed and remodeled by the body. - Additives can be infused into the
implant 1600 by, for example, soaking the demineralized portion in a solution containing one or more additives. Examples of additives that can be infused into implant 1600 include, but are not limited to, hydroxyapatite; collagen and insoluble collagen derivatives, such as gelatin, and soluble solids and/or liquids dissolved therein, e.g., antiviricides, particularly those effective against HIV and hepatitis; antimicrobials and/or antibiotics such as erythromycin, bacitracin, neomycin, penicillin, polymyxin B, tetracyclines, viomycin, chloromycetin and streptomycins, cefazolin, ampicillin, azactam, tobramycin, clindamycin and gentamycin, etc.; amino acids, magainins, peptides, vitamins, inorganic elements, co-factors for protein synthesis; hormones; endocrine tissue or tissue fragments; synthesizers; enzymes such as collagenase, peptidases, oxidases, etc.; polymer cell scaffolds with parenchymal cells; surface cell antigen eliminators; angiogenic drugs and polymeric carriers containing such drugs; collagen lattices; biocompatible surface active agents; antigenic agents; cytoskeletal agents; cartilage fragments, living cells such as chondrocytes, bone marrow cells, mesenchymal stem cells, natural extracts, tissue transplants, bioadhesives, growth factors, growth hormones such as somatotropin; bone digestors; antitumor agents; fibronectin; cellular attractants and attachment agents; immuno-suppressants; permeation enhancers, e.g., fatty acid esters such as laureate, myristate and stearate monoesters of polyethylene glycol, enamine derivatives, alpha-keto aldehydes, etc.; nucleic acids; and, bioerodable polymers. In a preferred embodiment,implant 1600 is infused with nucleic acids, antibiotics, antiinflammatories, antineoplastics, or combinations thereof. - Furthermore, growth factors can be infused into
implant 1600, such as, for example, epidermal growth factor (EGF), transforming growth factor-alpha (TGF-alpha), transforming growth factor-beta (TGF-beta), human endothelial cell growth factor (ECGF), granulocyte macrophage colony stimulating factor (GM-CSF), bone morphogenetic protein (BMP), nerve growth factor (NGF), vascular endothelial growth factor (VEGF), fibroblast growth factor (FGF), insulin-like growth factor (IGF), platelet derived growth factor (PDGF), cartilage derived morphogenetic protein (CDMP), or combinations thereof. - FIG. 17 shows a
further embodiment 1700 of the implant of the subject invention which is comprised ofdemineralized bone component 1710 and an external and/or internalsupport structure component 1730. In a preferred embodiment, theimplant 1700 has a demineralized bone component that has inserted (e.g., woven) therein a flexible support structure made of, for example, an inert material such as titanium, titanium alloy, stainless steel, stainless steel alloy, plastics, or combinations thereof. Other suitable materials such as, but not limited to, resorbable or nonresorbable polymers would be readily appreciated by those skilled in the art. Preferably, thesupport structure 1730 is in the shape of pins or wire and is malleable such that it can bend and retain its bent shape. More preferably the support structure spans at least one axis, or along two or more axes of thedemineralized component 1710. Theimplant 1700 may havepre-formed holes 1720 which span along the x-axis, y-axis or both, or along a diagonal axis of thedemineralized component 1710 to accommodate the structural component(s) 1730. The combination of the demineralized bone component and the support structure provide an implant that is flexible, malleable, and capable of retaining a given shape. In an alternative embodiment, thesupport structure 1730 is made of cortical bone, wherein the cortical bone is fully mineralized, or partially or fully demineralized. Naturally, using mineralized cortical bone as thesupport structure 1730 will result in the implant being more rigid. - FIG. 18 shows a
further embodiment 1800 of the implant of the subject invention. According to this embodiment, theimplant 1800 comprises ademineralized plate 1810 that has positioned thereon one or moremineralized areas 1820. Preferably, the mineralized areas are positioned such that securing of the plate in the implant area of a patient is optimized. Securing of the plate comprises engaging an attachment means, such as a screw, pin, staple, suture, etc., through the mineralized area and onto the implant area. The mineralized area acts as a rigid substrate to stabilize the contact between the attachment means and theimplant 1800. - In FIG. 19(A-B), there is shown a
further embodiment 1900 of the subject invention that comprises ademineralized cortex region 1910 and a plurality ofmineralized rows 1920 extending from thedemineralized cortex region 1910. The mineralized rows are aligned along one axis of theimplant 1900. This configuration allows for flexibility of the implant in one axis and rigidity along the other axis. For example, the embodiment as shown in FIG. 19 will bend on itself on the y-axis but maintain rigidity on the x-axis. Depending on the desired application, the dimensions of theimplant 1900 can vary. For example, as shown in FIG. 19B, dimension g preferably ranges from 0.2 mm to 2 mm, dimension h preferably ranges from about 0.5 mm to about 3.5 mm, dimension i preferably ranges from about 0.2 mm to about 2 mm, and o preferably ranges from about 0.5 mm to about 5 mm - In FIG. 20, a
further embodiment 2000 of the subject invention is shown. This embodiment is preferably in the form of a plate and comprises ademineralized cortex 2010 and a plurality ofmineralized projections 2020 extending from thedemineralized cortex 2010. In a preferred embodiment, themineralized projections 2020 are aligned in rows spanning along both the x-axis and y-axis of theimplant 2000. This pattern gives theimplant 2000 flexibility along multiple axes. - In FIG. 21, there is shown another
embodiment 2100 of the subject implant that is designed for repair or replacement of ligaments and tendons.Implant 2100 is preferably made of partially or fully demineralized bone (cortical, cortico-cancellous, or cancellous).Implant 2100 comprises an elongated portion ofbone 2110 that has alumen 2120 formed within its interior, wherein thelumen 2120 preferably but not necessarily comprises a channel that runs completely through theelongated portion 2110. Thelumen 2120 aids in the handling and attachment of theimplant 2100 at the site of need. Specifically, thelumen 2120 allows for the convenient insertion of various surgical instruments to facilitate manipulation of theimplant 2100 both inside and outside the patient during a surgical procedure. Further, depending on the surgical procedure, thelumen 2120 allows for attachment of an end of a damaged tendon, ligament, and/or bone, or some other body part, by the simple insertion of the end of the tendon, ligament or bone inside the lumen. The tendon or ligament can then be secured to theimplant 2100 by conventional methods such as, but not limited to, suturing, pinning, tacking, and/or stapling. Alternatively, theimplant 2100 can be attached to one or more bones, and/or muscle, to serve as a ligament or tendon. Theimplant 2100 can be attached to one or more bones through conventional methods and need not utilize thelumen 2120 to facilitate attachment, though use of thelumen 2100 for attachment is preferred. Should there be a need, sutures can be passed through the lumen, attached to the ligament or tendon, and then pulled back into the lumen to help guide the ligament or tendon into the lumen. Other advantages stemming from the provision of thelumen 2120 will be apparent to those skilled in the art, in view of the teachings herein. - In an even more preferred embodiment, the
implant 2100 is specifically implemented in ACL or other ligament reconstruction surgeries. In the case of the ACL, the ACL and PCL cooperate, together with other ligaments and soft tissue, to provide both static and dynamic stability to the knee. Often, the anterior cruciate ligament (i.e., the ACL) is ruptured or torn as a result of, for example, a sports-related injury. Consequently, various surgical procedures have been developed for reconstructing the ACL so as to restore normal function to the knee. Some known methods and techniques which have been used to repair and replace ACL ruptures with grafts are discussed, for example, in Moore U.S. Pat. No. 4,773,417, Goble U.S. Pat. No. 4,772,286 and an article by Goble entitled “FLUORARTHROSCOPIC ALLOGRAFT ANTERIOR CRUCIATE RECONSTRUCTION”, Techniques Orthop. 1988 2(4):65-73. See also, e.g., U.S. Pat. Nos. 6,056,752; 5,891,150; 5,941,883; 5,211,647; and 5,320,626. It will further be appreciated that in this embodiment of the invention, there need not be a main lumen. There may be a plurality of lumens, into which various substances mentioned herein may be infused. - In FIG. 22, there is shown a further aspect of this invention wherein we have found that upon implantation of a segmentally demineralized bone implant, cells contacted with the demineralized portion of the implant infused that portion of the bone, while the mineralized portions of the bone were infused to a significantly lower extent. The
implant 2200 is shown withsuture threading holes 2210 and 2220 for fixing themineralized end 2230 to a desired location, while the demineralized segment 2240 is available for use as a ligament, tendon or the like. This particular implant was temporarily inserted into the knee joint of a goat and then removed. The darker color of the segment 2240 clearly demonstrates the selective uptake of cellular and other materials by the demineralized segment 2240 while themineralized end 2230 remains substantially white, due to the much lower infiltration of cellular materials and other colored components. This observation has implications for a number of applications. Thus, for example, not meant to be limiting, the segmentally demineralized bone implant is contacted with bone progenitor cells prior to implantation. The demineralized portion of the bone implant selectively takes up the bone progenitor cells, and upon implantation, the infused portion of demineralized bone remodels into autogenous bone more rapidly than the non-demineralized, less infused portion of the bone implant. Alternatively, where the demineralized portion of the bone is to act as a ligament or tendon or cartilage, the appropriate cells, such as chondrocytes, fibroblasts or the like are contacted with the demineralized portion of the implant prior to implantation. As a result, upon implantation, the demineralized, infused portion of the bone implant remodels into the desired tissue form more rapidly than does the mineralized portion of bone, which may remain in a rigid form for anchoring of the implant to the recipient's bone. Those skilled in the art will appreciate that this embodiment of the invention may be applied to filly demineralized segments of bone, by masking portions of the bone and allowing infiltration of materials only into exposed portions of the demineralized bone. Without wishing to be bound by any particular mechanistic interpretation of the method and implant of this invention, it is postulated that through removal of minerals from the bone matrix, substantial internal porosity is induced, into which any or all of the following materials are enabled to selectively infiltrate: cells, including but not limited to mesenchymal stem cells (MSC's), other cells, blood components, growth factors, including but not limited to bone morphogenetic proteins, (BMPs), fibroblast growth factors (FGFs), platelet derived growth factor (PDGF), cartilage derived morphogenetic proteins (CDMPs), tissue derived growth factors (TGFs), and the like, nucleic acids, especially nucleic acids encoding such growth factors, proteins, peptides, antibiotics, antineoplastics, anti-inflammatory compounds, and like molecules. Such compounds, including antibiotics or the like may be included in an implant where such compound is beneficial to a the patient in amelioration of a condition under treatment. Thus, for example, where a portion of bone is removed due to osteosarcoma, infusion of the replacement bone implant with an antineoplastics compound would be beneficial to prevent any potential metastasis from diseased to new healthy tissue, and to treat any residual tumor tissue through diffusion of the antineoplastics compound into surrounding tissue. Those skilled in the art will appreciate that, based on this disclosure, any other desirable material, even though not specifically disclosed or suggested herein, may be selectively infused into a bone implant through practicing the methods of this invention as disclosed herein. - Having now generally described various embodiments of this invention, the following examples are provided by way of further exemplification of this invention. It should be recognized that the invention disclosed and claimed herein is not to be limited to the specifics provided in these examples, but is to be determined by the claims appended hereto:
- The starting bone stock was chosen such that a piece of bone consisting substantially of cortical bone was used to machine the implant of this invention. Implants from the linea aspera of the femur or an anterior aspect of the tibia were used for this purpose, but other cortical sources of bone would be acceptable. The desired bone segment was removed with a bone saw or a water-cooled diamond core cutter, and trimmed to fit in a lathe for machining of desired external features. The bone was first machined to a known diameter and length. The ends were then machined to exhibit an internal thread, an external thread, or to have one machined end while the other end of the implant was drilled to exhibit one to several holes. The internal segment destined for demineralization was then either retained in a cylindrical form or machined in a milling machine or a grinder, to exhibit a flat internal segment, or another desired shape, between the threaded ends or the fixation ends.
- 1. Large Cylindrical Ligament Repair Grafts:
- Demineralization of a machined large cylindrical ligament repair graft was completed in three days using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- 2. Small Cylindrical Ligament Repair Grafts:
- Demineralization of a machined small cylindrical ligament repair graft was completed in two days using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- 3. Flat Ligament or Tendon Repair Grafts:
- Demineralization of a machined ligament or tendon repair graft wherein an internal segment of the graft was machined flat, was completed in twenty-four hours using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process.
- 4. Double Flat Ligament Repair Grafts Having Two Rigid Ends:
- Demineralization of a machined, flat ligament repair graft was completed in twenty-four hours using approximately 40 mL of 0.75 M-1.0 M hydrochloric acid solution. The implant was exposed to fresh solution at least once per day. In order to produce a gradual transition from a fully mineralized end to a fully demineralized segment, the point of contact of the HC1 solution with the implant was varied over the duration of the demineralization process. In order to protect both rigid ends of the implant, one bearing a thread and the other being a fixation block, the implant was exposed to the acid solution only in the middle segment by keeping the threaded end of the implant above the meniscus of the acid, and the fixation block end of the implant was inserted into a bored-out stopper, which also acted as a plug at the bottom of the acid container, into which a hole adequate to receive the implant bearing stopper had been drilled.
- In view of the foregoing disclosure and examples, in which various embodiments of the implant of this invention are disclosed and described, including the best mode, the following claims are provided to define the scope of this invention. Those skilled in the art will recognize that various modifications on the specifics of the invention disclosed herein come within the scope of the appended claims.
- Following the procedures outlined in this disclosure, a flat cortical segment of bone is partially demineralized to form an ALL replacement or an STB, for stabilization of portions of the spine undergoing fusion. The ALL is affixed to two adjacent vertebrae undergoing fusion, while the STB is affixed to vertebrae juxtaposed to vertebrae undergoing fusion. The mineralized portion of the ALL and STB are utilized to affix the implants to the vertebrae by means of cortical bone screws, metallic pins or by hooking demineralized portions of the ALL or STB over vertebral processes. Craniomaxillofacial implantation of a pizza shaped implant such as that shown in FIG. 9 is achieved by resecting a portion of the skin and musculature above a craniomaxillofacial defect and laying the implant over the defect in a contoured fashion. The implant is maintained in place by repair of the superior skin and musculature. In the case of the bone-wrap, a sheet of cortical bone is segmentally masked such that adjacent liner segments of alternating mineralized and demineralized bone are produced upon contact of the masked bone to demineralizing agents such as acetic acid, hydrochloric acid, chelating agents, and the like. The bone-wrap is wrapped around a segment of fractured bone to provide support and to contain added osteogenic compositions to maximize repair of the fractured bone.
- In accordance with one aspect of the present invention, any implant disclosed herein or a variant thereof may be modified by selective infusion into the demineralized portion of the implant of any desirable material, including but not limited to: cells, including but not limited to mesenchymal stem cells (MSC's), other cells, osteoblasts, osteoclasts, chondrocytes, fibroblasts, chondrogenic stem cells, hematopoietic stem cells, blood components, growth factors, including but not limited to bone morphogenetic proteins, (BMPs), fibroblast growth factors (FGFs), platelet derived growth factor (PDGF), cartilage derived morphogenetic proteins (CDMPs), tissue derived growth factors (TGFs), and the like, nucleic acids, especially nucleic acids encoding such growth factors, proteins, peptides, antibiotics, antineoplastics, anti-inflammatory compounds, and like molecules. Those skilled in the art will appreciate that, based on this disclosure, any other desirable material, even though not specifically disclosed or suggested herein, may be selectively infused into a bone implant through practicing the methods of this invention as disclosed herein.
- In one particular example, a bone implant was machined in the form of a ligament with a mineralized portion of the implant bearing holes for suture passage therethrough. A second portion of the implant was demineralized, and the entire segmentally demineralized bone implant was implanted into an animal model to test for strength of the implant used as a ligament replacement. It was noted that after presence in the biological system, the demineralized portion of the implant had a much darker color than the portion of the implant that was left in a mineralized state. This observation leads to the conclusion that the demineralized portion of the implant is taking up materials with which it is contacted much more efficiently than the mineralized portion of the implant. Accordingly, various implants are prepared with different degrees of demineralization, and such implants are contacted with various materials including, but not limited to those described above. As a result, a wide variety of properties may be conferred on the implants thus treated to achieve desired biological functions, from the formation of connective tissues, bone, cartilage, and the like. Use of masking procedures facilitates the production of implants with complex patterns of material uptake, as needed.
Claims (11)
Priority Applications (11)
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US08/958,364 US6090998A (en) | 1997-10-27 | 1997-10-27 | Segmentally demineralized bone implant |
PCT/US1998/021530 WO1999021515A1 (en) | 1997-10-27 | 1998-10-13 | Segmentally demineralized bone implant |
JP2000517679A JP2001520914A (en) | 1997-10-27 | 1998-10-13 | Partially demineralized bone implant |
CA002304099A CA2304099A1 (en) | 1997-10-27 | 1998-10-13 | Segmentally demineralized bone implant |
HU0200217A HUP0200217A2 (en) | 1997-10-27 | 1998-10-13 | Segmentally demineralized bone implant, a method for making it, and a prosthetic joint and a method for the joint arthroplasty |
EP98951050A EP1027017A1 (en) | 1997-10-27 | 1998-10-13 | Segmentally demineralized bone implant |
AU96943/98A AU755050B2 (en) | 1997-10-27 | 1998-10-13 | Segmentally demineralized bone implant |
PL98342109A PL342109A1 (en) | 1997-10-27 | 1998-10-13 | Bone implant with demineralised segments |
US09/778,046 US20010020188A1 (en) | 1997-10-27 | 2001-02-05 | Selective uptake of materials by bone implants |
PCT/US2002/004980 WO2002062405A2 (en) | 1997-10-27 | 2002-02-05 | Selective uptake of materials by bone implants |
AU2002252019A AU2002252019A1 (en) | 2001-02-05 | 2002-02-05 | Selective uptake of materials by bone implants |
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JP2001520914A (en) | 2001-11-06 |
WO1999021515A1 (en) | 1999-05-06 |
EP1027017A1 (en) | 2000-08-16 |
US6090998A (en) | 2000-07-18 |
WO2002062405A3 (en) | 2002-12-19 |
AU9694398A (en) | 1999-05-17 |
AU755050B2 (en) | 2002-12-05 |
WO2002062405A2 (en) | 2002-08-15 |
CA2304099A1 (en) | 1999-05-06 |
HUP0200217A2 (en) | 2002-05-29 |
PL342109A1 (en) | 2001-05-21 |
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