Classifications

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  • A61B17/56—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
  • A61B17/58—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
  • A61B17/68—Internal fixation devices, including fasteners and spinal fixators, even if a part thereof projects from the skin
  • A61B17/80—Cortical plates, i.e. bone plates; Instruments for holding or positioning cortical plates, or for compressing bones attached to cortical plates
  • A61B17/8085—Cortical plates, i.e. bone plates; Instruments for holding or positioning cortical plates, or for compressing bones attached to cortical plates with pliable or malleable elements or having a mesh-like structure, e.g. small strips
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  • A61B17/58—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
  • A61B17/68—Internal fixation devices, including fasteners and spinal fixators, even if a part thereof projects from the skin
  • A61B17/688—Internal fixation devices, including fasteners and spinal fixators, even if a part thereof projects from the skin for reattaching pieces of the skull
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  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
  • A61F2/0063—Implantable repair or support meshes, e.g. hernia meshes
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  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
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  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
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  • A61F2/2846—Support means for bone substitute or for bone graft implants, e.g. membranes or plates for covering bone defects
• • A—HUMAN NECESSITIES
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  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
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  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
  • A61F2/02—Prostheses implantable into the body
  • A61F2/30—Joints
  • A61F2002/30001—Additional features of subject-matter classified in A61F2/28, A61F2/30 and subgroups thereof
  • A61F2002/30316—The prosthesis having different structural features at different locations within the same prosthesis; Connections between prosthetic parts; Special structural features of bone or joint prostheses not otherwise provided for
  • A61F2002/30329—Connections or couplings between prosthetic parts, e.g. between modular parts; Connecting elements
  • A61F2002/30428—Connections or couplings between prosthetic parts, e.g. between modular parts; Connecting elements made by inserting a protrusion into a slot
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
  • A61F2/02—Prostheses implantable into the body
  • A61F2/30—Joints
  • A61F2/30767—Special external or bone-contacting surface, e.g. coating for improving bone ingrowth
  • A61F2/30771—Special external or bone-contacting surface, e.g. coating for improving bone ingrowth applied in original prostheses, e.g. holes or grooves
  • A61F2002/30772—Apertures or holes, e.g. of circular cross section
  • A61F2002/30784—Plurality of holes
  • A61F2002/30785—Plurality of holes parallel
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
  • A61F2/02—Prostheses implantable into the body
  • A61F2/30—Joints
  • A61F2/30767—Special external or bone-contacting surface, e.g. coating for improving bone ingrowth
  • A61F2/30771—Special external or bone-contacting surface, e.g. coating for improving bone ingrowth applied in original prostheses, e.g. holes or grooves
  • A61F2002/30772—Apertures or holes, e.g. of circular cross section
  • A61F2002/30784—Plurality of holes
  • A61F2002/30787—Plurality of holes inclined obliquely with respect to each other
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
  • A61F2/02—Prostheses implantable into the body
  • A61F2/30—Joints
  • A61F2/46—Special tools or methods for implanting or extracting artificial joints, accessories, bone grafts or substitutes, or particular adaptations therefor
  • A61F2/4644—Preparation of bone graft, bone plugs or bone dowels, e.g. grinding or milling bone material
  • A61F2002/4649—Bone graft or bone dowel harvest sites
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2210/00—Particular material properties of prostheses classified in groups A61F2/00 - A61F2/26 or A61F2/82 or A61F9/00 or A61F11/00 or subgroups thereof
  • A61F2210/0004—Particular material properties of prostheses classified in groups A61F2/00 - A61F2/26 or A61F2/82 or A61F9/00 or A61F11/00 or subgroups thereof bioabsorbable
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2220/00—Fixations or connections for prostheses classified in groups A61F2/00 - A61F2/26 or A61F2/82 or A61F9/00 or A61F11/00 or subgroups thereof
  • A61F2220/0025—Connections or couplings between prosthetic parts, e.g. between modular parts; Connecting elements
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
  • A61F2230/00—Geometry of prostheses classified in groups A61F2/00 - A61F2/26 or A61F2/82 or A61F9/00 or A61F11/00 or subgroups thereof
  • A61F2230/0063—Three-dimensional shapes
  • A61F2230/0069—Three-dimensional shapes cylindrical
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
  • A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
  • A61L2300/40—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a specific therapeutic activity or mode of action
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
  • A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
  • A61L2300/40—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a specific therapeutic activity or mode of action
  • A61L2300/412—Tissue-regenerating or healing or proliferative agents
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
  • A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
  • A61L2300/40—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a specific therapeutic activity or mode of action
  • A61L2300/412—Tissue-regenerating or healing or proliferative agents
  • A61L2300/414—Growth factors

Definitions

• the present invention relates generally to implants for use in repairing various portions of the mammalian skeletal system and, more particularly, to implants for use in clinical procedures such as bone fracture repair, regeneration of bone loss, augmentation of deficient bone, and related procedures.
• defects in the mammalian skeletal system can be treated by various surgical procedures.
• Defects in the mammalian skeletal system may include bone fracture, loss of bone occurring from traumatic, surgical, or infectious sources, and bone deficiencies stemming from conditions such as atrophy and congenital anomalies.
• One procedure that is common in the prior art for treating bone defects involves the placement of additional bone into the bone defect area. This procedure, which is commonly referred to as bone grafting, is the second most frequently performed surgical grafting procedure, with skin grafting the most common surgical grafting procedure.
• Current bone grafting procedures include the use of vascularized or non-vascularized autografts and allografts.
• a bone autograft is a portion of bone taken from another area of the skeletal system of the patient.
• a bone allograft involves a human donor source other than the recipient patient.
• Allogenic bone graft typically comprises bone harvested from cadavers, which is subsequently treated and stored in a bone bank and ultimately used as a bone graft implant.
• Allogenic bone graft is known to have osteoconductive and osteoinductive capabilities, although the osteoinductive properties are limited because of the necessary tissue sterilizing and cleaning procedures associated with harvesting these bone grafts.
• the term osteoconduction refers to a class of biomaterials which provide a three- dimensional porous framework to conduct the ingrowth of new living bone into this structure.
• osteoinduction refers to a class of materials having capabilities of recruiting mesenchymal stem cells of the patient and promoting their differentiation into osteoblasts, which are bone forming cells.
• An osteoinductive material will typically form bone if implanted into an area where bone would not normally grow. For example, the placement of bone morphogenic proteins into the muscle of a patient will result in ectopic (outside of bone) bone formation.
• Bone autografting procedures are typically associated with limitation of donor sites, bone quantity, and donor site morbidity (especially if multiple donor sites are required) .
• Bone allografting procedures to begin with, only have limited osteoinductive capabilities.
• allografts are immunogenic to a certain degree, bear the risk of disease transmission (e.g. HIV and Hepatitis) , and, depending on the size of the allograft, require a long time for ingrowth and partial substitution with new bone. This long substitution process often requires a time duration of greater than one year before satisfactory clinical results are obtained.
• Bone grafts may re- fracture after fixator removal if bone ingrowth and substitution is inadequate.
• various bone graft substitutes have been used by the prior art for treating bone defects in the mammalian skeletal system.
• Porous ceramic bone graft substitutes for instance, such as coralline hydroxyapatites, operate similarly to bone grafts by providing a three- dimensional structural framework. This framework conducts the regenerating bone of the patient into the porous matrix of the three-dimensional structural framework.
• This process of conducting the regenerating bone into the porous matrix is commonly referred to as osteoconduction, as opposed to osteoinduction discussed above.
• Permanent, non-resorbable, inorganic, ceramic implants have shortcomings such as inherent brittleness and large framework volume fractions.
• the framework volume fraction of a typical bone graft substitute comprises approximately 40 percent of the volume where new bone could otherwise grow. This 40 percent volume occupied by a bone graft substitute, consequently, cannot be occupied by the regenerating bone of the patient.
• a process referred to as guided tissue regeneration is widely used by periodontists to regenerate bone and periodontal ligaments (ligaments between the tooth root and the bone) around dental implants, for example.
• This surgical procedure uses cell-occlusive (cells cannot pass through) but fluid-permeable membranes, which are otherwise known as semipermeable membranes, in order to cover and segregate a bone defect from the surrounding soft tissues.
• U.S. Patent No. 3,962,153 discloses such a cell-occlusive, fluid-permeable membrane.
• Use of these cell-occlusive, fluid permeable membranes has been predominantly developed and used by periodontists over the last decade, who worked in the mouth around teeth.
• the human body has many tissue types which originate from three primary germ layers of the embryo: the ectoderm, the mesoderm and the entoderm. From the ectoderm are derived the skin and its attached tissues, such as nails, hair and glands of the skin, the nervous system, external sense organs and the epithelial lining of the mouth and anus. From the mesoderm are derived the connective tissues, bone, cartilage, muscle, blood and blood vessels. From the entoderm are derived, among others, the digestive tract, bladder and urethra. The "precursor" cells of these layers are limited to only becoming cells of their respective tissue type.
• Bone, muscle, connective tissue, blood vessels and cartilage are of mesenchymal origin which means from the meshwork of embryonic connective tissue in the mesoderm, and are formed from versatile mesenchymal stem cells, whereas the lining of the mouth is of ectodermal origin and is formed of epithelial cells derived from the ectoderm. Ectodermal cells do not have the potential to become bone forming cells and, conversely, mesenchymal cells do not have the potential to form epithelium.
• Epithelial cells are present in the mouth, but are not present in many other areas of the mammalian skeletal system, such as areas near long bones of the mammalian skeleton.
• the development of cell-occlusive, fluid permeable membranes was developed in the context of periodontal and oral applications, for the purpose of excluding the introduction of epithelial cells into the bone defect area of the patient because they are believed to hinder bone formation.
• Epithelial cells proliferate faster than bone cells and, therefore, the exclusion of these epithelial cells from the bone defect area has been considered to be essential for optimal bone and ligament regeneration in these periodontal and oral applications.
• cell-occlusive, fluid permeable membranes have been predominantly used in periodontal and oral applications, these cell-occlusive membranes have recently also been applied for tissue segregation in other defect sites in the mammalian skeletal system, such as long bone defects.
• These cell-occlusive membranes of the prior art have a shortcoming of blocking blood vessels and mesenchymal cells from entering into the bone defect area.
• the advantage of precluding epithelial cells from the bone defect area in the oral cavity is achieved at the expense of also precluding entry of blood vessels and surrounding mesenchymal cells into the bone defect area, as well.
• a typical cell-occlusive, fluid permeable membrane 10 is illustrated surrounding a first section of the long bone 12 and a second section of long bone 14.
• the bone defect area 20 is bounded by the two ends 16, 18 of the first section of long bone 12 and the second section of long bone 14, respectively, and by the cell-occlusive, fluid-permeable membrane 10.
• this bone defect area 20 can receive blood from the bone vessels 23, blood and cells from the surrounding blood vessels 25 and tissues 27 is precluded from entering the bone defect area 20.
• the periosteum 31 and the surrounding tissues 27 are just external to the cell- occlusive, fluid-permeable membrane 10 and are guided in the directions of the arrows Al and A2.
• the cell-occlusive, fluid permeable membrane 10 suffers from a lack of rigidity, as evidenced by the hour-glass configuration of the cell-occlusive, fluid-permeable membrane 10 in Figure 1.
• a typical thickness of the cell-occlusive, fluid-permeable membrane 10 comprises less than 5 microns. Since periodontal defects are typically small, and since oral soft tissues typically do not apply much pressure, the cell-occlusive, fluid- permeable membrane 10 of the prior art has maintained its very thin and flexible configuration. Unfortunately, this very thin and flexible configuration, which is somewhat suitable for periodontal and oral applications, is not suitable for maintaining and protecting a sufficiently large bone defect area 20 in non- periodontal and non-oral applications.
• the cell-occlusive, fluid- permeable membrane 10 cannot provide sufficient protection against the prolapse of soft tissues into the bone defect area 20.
• these interposed tissues present a physical barrier for the regenerating bone.
• the regenerating bone will not be able to push the interposed soft tissues out of the bone defect area, and subsequently, further regeneration of the bone in these areas occupied by the prolapsed soft tissues is prevented.
• a "non-union" (or pseudoarthrosis which means pseudo-joint) may result, comprising fibrous scar tissue instead of bone.
• the prior art cell-occlusive, fluid-permeable membrane 10 is non- resorbable, and cannot be absorbed by the patient's body. Consequently, in order to avoid the risk of bacterial infection, the cell-occlusive, fluid-permeable membrane 10 must be removed during a subsequent operation, which may introduce further complications and risks to the patient. Thus, in addition to being cell- occlusive, prior membranes suffer from lack of inherent strength and non-resorbability.
• a fixation device comprising a titanium screen mesh
• This titanium screen mesh forms a fixation device, which is designed to be non-resorbable.
• the fixation device comprises a metallic plate structure which provides the necessary strength, at the cost of being non-resorbable. To date, any known resorbable material would not be capable of providing the equivalent rigidity and function of the titanium mesh screen.
• the metallic plate structure of the fixation device comprises a number of perforations designed specifically for accommodating screws for fixation.
• the fixation device is secured onto the bone of the patient with the screws and is designed to be permanently left inside the patient. Any proliferation of blood vessels through these screw holes would be destroyed by any subsequent removal of the fixation device. On the other hand, if the fixation device is left in permanently, which is a disclosed embodiment, the bone of the patient will be permanently stress shielded.
• a prosthetic device which comprises holes punched into a planar material for facilitating suturing of the prosthetic device, is disclosed in U.S. Patent No. 5,222,987. This prosthetic device, however, is only disclosed in the context of fabricating artificial bone structure. In other words, this prosthetic device is not used in any process associated with bone regeneration.
• the prosthetic device comprises a fabriclike composite onto which a polymer or resin is added, before the resulting product is molded into the shape of a bone.
• a polymerizable initiator is subsequently added to harden and bond the materials together.
• Small holes or ports may be added to accommodate sutures for attaching the prosthetic device to the body.
• the prosthetic device is specifically designed as a replacement for the rib cage of a mammalian skeletal system, and does not facilitate bone regeneration.
• the allogenic bone graft is intended to become integrated with the new bone of a patient and partially remodeled over time into a composite of both cadaver bone and new regenerated natural bone, while permanently remaining within the bone defect area of the patient.
• the pores in the allogenic bone graft membrane of these patents are designed to maximize the exposed surface area in order to enhance its osteoinductive contribution, as bone morphogenic proteins are released from the surface of the allogenic bone graft.
• This allogenic bone graft matrix will never be completely resorbed. This is obviously disadvantageous, because its structure reduces the space for new bone regeneration.
• Another device, which comprises apertures or pores for facilitating tissue growth therein, is disclosed in U.S. Patent No. 5,326,356.
• This patent is directed to an apparatus for generating artificial skin grafts.
• Bio-compatible membranes comprising natural, synthetic, or semi-synthetic origin are used as a support for the in vitro (outside of a living organism) growth of epithelial skin cells. These epithelial skin cells are grown into the pores of the membrane outside of the body of the patient.
• the resulting artificial skin graft is obviously not intended for use on the mammalian skeletal system.
• This artificial skin graft in any event, would be far too thin and flexible for use on the mammalian skeletal system, and further would not have adequate fixation strength.
• the epithelial cells which comprise the artificial skin graft are not present in the non-periodontal and non-oral applications, such as long bones, where a cell-permeable membrane is needed in the prior art for facilitating bone regeneration.
• the present invention recognizes that a cell- occlusive, fluid permeable membrane is not suitable for bone regeneration in non-periodontal and non-oral applications.
• the present invention recognizes that these prior art cell-occlusive, fluid-permeable membranes hinder bone regeneration by blocking the ingress of blood vessels and cells into the bone defect area.
• the protective bone regeneration membrane of the present invention has a much smaller net surface area, compared to prior art cell-occlusive, fluid permeable membranes, resulting from the introduction of cell- permeable apertures into the membrane of the present invention.
• the protective bone regeneration membrane of the present invention is substantially stronger and more rigid than prior art cell-occlusive, fluid permeable membranes .
• an implant for protecting biological tissue defects from a prolapse of adjacent soft tissues during in vivo repair of the biological tissue defects includes a substantially planar sheet of non-metallic base material.
• the implant further includes a plurality of apertures disposed in the substantially planar sheet of non-metallic base material.
• the apertures are adapted for allowing a proliferation of vasculature and connective tissue cells, derived from the adjacent soft tissues, into the biological tissue defect, while preventing any gross prolapse of the adjacent soft tissues into the biological tissue defect.
• the connective tissue cells include mesenchymal cells, and the implant may be impregnated with at least one substance for cellular control.
• This substance for cellular control may include at least one of a chemotactic substance for influencing cell-migration, an inhibitory substance for influencing cell-migration, a mitogenic growth factor for influencing cell proliferation, a growth factor for influencing cell differentiation, and factors which promote neoangiogenesis (formation of new blood vessels) .
• the biological tissue defect preferably comprises a bone defect and, more preferably, comprises a non- periodontal, non-oral bone defect.
• the implant may be used in combination with a fixation device for stabilizing the bone defect.
• the material of the implant is flexible enough to conform to a curvature of a bone and strong enough to reduce macro- motion of the bone defect and limit transmission of surrounding motion into the interior space when the fixation device is attached to the bone defect.
• the implant is adapted for protecting the bone defect from a prolapse of adjacent soft tissues into the bone defect during repair of the bone defect and, further, is adapted for preventing stress shielded resorption of bone after the repair of the bone defect.
• the bone, which is prevented from being resorbed may include either an autograft, an allograft, and/or new regenerated bone within the bone defect.
• the implant is resorbable.
• the resorption of the implant can prevent stress shielding of the bone defect, to thereby prevent resorption of new bone which would occur if the bone defect were stress shielded by either the fixation device or the implant, or both.
• the fixation device may be resorbable or non-resorbable. When the fixation device is resorbable, the fixation device loses its mechanical strength within 24 months and, more preferably, within 4 to 12 months. This loss of mechanical strength of the fixation device can prevent resorption of new bone near the bone defect which would occur if the bone defect were stress shielded by either the fixation device, the implant, or both.
• the resorption of the implant can reduce stress shielding of the bone defect area to thereby minimize resorption of new bone near the bone defect.
• the implant may be non- resorbable, but flexible enough to prevent stress shielding of the bone defect after the resorbable fixation device has lost its mechanical strength.
• Each of the apertures within the implant has a diameter in a range between 20 microns and 3000 microns, and, preferably, has a diameter of approximately 1500 microns.
• the implant has a thickness in a range between 100 microns and 2000 microns, but may also be configured as thin as 10 microns.
• This implant comprises at least one of a biodegradable synthetic material and a biodegradable natural material, that is also a non- osteogenic, non-metallic substance having a stiffness sufficient to prevent gross soft tissue prolapse into an area of the bone defect where new bone ideally would grow.
• a planar membrane for preventing soft tissue from prolapsing into a protected area of a bone defect.
• the planar membrane is adapted for being placed outside of the bone defect area, as opposed to being placed within the bone defect area where new bone would ideally grow, to thereby facilitate entirely new bone growth only within the protected area.
• the planar membrane includes a plurality of apertures disposed therein. Each of the plurality of apertures is adapted for allowing a proliferation of vasculature and connective tissue cells into the protected area, while preventing a prolapse of adjacent soft tissues into the protected area.
• the planar membrane is adapted for resorption into the body of a patient, within a period of approximately 24 months from an initial implantation of the planar membrane into the body of the patient.
• a resorbable membrane for facilitating protected bone regeneration.
• the resorbable membrane is adapted for being wrapped around the bone defect area, to thereby cover and surround the entire bone defect area and to overlap adjacent areas of bone near the bone defect area.
• the resorbable membrane has a strength sufficient to prevent prolapse of adjacent soft tissues into the bone defect area and to thereby facilitate bone regeneration independently, without any aid from a fixation device, when the resorbable membrane is secured around the bone defect area and secured to the adjacent areas of bone near the bone defect area.
• the resorbable membrane forms a tube surrounding the entire bone defect area and overlapping the adjacent areas of bone near the bone defect area, when the resorbable membrane is secured both around the bone defect area and to the adjacent areas of bone near the bone defect area.
• the resorbable membrane can be frictionally secured around the bone defect area, or can be secured around the bone defect area using at least one of clamps, staples, screws, sutures, and tacks.
• the fixation device can include at least one of a plate, a screw, an intramedullary rod, and an external fixation device.
• a method of protecting a biological tissue defect area from soft tissue interposition includes a step of placing a resorbable membrane outside of a boundary of the biological tissue defect, where the resorbable membrane comprises a plurality of apertures adapted for allowing a proliferation of vasculature and connective tissue cells therethrough, while preventing the prolapse of adjacent soft tissues into the biological tissue defect.
• the biological tissue defect area can include a bone defect area
• the step of placing a resorbable membrane outside of the boundary of the bone defect area can include a step of wrapping the resorbable membrane around two ends of a long bone to thereby surround a void between the two ends of the long bone.
• a rigid fixation device can subsequently be secured between the two ends of the long bone.
• Figure 1 illustrates a longitudinal cross-section of a cell-occlusive membrane secured around a long bone defect according to the prior art
• Figure 2 illustrates a longitudinal cross-section of the protective bone regeneration membrane secured around a long bone defect according to the presently preferred embodiment
• Figures 3a and 3b illustrate the protective bone regeneration membrane according to the presently preferred embodiment
• Figure 4 illustrates the protective bone regeneration membrane of the present invention, as applied to a long bone defect
• Figure 5 illustrates the protective bone regeneration membrane of the present invention, applied to various bone defect areas of a human skull
• Figure 6 illustrates the protective bone regeneration membrane of the presently preferred embodiment, used to facilitate bone regeneration of the iliac crest of a patient, after a bone autograft has been harvested from the patient;
• Figure 7 illustrates the protective bone regeneration membrane of the present invention, as applied to a mandibular (lower jaw) bone defect of a patient
• Figure 8 illustrates the protective bone regeneration membrane of the present invention, used in combination with a fixation device, as applied to a long bone defect of a patient.
• a protective bone regeneration membrane 42 comprising a base material 44 and apertures 46.
• the protective bone regeneration membrane 42 is shown in Figure 2 wrapped around a bone defect area 49.
• the bone which is surrounded by the protective bone regeneration membrane 42, comprises a first section of long bone 51, a second section of long bone 53, and a partially healed intermediate section of long bone 55.
• the protective bone regeneration membrane 42 is rigid enough to prevent prolapse of the surrounding tissues 57 into the bone defect area 49.
• the apertures 46 of the protective bone regeneration membrane 42 are large enough to allow for a proliferation of blood vessels 61 therethrough and into the first section of long bone 51, the second section of long bone 53, and the partially healed bone defect 49.
• the protective bone regeneration membrane 42 of the presently preferred embodiment is rigid enough to withstand prolapse of the surrounding tissue 57, the regeneration of the partially damaged periosteum 64 is guided over the protective bone regeneration membrane 42 in a direction substantially parallel to the arrows A3 and A4.
• the apertures 46 within the protective bone regeneration membrane 42 are both cell and fluid permeable, and the base material 44 of the protective bone regeneration membrane 42 is rigid enough to maintain the available space between the first section of long bone 51 and the second section of long bone 53 for ideal bone regeneration. Additionally, the base material 44 is resorbable, according to the presently preferred embodiment.
• the cell-occlusive membrane of the prior art membrane 10 ( Figure 1), in contrast, is specifically designed to prevent the proliferation of cells and vessels therethrough. This membrane 10 is also insufficiently rigid and non-resorbable.
• Figures 3a and 3b illustrate different embodiments of a sheet of the protective bone regeneration membrane 42, comprising the base material 44 and the apertures 46.
• the protective bone regeneration membrane 42 comprises either a biodegradable synthetic material or a biodegradable natural material, or both.
• the biodegradable synthetic material may comprise polymers, for example, and the biodegradable natural material may comprise collagen, for example.
• Each of the apertures 46 preferably has a diameter within a range of between 20 microns and 3000 microns. In the presently preferred embodiment, each aperture 46 comprises a diameter of approximately 1500 microns.
• a thickness of the base material 44 is preferably within a range between 100 microns and 2000 microns, but may also be configured as thin as 10 microns. The pattern of distribution of the apertures 46 may vary according to the bone defect being treated.
• the ranges of aperture 46 sizes, base material 44 thickness, and aperture 46 shape and distribution is preferably implemented by the present invention in order to optimize the protective bone regeneration membrane 42 to different environmental conditions.
• Examples of the different environmental conditions encountered in different bone defects include the location of the defect (long bone or flat bone) , the type of defect
• Figure 4 illustrates the protective bone regeneration membrane 42 applied to a long bone 68 of a patient.
• the protective bone regeneration membrane 42 is applied to the long bone 68 in combination with a fixation device 70.
• the fixation device 70 can be secured to the long bone 68 using conventional means, such as tacks or screws 72.
• the fixation device 70, the screws 72, and the protective bone regeneration membrane 42 together securely hold the first section 75 of the long bone 68 to the second section 77 of long bone 68.
• a bone defect area 79 is protected against the prolapse of adjacent soft tissues, for example, by the protective bone regeneration membrane 42.
• the combination of the protective bone regeneration membrane 42 and the fixation device 70 may in some instances be adapted for operating together to relieve stress shielding of the long bone 68, to thereby prevent subsequent resorption of new bone.
• the prior art titanium screen mesh is designed to remain permanently attached to the bone, resulting in long-term stress shielding and resorption of newly formed bone within the bone defect area 79.
• the protective bone regeneration membrane 42 of the present invention is preferably configured of a resorbable, bio-compatible material. At about the time that the new bone within the bone defect area 79 is fully regenerated, the protective bone regeneration membrane 42 of the presently preferred embodiment will have resorbed sufficiently to no longer shield stress from the bone defect area 79 to thereby encourage an increase of bone formation.
• the fixation device 70, and/or the screws 72 are also formed of a resorbable material. That is, the combination of the fixation device 70, the screws 72, and the protective bone regeneration membrane 42 prevent excessive motion between the first section 75 and the second section 77 of the long bone 68.
• this period of time sufficient for complete new bone regeneration within the bone defect area 79 is between approximately 2 to 24 months.
• the resorption of the protective bone regeneration membrane 42 to a point where the protective bone regeneration membrane 42 can no longer shield significant mechanical stress on the first section 75 and the second section 77 is between approximately 2 and 24 months.
• the protective bone regeneration membrane 42 may comprise a non-resorbable material.
• the protective bone regeneration membrane 42 is non- resorbable and the fixation device 70 is resorbable, resorption of newly formed bone within the bone defect area 79 is still prevented.
• the protective bone regeneration membrane 42 is configured to be flexible enough to prevent stress shielding between the first section 75 and the second section 77, after the fixation device 70 has been resorbed to a point where the fixation device 70 no longer exerts mechanical strength on the first section 75 and the second section 77 of the long bone 68.
• the protective bone regeneration membrane 42 of the present invention is designed to be used in combination with a fixation device 70, in a preferred embodiment, while the titanium screen mesh of the prior art comprises a fixation device designed predominantly to be used alone.
• the protective bone regeneration membrane 42 of the present invention may be used in combination with the prior art titanium screen mesh, as well as in combination with any other conventional fixation device.
• internal fixation devices can be divided into two classes. Cortical compression plates comprise a first class and intramedullary rods comprise a second class. Both classes of devices are unable to secure and stabilize shattered bone, because bone fragments are often small and free floating within the fracture cavity.
• the protective bone regeneration membrane 42 of the presently preferred embodiment is preferably resorbed within the body of the patient to a point where substantial mechanical fixation is no longer exerted on the first section 75 and the second section 77 of the long bone 68, within a period of approximately 1 year. Complete resorption of the protective bone regeneration membrane 42 may subsequently occur after a total period of l ⁇ s to 2 years have elapsed since the initial implantation.
• the protective bone regeneration membrane 42 of the present invention is resorbed into the body of the patient.
• Allogenic bone grafts are only partially substituted with new bone over time, typically comprising 1 to 2 years, forming a permanent composite of viable (new) bone and non-viable cadaver bone.
• allogenic bone grafts cannot achieve a complete regeneration of the entire bone defect with new living bone, as can the protective bone regeneration membrane 42 of the present invention. This benefit is achieved by placement of the protective bone regeneration membrane 42 outside of the bone defect area 49, rather than within the bone defect area 49.
• the holes within the allogenic bone graft of the prior art are substantially occluded by induced bone formation therein within approximately 2 to 3 weeks after the initial implantation.
• the prior art allogenic bone graft is placed within the bone defect area itself, since the purpose of the prior art allogenic bone graft 42 is to become a part of the new bone.
• the protective bone regeneration membrane 42 of the present invention is designed to be placed completely outside of the bone defect area, in order to maintain a maximal size of the bone defect area 79 for regeneration of new bone by the patient in the area 79.
• allogenic bone grafts are inferior to the protective bone regeneration membrane 42 of the present invention in providing a combination of patient safety in preventing disease transmission, optimal prolapse prevention and maximal space preservation for bone regeneration, and vasculature ingrowth potential.
• the above-mentioned skin graft of the prior art comprises apertures which are quickly occluded by the ingrowth of epithelial cells therein.
• These prior art apertures similarly to the allogenic bone graft holes, are actually filled with the desired tissues, whereas, the apertures of the protective bone regeneration membrane 42 allow ongoing transmigration of cells and blood vessels for generating the desired tissue. Additionally, these apertures are formed having a diameter of approximately 1 millimeter, whereas the preferred diameter of the apertures of the present invention are approximately 1.5 millimeters.
• the skin graft membrane of the prior art is specifically designed for providing an in vitro scaffold and subsequent transplantable skin graft, whereas the present invention preferably operates in vivo.
• the present invention is directed to maintaining a space, protected against adjacent soft tissue prolapse, to thereby facilitate spontaneous bone regeneration by the patient within the protected space.
• the present invention recognizes that spontaneous bone regeneration by the patient can be greatly accelerated and enhanced by allowing the infiltration of surrounding blood vessels and cells.
• mesenchymal stem cells which can be found in surrounding mesodermal tissues, are the precursor cells that eventually form muscle, cartilage, tendons, ligaments, connective tissues, and bone. These cells are present in these tissues and are involved in the perpetual renewal of each specific tissue, although in their earliest stage of development, these cells are not committed to becoming any given tissue. An uncommitted mesenchymal stem cell found in muscle, for example, will not strictly become a muscle cell. If the mesenchymal stem cell is needed to become a bone cell, the mesenchymal stem cell may migrate to a bone defect and differentiate into a bone forming cell.
• the mechanism for attracting these cells and directing them to become a specific tissue cell is understood by the present inventors to be controlled by morphogenic proteins, although other factors may be involved. In bone, for example, these proteins are commonly referred to as bone morphogenic proteins.
• the apertures 46 of the protective bone regeneration membrane 42 harness this mechanism, by allowing bone morphogenic proteins derived from within the bone matrix to attract mesenchymal stem cells from the surrounding connective tissues, musculature, periosteum, and vasculature. The attracted elements are then directed to differentiate into bone forming cells, which are essential for new bone formation by the patient.
• the apertures 46 of the present invention allow vital contributions of blood vessels from surrounding tissues, musculature, and periosteum into the protected area.
• Blood vessels invading the bone defect through the protective bone regeneration membrane 42 of the present invention greatly enhance the generation of new bone, as compared to prior art cell- occlusive membranes that limit the supply of blood to that coming from within the bone defect itself.
• the ability for capillaries from surrounding soft tissues to proliferate through the protective bone regeneration membrane 42 helps prevent migrating cells from the osseous bed and the periosteum from outstripping their proliferating blood supply. This proliferation of blood vessels increases the potential of spontaneous bone regeneration within a given defect.
• mesenchymal stem cells are believed to be perivascular (around blood vessels) connective tissue cells, which would additionally foster bone regeneration by the transmembranous sprouting of capillaries, since most vasculature has associated connective tissues.
• the base material 44 ( Figure 3) , may be impregnated with a variety of substances for promoting the regeneration of different tissues such as bone and blood vessels.
• the base material 44 may be impregnated with a chemotactic substance for influencing cell-migration, an inhibitory substance for influencing cell-migration, a mitogenic growth factor for influencing cell proliferation and a growth factor for influencing cell differentiation (e.g. insulinelike growth factor, transforming growth factor- beta, fibroblast growth factor, platelet-derived growth factor) , and factors which promote neoangiogenesis (formation of new blood vessels) .
• the base material 44 is flexible both at the time of manufacture and after hydration.
• the base material 44 ( Figure 3) further provides an advantageous rigidity, which is higher than other currently used membrane materials
• the method of the present invention generally comprises a step of affixing the protective bone regeneration membrane 42 (Figure 3) onto a portion of the mammalian skeletal system in need of repair.
• the fixation of the protective bone regeneration membrane 42 may be accomplished by any conventional surgical technique, including the use of resorbable pins, screws, and sutures.
• the protective bone regeneration membrane 42 of the present invention can be implanted into the patient without being affixed to existing bone, such as, for example, in the case of orbital floor reconstruction 84 ( Figure 5) .
• Figures 5-8 illustrates several applications of the protective bone regeneration membrane in the cranio-facial region of a human skull.
• a protective bone regeneration membrane 80 is applied over the burrholes and the trephination defect of a human skull 82, after a neurosurgical procedure or trauma.
• protective bone regeneration membranes 84 are placed over orbital floor fractures to prevent entrapment of overlying muscles and nerves therein.
• Another protective bone regeneration membrane 86 is applied over a defect area in the maxillary sinus, and still another protective bone regeneration membrane 88 is applied over a bone defect area in the maxilla (upper jaw) .
• Another protective bone regeneration membrane 90 is applied over an edentulous bone defect area in the mandible (lower jaw) .
• a protective bone regeneration membrane 80 is illustrated in Figure 6, applied to the pelvis 82 of a human patient, after a bone autograft has been harvested therefrom.
• the protective bone regeneration membrane 80 protects the bone defect area 84 from soft tissue interposition, while allowing the ingrowth of blood vessels and cells. If necessary, the protective bone regeneration membrane 80 can be affixed onto the adjacent bone using pins, screws, sutures, or other conventional means.
• Figure 7 illustrates a protective bone regeneration membrane 93 applied around a segmental defect 94 in a human mandible 95, for example.
• the protective bone regeneration membrane 93 can be implanted using an extra-oral (outside of the mouth) surgical approach.
• the epithelial lining of the mouth is not broken and the protective membrane is placed beneath the epithelial lining of the mouth (since the bone defect is accessed from an extra-oral area such as below the chin) . Therefore the epithelial cells cannot enter the bone defect.
• the present invention is also intended to apply in intra-oral surgical approaches.
• the defect may be a discontinuity defect, comminuted, or just missing a part of the bone.
• the intact parts of the mandible 95 are fixated together by a plate 97 and screws 99, if necessary, and the protective bone regeneration membrane 93 protects the bone defect site from interposition of surrounding soft tissue.
• the protective bone regeneration membrane 93 holds any free-floating fragments of bone in place and provides additional circumferential stabilization to the bone defect.
• the protective bone regeneration membrane 42 is malleable to a certain extent, the protective bone regeneration membrane 42 is stiff enough to prevent collapse thereof under the weight of adjacent soft tissues.
• the protective bone regeneration membrane 42 can be easily cut with scissors and shaped by the hand of a user to adapt three- di ensionally to a bone defect area.
• Figure 8 illustrates another application of the protective bone regeneration membrane 105 of the present invention, as applied to a bone defect area of a long bone 101.
• the protective bone regeneration membrane 105 is secured to the long bone 101 using fixation devices 107 and 109, and comprises a belt-like tab 111.
• the belt-like tab 111 is adapted for being fed through a slot 113, which is formed between the fixation member 107 and the long bone 101.
• the protective bone regeneration membrane 105 is secured to the fixation member 107, and both the protective bone regeneration membrane 105 and the fixation member 107 are resorbable, in order to avoid a second surgery for removal of the devices.
• Surgical removal of non-resorbable, non-metallic membranes is necessary in the prior art, in order to avoid risk such as bacterial contamination and infection.
• a user can grip the belt-like tab 111 to securely fasten the protective bone regeneration membrane 105 around the long bone 101.
• This secure fastening of the protective membrane 105 around the long bone 101 can facilitate the holding of bone fragments in place within the bone defect area, in addition to adding stability to the bone fracture.
• the screws 109 are tightened into the long bone 101 after the protective bone regeneration membrane 105 is tightened around the long bone 101.
• the embodiment of Figure 8 is especially advantageous for setting comminuted fractures, having multiple bone fragments, to thereby reduce the risk of bone fragment resorption.
• the protective bone regeneration membrane 105 can be tightened around the long bone 101, until a desired tension is achieved for holding the native fracture fragments in place.
• the protective bone regeneration membrane 105 can also be used to prevent the dislocation of bone grafts or bone graft substitutes.
• the protective bone regeneration membrane 105 may be used without a fixation device 107. If it is necessary to stabilize major bone fragments, the protective bone regeneration membrane 105 may be used in conjunction with other rigid fixation devices, either internal or external .
• the protective bone regeneration membrane 105 may be used with or without a belt-like tab 111 to form a tube around a bone defect area of a long bone 101. If the tube overlaps both fracture ends of the long bone 101, the tube may provide sufficient structural support, resulting from the strength of the protective bone regeneration membrane 105 and the structural characteristics of the tube, to obviate the need for additional plates, screws, or external fixation devices. Structurally, a tube locates supporting elements in the area of highest stress when loaded in shear, compression, or in bending.
• the tube configuration is superior to intramedullary rods, which lay at the approximate neutral load axis, or eccentrically placed orthopedic plates, which support only one side of the fracture and which may introduce asymmetrical, non-axial loading on the fracture.
• a tube configuration will also have superior resistance to column (compression) loading. If the ends and seam of the protective bone regeneration membrane 105 are suitably fixated, the configuration will also be superior in shear strength.
• the sizes of the apertures in the resorbable membrane can range from 20 microns to about 3500 microns in a broad aspect of the present invention.
• apertures having diameters from about 20 microns to about 500 microns may tend to contract when the membrane is heated to its glass transition temperature just before being implanted.
• a preferred embodiment of the present invention has aperture diameters from about 500 microns to about 3000 microns.
• the apertures can be engineered so that after the membrane is heated to the glass transition temperature the pore diameter size ranges from about 20 microns to about 3000 microns.
• the diameter sizes of the apertures can range from about 520 microns to about 3500 microns in the pre-heated condition of the membrane.
• the example illustrates that the contraction percentages of the apertures upon heating can be accounted for to yield a final post-heating aperture size.
• the apertures can thus be formed in the membrane to achieve a desired post-heating size. Effects sought to be avoided by the aperture sizes of the present invention are to prevent gross prolapse of soft tissue through the pores into the bone defect area and to provide sufficient rigidity to prevent collapse of the membrane under pressure. Apertures that are too large may not completely prevent gross prolapse and/or may not provide sufficient rigidity.
• aperture sizes less than or equal to about 2500 microns and, more preferably, 2000 microns can provide greater protection against prolapse (and/or gross prolapse) than larger aperture sizes. These aperture sizes may enhance rigidity of the membrane, as well.
• the apertures range from 20 to 2000 microns to attenuate any possibility of prolapse of tissue into the bone defect area and/or to enhance rigidity of the membrane.
• aperture contraction is a problem, as described in the above paragraph, then apertures ranging from about 520 microns to about 2000 microns are preferred.
• the apertures can be configured to take contraction into account, so that the post-heating sizes of the apertures range from about 20 microns to about 2000 microns.
• the above embodiment seeks to attenuate any possibility of prolapse of tissue into the bone defect area
• another aspect of the invention seeks to maximize a proliferation of cells and vasculature through the apertures of the membrane into the bone defect area.
• greater proliferation of mesenchymal cells and vasculature through the apertures of the membrane into the bone defect area yields greater healing potential of the body.
• Apertures that are too small do not optimize the proliferation of cells and vasculature through the apertures of the membrane.
• the apertures range from about 1000 microns to about 3000 microns and, more preferably, from about 1500 microns to about 3000 microns.
• apertures having diameters of between about 3000 microns and about 3500 microns may be used, so long as soft tissue does not prolapse through the apertures into the bone defect area.
• aperture contraction may be present, as described above, apertures ranging from about 2000 microns to about 3500 microns are preferred (assuming aperture contraction or shrinkage of, for example, about 500 microns) .
• the apertures are configured to take contraction into account, so that the post-heating sizes of the apertures range from about 20 microns to about 3000 microns.
• An optimal range of aperture sizes exists for reducing chances of tissue prolapse and enhancing rigidity, and for optimizing a proliferation of cells and vasculature through the apertures of the membrane into the bone defect area.
• a preferred size of apertures is from about 1000 microns to about 2500 microns and, more preferably, from about 1500 to about 2000 microns. Apertures having these sizes encourage maximum healing, by reducing chances of tissue prolapse and enhancing rigidity, and also by optimizing the proliferation of cells and vasculature through the apertures of the membrane into the bone defect area.
• the resorbable membrane comprises a relatively smooth interior surface which is adapted to face the biological tissue defect area, and a relatively smooth exterior surface which is adapted to face away from the biological tissue defect area.
• the resorbable membrane comprises a plurality of pores which fluidly connect the relatively smooth interior surface to the relatively smooth exterior surface. Each of the pores penetrates through the entire thickness of the resorbable membrane to thereby allow for a profileration of vasculature and connective tissue cells (derived from adjacent soft tissues) therethrough, while preventing gross prolapse of the adjacent soft tissues into the biological tissue defect area (which the resorbable membrane surrounds and protects.
• the pores have a diameters from 20 to 3000 microns. Thicknesses of the membrane preferably range from 20 to 2000 microns. Pages 3a, 3b and 3c describe methods of constructing the resorbable membranes.
• Figures A, B, C, D and E disclose a number of embodiments of the resorbable membrane in accordance with different aspects of the present invention.
• the resorbable membrane of the present invention is preferably thermally-pliable.
• the membrane can be shaped around a biological tissue defect at temperatures in a range of 55-60 degrees Celsius (last transition temperature) .
• the included document entitled “ ⁇ DENT' TESTING OF PROTECTIVE MEMBRANE FOR BONE REGENERATION” quantifies specific properties of the resorbable membrane of the present invention, according to one presently preferred embodiment where the thickness is .5mm and the aperture (hole) size is 2mm.
• the document shows that the MacroPore resorbable membrane has a much higher resistance to deformation (spring constant) or "stiffness" (to use another term) than Prolastic or
• Embodiments of the resorbable membrane with hole sizes less than 2mm have at least the same stiffness if not more.
• Figure H through Figure R are various illustrations relating to the included document.
• the dimensions, pore sizes, thicknesses, bridge thickness & configurations (defined as the planar areas of the resorbable membrane which define the apertures) (one parameter, for example, which defines the bridge thickness & configurations is the distance between apertures) .
• the particular materials used to construct the particular embodiments of the resorbable membranes of the present invention have individual advantages associated therewith. Each of the above- embodiments, and the below embodiments, has unique advantages associated therewith, and the different embodiments are not considered to be interchangeable equivalents or obvious in view of one another.
• the general dimensions of the resorbable membranes may be constructed to deviate from the five independent embodiments disclosed in Figures A, B, C, D and E, which are constructed to have orthopedic applications among other applications.
• one or more of the implants may be seeded onto the surface of the substantially planar sheet of non-metallic base material, as an alternative to, or in addition to the impregnation of or more of the implants into the substantially planar sheet of non-metallic base material.
• Figure F illustrates a membrane having 4 millimeter by 5 millimeter rectangular apertures.
• the figure which is a cross sectional view taken along the 4 millimeter dimension of an aperture, illustrates soft tissue prolapsing through the aperture.
• the membrane having 4 millimeter by 5 millimeter rectangular apertures of Figure F indicates substantial gross prolapse of adjacent soft tissue into the bone defect area, which led to incomplete healing.
• the prolapse of the tissue into the bone defect area prevents healing of bone, since the bone generally cannot heal in the volume occupied by the prolapsing tissue .
• transmembraneous injections of, for example, mesenchymal stem cells and/or bone marrow aspirates into the bone defect can be performed in accordance with particular cases and desired results.
• the transmembraneous injections can comprise bone marrow aspirate, platelet rich plasma, growth factors, peptides, &/or proteins, &/or any other synthetic or natural inductive, osteoinductive, or osteogenic material.
• Figure G illustrates a transmembraneous injection in accordance with the present invention.
• the material 44 is preferably thermally pliable. Since the material is preferably more pliable when heated, a membrane of the material may be heated, formed onto and/or around a bone. As the membrane cools to body temperature, the membrane becomes less pliable.
• the membrane (sheet) thickness is between 100 to 500 microns, & preferably 150 microns; any thinner than 100 microns is generally too weak; pore size is between 50u to 1mm, & preferably between 50microns & 300microns.
• pore size is between 50u to 1mm, & preferably between 50microns & 300microns.
• pore size is between 500microns-2mm (and preferably 1.5mm); thickness is preferably 500u. The differences in porosity depends on the graft material, when grafts are used, (so if finer want smaller pores) ; pore size is function of type & condition of local soft tissues.
• Pore size may be a function of concept of limited contact & graft containment with pore size (many bone graft substitutes sizes exist.) So when have smaller pore size may want to increase the effective pore area of membrane (ex., just add more pores).
• Thickest 1mm to 2mm thick, pores are 500u to 2mm; preferred 1.5mm pore & 1mm thick. can be made to add structural support.
• bridge dimensions wherein bridge is the part of the membrane between pores
• the present inventors generally desire to maximize the porosity, but also want to keep the strength.
• Bridge dimensions are optimized between porosity & rigidity. The above- mentioned principles can be used to apply all mamillians across the phylogenetic tree. "DENT TESTING OF flfMRANP foH &>N
• Pillar Surgical, Inc. "Prolastic Sheeting, Reinforced 0.021 " thick.
• the three materials were received as flat rectangular sheets.
• the Protego OSS and the Prolastic sheet was already cut to 60mm x 80mm.
• the .004" thick "MTAM” sheets were cut by us into 60 x 80mm size from larger sheet.
• the Protego OSS material was heated in water and formed into a cylinder using a .750" diameter mandrel.
• the formed cylinder was 60mm long, with an inside diameter of .750".
• the other two materials were flexible enough to form a cylinder by wrapping around the .750" diameter.
• the test fixture consisted of two .750" diameter steel rods spaced 1 .75 “ apart.
• the 60mm (2.362”) long test cylinders were placed across this 1 .75" wide gap .
• the test cylinders extended approximately 8mm onto the steel rods at each end.
• the test cylinders were then fixed to each side o f the fixture by 3/4" diameter “O " - rings .
• the indenter consisted of a 1 /4" diameter steel pin 1 " long, which contacted the test cylinder perpendicular to it' s long axis.
• Test Results Three samples of each material were tested. The tests were done in air at 72 ° F. Test Results
• the data in the table below is taken from the load/indentation curves, and the slope, or spring constant of each test sample is calculated.
• the "MTAM " material had an erratic deflection curve because the material has diamond shaped perforations, and when the indenter pushed into the material, the stiffness depended on whether it was pushing between the perforations, or bridging the perforations. The average slope of the curve was used for calculating the stiffness.

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