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Last Updated: April 26, 2024

Claims for Patent: 8,475,503

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Summary for Patent: 8,475,503

Title:	Methods for forming implants with selectively exposed mesh for fixation and related implants
Abstract:	Methods for forming molded orthopedic implants with at least one mesh substrate having opposing upper and lower primary surfaces. At least a major portion of the mesh substrate lower primary surface is integrally moldably attached to the molded implant body. The methods are carried out so that the mesh substrate has at least one selectively exposed region devoid of molded material that exposes at least a portion of the mesh substrate upper surface to at least a partial thickness of the mesh substrate so as to allow for tissue in-growth in the at least one exposed region of the mesh substrate.
Inventor(s):	Denoziere; Guilhem (Atlanta, GA), Tomko; Daniel (Lawrenceville, GA), Ghodadra; Anish (Lilburn, GA)
Assignee:	MiMedx Group, Inc. (Kennesaw, GA)
Application Number:	12/977,336
Patent Claims:	1. A method of fabricating an implantable prosthesis, comprising: placing an inferior mesh layer on a floor of a three-dimensional mold; introducing moldable material into the mold; placing a superior mesh layer on a top surface of the moldable material in the mold; heating the mold with the moldable material to a desired temperature so that the mold is heated for a desired time; then forming a molded implant body formed by the heated moldable material whereby the mesh layers are integrally moldably attached to inferior and superior surfaces of the molded body formed by the moldable material; and selectively exposing at least one of the inferior and superior mesh layers so that at least one region is substantially devoid of the moldable material whereby the exposed region promotes tissue in-growth therein while at least a major portion of the mesh layers are integrally moldably attached to the molded body. 2. A method according to claim 1, wherein the selectively exposing step comprises placing a temporary mesh layer over at least a portion of at least one of an upper primary surface of the superior mesh layer or a lower primary surface of the inferior mesh layer, then after the forming step, removing the temporary mesh layer to selectively expose the mesh of the superior and/or inferior mesh layers. 3. A method according to claim 1, wherein the selectively exposing step comprises placing a resorbable material on selective regions of the inferior and superior mesh layers before the forming step. 4. A method according to claim 1, wherein the selectively exposing step comprises placing a temporary silicone layer over at least a portion of at least one of an upper primary surface of the superior layer or a lower primary surface of the inferior mesh layer to inhibit moldable material from entering at least a top portion of the superior mesh layer or a bottom portion of the inferior mesh layer, respectively, during the forming step, then after the forming step, removing the temporary silicone layer to selectively expose the mesh of the superior and/or inferior mesh layers. 5. A method according to claim 1, wherein the selectively exposing step comprises placing intermediate mesh segment layers having smaller areas than the inferior and superior mesh layers, between at least one of the superior layer or the inferior mesh layer and the moldable material to locally inhibit moldable material from entering selected regions of the superior mesh layer and the inferior mesh layer, respectively. 6. A method according to claim 1, wherein the superior and inferior mesh layers are planar and are attached only to respective upper and lower surfaces of the molded implant body, and wherein the selectively exposing step comprises inhibiting the moldable material from extending through localized regions of an upper portion of the superior mesh layer and a lower portion of the inferior mesh layer during the forming step. 7. A method according to claim 1, wherein the superior and inferior mesh layers are planar and are attached only to respective upper and lower surfaces of the molded implant body, and wherein the selectively exposing step comprises allowing the moldable material to enter the mesh superior and inferior layers while inhibiting the moldable material from extending through at least a major portion of an area of an upper portion of the superior mesh layer and a lower portion of the inferior mesh layer during the forming step. 8. A method according to claim 1, wherein the selectively exposing step comprises placing a temporary mesh layer comprising calcium salt over at least a portion of at least one of an upper primary surface of the superior mesh layer or a lower primary surface of the inferior mesh layer, then after the forming step, removing the temporary mesh layer to selectively expose the mesh of the superior and/or inferior mesh layers. 9. A method according to claim 1, wherein the selectively exposing step comprises directing pressurized liquid to remove material throughout a target localized region in at least one of the superior and inferior mesh layers. 10. A method according to claim 1, wherein the selectively exposing step comprises further comprising at least one of optically, chemically or mechanically removing molded material from at least one upper region of the superior mesh layer and at least one lower region of the inferior mesh layer after the forming step. 11. A method according to claim 1, wherein the selectively exposing step comprises shielding the molded implant body with the attached inferior and superior mesh layers while exposing at least one target exposure area, then immersing the shielded implant body with the at least one target exposure area in a solvent bath. 12. A method according to claim 1, wherein the forming step forms a total disc replacement spinal disc. 13. A method according to claim 1, wherein the superior and inferior mesh layers comprise a polyester mesh material having a thickness that is between about 5 mm to about 0.5 mm. 14. A method according to claim 1, wherein the mesh layers are planar and moldably attached to respective superior and inferior surfaces of the molded body. 15. A method according to claim 14, wherein the molded body comprises solid PVA hydrogel. 16. A method of fabricating an implantable prosthesis, comprising: placing an inferior mesh layer on a floor of a three-dimensional mold; introducing moldable material into the mold; placing a superior mesh layer on a top surface of the moldable material in the mold; heating the mold with the moldable material to a desired temperature so that the mold is heated for a desired time; then forming a molded implant body formed by the heated moldable material whereby the mesh layers are integrally moldably attached to the molded body formed by the moldable material; and selectively exposing at least one of the inferior and superior mesh layers so that at least one region is substantially devoid of the moldable material whereby the exposed region promotes tissue in-growth therein while at least a major portion of the mesh layers are integrally moldably attached to the molded body, wherein the selectively exposing step comprises placing an intermediate substantially impermeable layer between at least one of the superior layer or the inferior mesh layer and the moldable material to locally inhibit moldable material from entering selected regions of the superior mesh layer or the inferior mesh layer, respectively, during the forming step. 17. A method of fabricating an implantable prosthesis, comprising: placing an inferior mesh layer on a floor of a three-dimensional mold; introducing moldable material into the mold; placing a superior mesh layer on a top surface of the moldable material in the mold; heating the mold with the moldable material to a desired temperature so that the mold is heated for a desired time; then forming a molded implant body formed by the heated moldable material whereby the mesh layers are integrally moldably attached to the molded body formed by the moldable material; and selectively exposing at least one of the inferior and superior mesh layers so that at least one region is substantially devoid of the moldable material whereby the exposed region promotes tissue in-growth therein while at least a major portion of the mesh layers are integrally moldably attached to the molded body, wherein the selectively exposing step comprises flowing PVA hydrogel moldable material into the inferior and superior mesh layers during the forming step whereby a density gradient of the hydrogel moldable material extends in the mesh substrate whereby a lesser density of moldable material resides on an outermost bounds of the implant body. 18. A method of fabricating an implantable prosthesis, comprising: placing an inferior mesh layer on a floor of a three-dimensional mold; introducing moldable material into the mold; placing a superior mesh layer on a top surface of the moldable material in the mold; heating the mold with the moldable material to a desired temperature so that the mold is heated for a desired time; then forming a molded implant body formed by the heated moldable material whereby the mesh layers are integrally moldably attached to the molded body formed by the moldable material; and selectively exposing at least one of the inferior and superior mesh layers so that at least one region is substantially devoid of the moldable material whereby the exposed region promotes tissue in-growth therein while at least a major portion of the mesh layers are integrally moldably attached to the molded body, wherein the selectively exposing step comprises directing pressurized liquid to remove material throughout a target localized region in at least one of the superior and inferior mesh layers, and wherein the pressurized liquid is a jet stream of heated and pulsed sterile water or saline directed to expose a desired local area and/or volume of the superior and/or inferior mesh layers. 19. A method of fabricating an implantable prosthesis, comprising: placing an inferior mesh layer on a floor of a three-dimensional mold; introducing moldable material into the mold, wherein the moldable material includes PVA crystals and a liquid irrigation solution that defines a PVA hydrogel; placing a superior mesh layer on a top surface of the moldable material in the mold; heating the mold with the moldable material to a desired temperature so that the mold is heated for a desired time, wherein the heating is carried out to heat the mold with the moldable material to between about 80-200.degree. C. for at least about 5 minutes to less than about 8 hours; then forming a molded implant body formed by the heated moldable material whereby the mesh layers are integrally moldably attached to the molded body formed by the moldable material; closing the mold before the forming step; selectively exposing at least one of the inferior and superior mesh layers so that at least one region is substantially devoid of the moldable material whereby the exposed region promotes tissue in-growth therein while at least a major portion of the mesh layers are integrally moldably attached to the molded body; and freezing and thawing the PVA hydrogel molded body a plurality of times after the heating to provide a crystalline implant body with a desired compressive modulus of elasticity.

Details for Patent 8,475,503

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Applicant	Tradename	Biologic Ingredient	Dosage Form	BLA	Approval Date	Patent No.	Expiredate
Merck Sharp & Dohme Corp.	ZOSTAVAX	zoster vaccine live	For Injection	125123	05/25/2006	⤷ Try a Trial	2027-01-19
>Applicant	>Tradename	>Biologic Ingredient	>Dosage Form	>BLA	>Approval Date	>Patent No.	>Expiredate

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