초록 ▼

A mixing system is disclosed in which the system comprises a source of bone-graft or bone-graft-substitute material, a liquid source, and a vacuum source, at least one of the source of bone-graft or bone-graft-substitute material and the liquid source being in communication with the vacuum source. A

A mixing system is disclosed in which the system comprises a source of bone-graft or bone-graft-substitute material, a liquid source, and a vacuum source, at least one of the source of bone-graft or bone-graft-substitute material and the liquid source being in communication with the vacuum source. A valve assembly also forms part of the system, the valve assembly having a valve movable between a first position in which a first fluid passageway is created between the source of bone-graft or bone-graft-substitute material and the vacuum, and a second position in which a second fluid passageway is created between the source of bone-graft or bone-graft-substitute material and the liquid source, wherein, in the second position, the valve seals off the first fluid passageway, the vacuum source being adapted to generate a negative-pressure environment, relative to atmospheric pressure, within the valve assembly while the valve is in the first position. Methods of utilizing the aforementioned system are also disclosed.

대표청구항 ▼

1. A method of mixing bone-graft or bone-graft-substitute material with one or more other components, the method comprising: providing a source of bone-graft or bone-graft-substitute material, and a source of liquid, at least one of the source of bone-graft or bone-graft-substitute material and the

1. A method of mixing bone-graft or bone-graft-substitute material with one or more other components, the method comprising: providing a source of bone-graft or bone-graft-substitute material, and a source of liquid, at least one of the source of bone-graft or bone-graft-substitute material and the liquid source being in communication with a vacuum source;engaging a syringe with a valve assembly containing a valve to automatically move the valve to a position in which a first fluid passageway between the vacuum source and the source of bone-graft or bone-graft-substitute material is open, wherein the valve automatically moves to a position in which the first fluid passageway is closed once the syringe is retracted proximally along the valve assembly;using the vacuum source to create a vacuum between the source of bone-graft or bone-graft-substitute material and the vacuum source, the vacuum generating negative pressure, relative to atmospheric pressure, within the first fluid passageway;sealing the first fluid passageway to maintain the vacuum within the source of bone-graft or bone-graft-substitute material; andmoving the valve so that a second fluid passageway between the source of bone-graft or bone-graft-substitute material and the liquid source is opened, wherein liquid from the liquid source is drawn into the second fluid passageway and to the source of bone-graft or bone-graft-substitute material via the negative pressure generated during the using step. 2. The method of claim 1, wherein the valve assembly has internal channels that facilitate creation of the first and second fluid passageways, wherein at least some of the internal channels house the valve. 3. The method of claim 2, further comprising the step of depressing the valve within at least one of the internal channels of the valve assembly, such that the first fluid passageway is opened via the valve. 4. The method of claim 3, wherein the valve is depressed against a compressible member that deforms to allow opening of the first fluid passageway. 5. The method of claim 4, wherein the compressible member is resilient, and the method further comprises forcing the compressible member against the valve, such that the valve moves to a position in which the second fluid passageway is opened and the first fluid passageway is scaled. 6. The method of claim 2, wherein the valve comprises an opening through the valve, and the method further comprises aligning the opening with at least one of the internal channels of the valve assembly to open the second fluid passageway. 7. The method of claim 6, wherein opening the first fluid passageway comprises moving the opening in the valve to a position in which it is not aligned with the at least one of the internal channels of the valve assembly. 8. The method of claim 1, further comprising mixing the source of bone-graft or bone-graft-substitute material with the liquid source in a valve assembly containing the valve. 9. The method of claim 1, wherein the source of bone-graft or bone-graft-substitute material, the liquid source, and the vacuum source are syringes connected to the valve assembly. 10. The method of claim 9, wherein the vacuum is created by retracting a plunger of at least one of the syringes to generate negative pressure within the valve assembly. 11. The method of claim 10, wherein the syringes each contain Luer structure adapted to mate with corresponding Luer structure on the valve assembly. 12. The method of claim 1, wherein the bone-graft or bone-graft-substitute material comprises natural bone particles, particles of β-TCP, or hydroxyapatite combined with β-TCP, each of such materials optionally including bioactive glass, and the liquid source comprises water, saline, blood, bone marrow aspirate, or a combination thereof. 13. The method of claim 12, wherein the bone-graft or bone-graft-substitute material is mixed with gelatin, collagen, micro-fibrillar collagen, or a combination thereof. 14. A method of mixing bone-graft or bone-graft-substitute material with one or more other components, the method comprising: providing a source of bone-graft or bone-graft-substitute material, and a source of liquid, at least one of the source of bone-graft or bone-graft-substitute material and the liquid source being in communication with a vacuum source;providing a valve assembly having internal channels that facilitate creation of a first fluid passageway and a second fluid passageway, the first fluid passageway being between the vacuum source and the source of bone-graft or bone-graft substitute material, and the second fluid passageway being between the source of bone-graft or bone-graft substitute material and the liquid source, wherein at least some of the internal channels house a valve,depressing the valve within at least one of the internal channels of the valve assembly, such that the first fluid passageway is opened via the valve;using the vacuum source to create a vacuum between the source of bone-graft or bone-graft-substitute material and the vacuum source, the vacuum generating negative pressure, relative to atmospheric pressure, within the first fluid passageway;sealing the first fluid passageway to maintain the vacuum within the source of bone-graft or bone-graft-substitute material; andmoving the valve so that a second fluid passageway is opened, wherein liquid from the liquid source is drawn into the second fluid passageway and to the source of bone-graft or bone-graft-substitute material via the negative pressure generated during the using step. 15. The method of claim 14, wherein the valve is depressed against a compressible member that deforms to allow opening of the first fluid passageway. 16. The method of claim 15, wherein the compressible member is resilient, and the method further comprises forcing the compressible member against the valve, such that the valve moves to a position in which the second fluid passageway is opened and the first fluid passageway is sealed. 17. The method of claim 14, wherein the valve comprises an opening through the valve, and the method further comprises aligning the opening with at least one of the internal channels of the valve assembly to open the second fluid passageway. 18. The method of claim 17, wherein opening the first fluid passageway comprises moving the opening in the valve to a position in which it is not aligned with the at least one of the internal channels of the valve assembly. 19. The method of claim 14, further comprising mixing the source of bone-graft or bone-graft-substitute material with the liquid source in the valve assembly. 20. The method of claim 14, wherein the source of bone-graft or bone-graft-substitute material, the liquid source, and the vacuum source are syringes connected to the valve assembly. 21. The method of claim 20, wherein the vacuum is created by retracting a plunger of at least one of the syringes to generate negative pressure within the valve assembly. 22. The method of claim 21, wherein the syringes each contain Luer structure adapted to mate with corresponding Luer structure on the valve assembly. 23. The method of claim 14, further comprising the step of engaging a syringe with the valve assembly to automatically move the valve to a position in which the first fluid passageway is open, wherein the valve automatically moves to a position in which the first fluid passageway is closed once the syringe is retracted proximally along the valve assembly. 24. The method of claim 14, wherein the bone-graft or bone-graft-substitute material comprises natural bone particles, particles of β-TCP, or hydroxyapatite combined with β-TCP, each of such materials optionally including bioactive glass, and the liquid source comprises water, saline, blood, bone marrow aspirate, or a combination thereof. 25. The method of claim 24, wherein the bone-graft or bone-graft-substitute material is mixed with gelatin, collagen, micro-fibrillar collagen, or a combination thereof.