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 system for mixing a bone-graft or bone-graft-substitute material with one or more other components, the system comprising: a source of bone-graft or bone-graft-substitute material, a liquid source, and a vacuum source; anda valve assembly configured so that the source of bone-graft or bone-graf
1. A system for mixing a bone-graft or bone-graft-substitute material with one or more other components, the system comprising: a source of bone-graft or bone-graft-substitute material, a liquid source, and a vacuum source; anda valve assembly configured so that the source of bone-graft or bone-graft-substitute material, the liquid source and the vacuum source are in communication with the valve assembly, 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 the valve assembly includes a plurality of internal channels, at least one of which houses the valve,wherein the valve includes a first surface that defines a boundary of the first fluid passageway when the valve is in the first position, a second surface having an entirely inward facing surface area that defines a boundary of the second fluid passageway when the valve is in the second position, the second surface outside of the first fluid passageway when the valve is in the first position, and a third surface having an outward facing surface area that separates the first and second surfaces, the third surface configured to contact a wall of the valve assembly defining a boundary of at least one of the plurality of inner channels,wherein, in the second position, the valve seals off the first fluid passageway, andwherein the vacuum source is adapted to generate a negative-pressure environment, relative to atmospheric pressure, within the valve assembly while the valve is in the first position. 2. The system of claim 1, wherein the first surface is curved in a manner such that a first end is approximately parallel to a longitudinal axis of a syringe providing a vacuum source and a second end is transverse to the first end. 3. The system of claim 1, wherein the valve assembly further comprises first, second and third branches, each branch including one of the plurality of internal channels and configured to connect the valve assembly to one of the source of bone-graft or bone-graft-substitute material, a liquid source, and a vacuum source, the first and second branches being parallel to one another and configured for engagement to the source of bone-graft or bone-graft substitute material and liquid source, respectively. 4. The system of claim 3, wherein the valve assembly further comprises a fourth branch, the fourth branch being parallel to the third branch and having a closed end, the third branch including a portion of the valve disposed therein. 5. The system of claim 4, wherein the valve includes a portion disposed in the fourth branch that moves when the valve moves from the first position to the second position. 6. The system 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. 7. The system 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. 8. The system of claim 1, wherein the vacuum source is a syringe and the valve moves automatically upon attachment of the syringe to the valve assembly. 9. A system for mixing a bone-graft or bone-graft-substitute material with one or more other components, the system comprising: a source of bone-graft or bone-graft-substitute material, a liquid source, and a vacuum source; anda valve assembly configured so that the source of bone-graft or bone-graft-substitute material, the liquid source and the vacuum source are in communication with the valve assembly, 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 the valve assembly includes a plurality of internal channels, at least one of which houses the valve,wherein the vacuum source is adapted to generate a negative-pressure environment, relative to atmospheric pressure, within the valve assembly while the valve is in the first position,wherein the valve includes an opening therethrough from a first side of the valve to a second side of the valve opposite the first side, the opening defined by a rounded interior wall of a singular cross-sectional size from the first side to the second side such that fluid communication between the first side and the second side occurs when the valve is in the second position and such fluid communication is contained within the rounded interior wall,wherein, in the first position, the rounded interior wall is outside of the first fluid passageway, andwherein, in the second position, the valve seals off the first fluid passageway.
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