A mechanical separator for separating a fluid sample into first and second phases within a collection container is disclosed. The mechanical separator may have a separator body having a through-hole defined therein, with the through-hole adapted for allowing fluid to pass therethrough. The separator
A mechanical separator for separating a fluid sample into first and second phases within a collection container is disclosed. The mechanical separator may have a separator body having a through-hole defined therein, with the through-hole adapted for allowing fluid to pass therethrough. The separator body includes a float, having a first density, and a ballast, having a second density greater than the first density. A portion of the float is connected to a portion of the ballast. Optionally, the float may include a first extended tab adjacent a first opening of the through-hole and a second extended tab adjacent the second opening of the through-hole. In certain configurations, the separator body also includes an extended tab band disposed about an outer surface of the float. The separator body may also include an engagement band circumferentially disposed about at least a portion of the separator body.
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1. A device for separating a fluid sample within a collection container, comprising: a separator having a generally spheroid shape, the separator comprising: a float, having a first density; anda ballast, having a second density different than the first density, wherein a portion of the float is con
1. A device for separating a fluid sample within a collection container, comprising: a separator having a generally spheroid shape, the separator comprising: a float, having a first density; anda ballast, having a second density different than the first density, wherein a portion of the float is connected to a portion of the ballast at an interface, wherein an outer surface of the float at the interface is offset from an outer surface of the ballast at the interface,wherein the separator defines a through-hole therethrough adapted for fluid to pass therethrough. 2. The device of claim 1, wherein the separator defines at least one slit adjacent the interface. 3. The device of claim 2, wherein the at least one slit is defined between a portion of the float and a portion of the ballast. 4. The device of claim 1, wherein the float comprises an exterior surface and a joining surface, and the ballast comprises a contact surface connected to the joining surface of the float at the interface and an exterior surface, wherein the exterior surface of the float and the exterior surface of the ballast together form the spheroid shape. 5. The device of claim 1, wherein the through-hole is defined in part by the float and in part by the ballast. 6. The device of claim 1 wherein the through-hole has a circular cross-section. 7. The device of claim 1, wherein the through-hole has an elliptical cross-section. 8. The device of claim 1, wherein the through-hole is defined along a through-axis and the float is adapted for deformation in a direction perpendicular to the through-axis upon applied rotational force to the separator. 9. The device of claim 1, further comprising an initial engagement band circumferentially disposed about at least a portion of the separator. 10. The device of claim 9, wherein the initial engagement band is at least one of continuous and at least partially segmented. 11. The device of claim 9, wherein the initial engagement band and the float are formed of the same material. 12. The device of claim 9, wherein the initial engagement band bisects at least a portion of the ballast. 13. The device of claim 1, wherein the ballast comprises a base portion and a joining structure for engaging a portion of the float. 14. The device of claim 1, wherein the float comprises a joining structure for engaging a portion of the ballast. 15. The device of claim 14, wherein the joining structure provides flexure between the float and the ballast. 16. A device for separating a fluid sample within a collection container, comprising: a separator having a generally spheroid shape, the separator comprising: a float, having a first density; anda ballast, having a second density different than the first density, at least a portion of the float is connected to at least a portion of the ballast at an interface, wherein an outer perimeter of at least one of the float and the ballast is offset with respect to an outer perimeter of the other of the float and the ballast at the interface between the float and the ballast,wherein the separator defines a through-hole therethrough adapted for fluid to pass therethrough. 17. The device of claim 16, wherein the separator defines at least one slit adjacent the interface. 18. The device of claim 17, wherein the at least one slit is defined between a portion of the float and a portion of the ballast. 19. The device of claim 16, wherein the float comprises an exterior surface and a joining surface, and the ballast comprises a contact surface connected to the joining surface of the float at the interface and an exterior surface, wherein the exterior surface of the float and the exterior surface of the ballast together form the spheroid shape. 20. The device of claim 16, wherein the through-hole is defined in part by the float and in part by the ballast. 21. The device of claim 16, wherein the through-hole has a circular cross-section. 22. The device of claim 16, wherein the through-hole has an elliptical cross-section. 23. The device of claim 16, wherein the through-hole is defined along a through-axis and the float is adapted for deformation in a direction perpendicular to the through-axis upon applied rotational force to the separator. 24. The device of claim 16, further comprising an initial engagement band circumferentially disposed about at least a portion of the separator. 25. The device of claim 24, wherein the initial engagement band is at least one of continuous and at least partially segmented. 26. The device of claim 24, wherein the initial engagement band and the float are formed of the same material. 27. The device of claim 24, wherein the initial engagement band bisects at least a portion of the ballast. 28. A separation assembly for enabling separation of a fluid sample into first and second phases, comprising: a collection container having a first end, a second end, and a sidewall extending therebetween, the collection container defining a longitudinal axis between the first end and the second end;a closure adapted for sealing engagement with the first end of the collection container; anda separator having a generally spheroid shape, the separator comprising: a float, having a first density; anda ballast, having a second density different than the first density, wherein a portion of the float is connected to a portion of the ballast at an interface, wherein an outer surface of the float at the interface is offset with respect to an outer surface of the ballast at the interface,wherein the separator defines a through-hole therethrough adapted for fluid to pass therethrough. 29. The separation assembly of claim 28, wherein the separator defines at least one slit adjacent the interface. 30. The separation assembly of claim 29, wherein the at least one slit is defined between a portion of the float and a portion of the ballast. 31. The separation assembly of claim 28, wherein the float comprises an exterior surface and a joining surface, and the ballast comprises a contact surface connected to the joining surface of the float at the interface and an exterior surface, wherein the exterior surface of the float and the exterior surface of the ballast together form the spheroid shape. 32. The separation assembly of claim 28, wherein the through-hole is defined in part by the float and in part by the ballast. 33. The separation assembly of claim 28, wherein the through-hole has a circular cross-section. 34. The separation assembly of claim 28, wherein the through-hole has an elliptical cross-section. 35. The separation assembly of claim 28, wherein the through-hole is defined along a through-axis and the float is adapted for deformation in a direction perpendicular to the through-axis upon applied rotational force to any of the separation assembly, collection container, and separator. 36. A separation assembly for enabling separation of a fluid sample into first and second phases, comprising: a collection container having a first end, a second end, and a sidewall extending therebetween, the collection container defining a longitudinal axis between the first end and the second end;a closure adapted for sealing engagement with the first end of the collection container; anda separator having a generally spheroid shape, the separator comprising: a float, having a first density; anda ballast, having a second density different than the first density, at least a portion of the float is connected to at least a portion of the ballast at an interface, wherein an outer perimeter of at least one of the float and the ballast is offset with respect to an outer perimeter of the other of the float and the ballast at the interface between the float and the ballast,wherein the separator defines a through-hole therethrough adapted for fluid to pass therethrough. 37. The separation assembly of claim 36, wherein the separator defines at least one slit adjacent the interface. 38. The separation assembly of claim 37, wherein the at least one slit is defined between a portion of the float and a portion of the ballast. 39. The separation assembly of claim 36, wherein the float comprises an exterior surface and a joining surface, and the ballast comprises a contact surface connected to the joining surface of the float at the interface and an exterior surface, wherein the exterior surface of the float and the exterior surface of the ballast together form the spheroid shape. 40. The separation assembly of claim 36, wherein the through-hole is defined in part by the float and in part by the ballast. 41. The separation assembly of claim 36, wherein the through-hole has a circular cross-section. 42. The separation assembly of claim 36, wherein the through-hole has an elliptical cross-section. 43. The separation assembly of claim 36, wherein the through-hole is defined along a through-axis and the float is adapted for deformation in a direction perpendicular to the through-axis upon applied rotational force to any of the separation assembly, collection container, and separator.
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