Fluid separation chambers for fluid processing systems

The invention claimed is: 1. A fluid separation chamber for rotation about an axis in a fluid processing system to generate a centrifugal field, comprising: a first stage having a channel with an inner radius and an outer radius about the axis, and a platelet-rich plasma outlet; a second stage including a platelet-rich plasma inlet located downstream of the first stage, and a channel with an inner radius and an outer radius about the axis; and a plurality of flow paths in fluid communication with the first and second stages, wherein the inner and outer radii of the channel of the first stage are generally uniform about the axis, the inner and outer radii of the channel of the second stage are non-uniform about the axis, the inner radius of the channel of the second stage about the axis at all locations is no larger than the inner radius of the channel of the first stage, and the outer radius of the channel of the second stage about the axis at all locations is no larger than the outer radius of the channel of the first stage. 2. The fluid separation chamber of claim 1 , wherein at least a portion of the channel of the second stage is configured as a spiral. 3. The fluid separation chamber of claim 1 , wherein at least a portion of the channel of the second stage is configured as a logarithmic spiral. 4. The fluid separation chamber of claim 1 , wherein at least a portion of the channel of the second stage has a different cross-sectional area than another portion of the channel of the second stage. 5. A fluid separation chamber for rotation about an axis in a fluid processing system to generate a centrifugal field, comprising: a first stage; a second stage located downstream of the first stage; a top edge; a bottom edge; an interior wall separating the fluid separation chamber into the first stage and the second stage; and a plurality of flow paths in fluid communication with the first and second stages, wherein the first stage is spaced from the bottom edge by the second stage, the first stage has a generally uniform radius about the axis, the second stage has a non-uniform radius about the axis, and the radius of the second stage about the axis at all locations is no larger than the radius of the first stage about the axis. 6. The fluid separation chamber of claim 1 , configured to introduce fluid into the channel of the second stage at a location of the channel of the second stage at which the inner and outer radii of the channel of the second stage are between minimum and maximum values. 7. The fluid separation chamber of claim 1 , configured to introduce fluid into the channel of the second stage at a location at which the inner and outer radii of the channel of the second stage are at a maximum. 8. A fluid separation chamber for rotation about an axis in a fluid processing system to generate a centrifugal field, comprising: a first stage; a second stage located downstream of the first stage; and a plurality of flow paths in fluid communication with the first and second stages, wherein the first stage has a generally uniform radius about the axis, the second stage has a non-uniform radius about the axis, the radius of the second stage about the axis at all locations is no larger than the radius of the first stage about the axis, and the fluid separation chamber is configured to introduce fluid into a channel of the second stage at a minimum radial location of the channel. 9. The fluid separation chamber of claim 1 , configured to introduce fluid into the channel of the second stage at a single location. 10. The fluid separation chamber of claim 1 , wherein the second stage includes an outlet port fluidly connected to the channel of the second stage at two locations. 11. A fluid separation chamber for rotation about an axis in a fluid processing system to generate a centrifugal field, comprising: a first stage extending substantially 360° around the axis; a second stage located downstream of the first stage; and a plurality of flow paths in fluid communication with the first and second stages, wherein the first stage has a generally uniform radius about the axis, the second stage has a non-uniform radius about the axis, and the radius of the second stage about the axis at all locations is no larger than the radius of the first stage about the axis. 12. A fluid separation chamber for rotation about an axis in a fluid processing system to generate a centrifugal field, comprising: a first stage; a second stage located downstream of the first stage and extending substantially 360° around the axis; and a plurality of flow paths in fluid communication with the first and second stages, wherein the first stage has a generally uniform radius about the axis, the second stage has a non-uniform radius about the axis, and the radius of the second stage about the axis at all locations is no larger than the radius of the first stage about the axis. 13. The fluid separation chamber of claim 12 , wherein the first stage extends substantially 360° around the axis. 14. The fluid separation chamber of claim 1 , wherein the fluid separation chamber is formed of a generally rigid material. 15. The fluid separation chamber of claim 1 , wherein the first and second stages are positioned at different axial locations along the axis. 16. The fluid separation chamber of claim 1 , wherein one of said plurality of flow paths comprises the platelet-rich plasma inlet configured to introduce platelet-rich plasma into the channel of the second stage, another one of said plurality of flow paths comprises a first outlet configured to remove a first separated fluid component from the channel of the second stage, another one of said plurality of flow paths comprises a second outlet configured to remove a second separated fluid component from the channel of the second stage, and the platelet-rich plasma inlet is positioned at an angular location that is between the angular locations of the first and second outlets. 17. The fluid separation chamber of claim 16 , wherein the channel of the second stage has a non-uniform cross-sectional area between the platelet-rich plasma inlet and one of the outlets. 18. The fluid separation chamber of claim 17 , wherein the cross-sectional area of the channel of the second stage increases from the platelet-rich plasma inlet to said one of the outlets. 19. The fluid separation chamber of 17 , wherein the channel of the second stage has a uniform cross-sectional area between the platelet-rich plasma inlet and the other one of the outlets. 20. The fluid separation chamber of claim 1 , wherein one of said plurality of flow paths comprises the platelet-rich plasma inlet configured to introduce platelet-rich plasma into the channel of the second stage, another one of said plurality of flow paths comprises a first outlet configured to remove a first separated fluid component from the channel of the second stage, another one of said plurality of flow paths comprises a second outlet configured to remove a second separated fluid component from the channel of the second stage, and one of the outlets is positioned at an angular location that is between the angular locations of the platelet-rich plasma inlet and the other outlet.