Rotatable disk-shaped fluid sample collection device

What is claimed is: 1. A sample collection device for a fluid sample, the device comprising: a substantially disk-shaped body having a periphery, the body being made from a two part construction comprising a top piece and a bottom piece, the top piece being a hydrophilic tape; a capillary channel extending through the body, bounded by the periphery, and including a portion that is at least semi-circular, the capillary channel having a first end and a second end, the first end being formed at the periphery of the disk-shaped body, wherein the first end is adapted to draw the fluid sample into the capillary channel by capillary action; a sample collection well located in the vicinity of the second end and in fluid communication with the capillary channel; an opening in the hydrophilic tape, the opening in fluid communication with the sample collection well to enable at least one of: (i) the fluid sample to be added to the sample collection well via the opening, or (ii) air pressure to be applied via the opening to move the fluid sample in a direction away from the sample collection well towards the first end of the capillary channel; and an axis of rotation extending through the center of the disk-shaped body and which is substantially perpendicular to a major surface of the disk-shaped body, and wherein the at least semi-circular portion of the capillary channel includes a straight portion extending radially inward from the first end of the capillary channel and ending at the second end of the capillary channel whereby the semi-circular portion substantially surrounds the axis of rotation extending through the center of the disk-shaped body. 2. The sample collection device as claimed in claim 1 , wherein the sample collection device is adapted to rotate about the axis of rotation within a cartridge having a housing comprising an air vent in fluid communication with the capillary channel when the disk-shaped body is rotated to a first position. 3. The sample collection device as claimed in claim 2 , wherein the air vent is located in the vicinity of and in fluid communication with the second end of the capillary channel when the disk-shaped body is rotated to the first position. 4. The sample collection device as claimed in claim 1 , wherein an opening of the first end is located on a side surface of the bottom piece of the disk-shaped body and the sample collection well is located on a top surface of the bottom piece of the disk-shaped body. 5. The sample collection device as claimed in claim 1 , wherein the capillary channel is non-linear. 6. The sample collection device as claimed in claim 5 , wherein the capillary channel has a semi-circular shape. 7. The sample collection device as claimed in claim 6 , wherein the capillary channel has a staff shape including a straight portion extending from the first end of the channel and a staff shaped portion extending to the second end. 8. The sample collection device as claimed in claim 1 , wherein the first end of the capillary channel is hydrophilic. 9. The sample collection device as claimed in claim 8 , wherein the first end of the capillary channel is provided with a hydrophilic coating. 10. A working element comprising: a sample collection device comprising: a substantially disk-shaped body having a periphery, the body being made from a two part construction comprising a top piece and a bottom piece, the top piece being a hydrophilic tape; a capillary channel extending through the body, bounded by the periphery, and including a portion that is at least semi-circular, the capillary channel having a first end and a second end, the first end being formed at the periphery of the disk-shaped body, wherein the first end is adapted to draw the fluid sample into the capillary channel by capillary action; a sample collection well located in the vicinity of the second end and in fluid communication with the capillary channel; an opening in the hydrophilic tape, the opening in fluid communication with the sample collection well to enable at least one of: (i) the fluid sample to be added to the sample collection well via the opening, or (ii) air pressure to be applied via the opening to move the fluid sample in a direction away from the sample collection well towards the first end of the capillary channel; and an axis of rotation extending through the center of the disk-shaped body and which is substantially perpendicular to a major surface of the disk-shaped body, and wherein the at least semi-circular portion of the capillary channel includes a straight portion extending radially inward from the first end of the capillary channel and ending at the second end of the capillary channel whereby the semi-circular portion substantially surrounds the axis of rotation extending through the center of the disk-shaped body; and a cartridge having a housing comprising an air vent in fluid communication with the capillary channel when the disk-shaped body is rotated to a first position, and containing a sample manipulation device, wherein the sample collection device is rotatably positioned within the cartridge housing and at least a portion of a side and a top surface of the disk-shaped body are exposed for application of sample. 11. The working element as claimed in claim 10 , wherein the air vent is located in the vicinity of and in fluid communication with the second end of the capillary channel when the disk-shaped body is rotated to the first position. 12. The working element as claimed in claim 10 , wherein the sample manipulation device includes a pre-manipulation portion. 13. The working element as claimed in claim 10 , wherein the sample manipulation device is an analytical chamber having an analytical reagent thereon. 14. The working element as claimed in claim 13 , wherein the analytical chamber is a lateral flow assay device. 15. The working element as claimed in claim 10 , wherein the sample collection device is located at a first end of the cartridge housing and the portion of the side and top surface are exposed at the first end of the cartridge housing. 16. The working element as claimed in claim 15 , wherein the sample collection device protrudes from the first end of the cartridge housing. 17. A working element as claimed in claim 15 , wherein the sample collection device is fully contained within the cartridge housing and a portion of the cartridge housing is recessed from the first end to form a notch exposing the side and top surface of the disk-shaped body. 18. A working element as claimed in claim 15 , wherein when the sample collection device is rotated about the axis of rotation to a second position, the first end of the capillary channel is exposed at the first end of the cartridge housing. 19. A working element as claimed in claim 15 , wherein when the sample collection device is rotated about the axis of rotation to a third position, the second end of the capillary channel is exposed at the first end of the cartridge housing. 20. A working element as claimed in claim 10 , wherein when the disk-shaped body is rotated about the axis of rotation to the first position, the first end of the capillary channel is in communication with the sample manipulation device. 21. A working element as claimed in claim 20 , wherein the air vent is adapted to be connected to a source of air pressure to force sample from the capillary channel through the first end of the capillary channel and into the sample manipulation device. 22. The sample collection