Microfluidic device with dried blood spots (Dbs) card interface

What is claimed is: 1. A chromatography apparatus comprising: a first microfluidic substrate having a first substantially enclosed fluidic channel comprising a sample preparation column, one end of the first substantially enclosed fluidic channel terminating at a first fluidic port on a first side of the first microfluidic substrate and an opposite end of the first substantially enclosed fluidic channel terminating at a second fluidic port on a second side of the first microfluidic substrate; a second microfluidic substrate having a second substantially enclosed fluidic channel comprising an analytical column, one end of the second substantially enclosed fluidic channel terminating at a first fluidic port on a first side of the second microfluidic substrate, and a dried blood spot (DBS) card having one or more dried blood spots, one side of the DBS card being coupled to the first side of the first microfluidic substrate such that one of the dried blood spots of the DBS card is in fluidic communication with the first fluidic port of the first microfluidic substrate; wherein the first side of the second microfluidic substrate abuts the second side of the first microfluidic substrate such that the first fluidic port of the second microfluidic substrate aligns with one of the second fluidic ports of the first microfluidic substrate and the alignment produces a fluidic path comprised of the first and second substantially enclosed fluidic channels. 2. The chromatography apparatus of claim 1 , wherein the first microfluidic substrate includes a plurality of substantially enclosed fluidic channels, one end of each substantially enclosed fluidic channel of the first microfluidic substrate terminating at a different first fluidic port on the first side of the first microfluidic substrate and an opposite end of each substantially enclosed fluidic channel of the first microfluidic substrate terminating at a different second fluidic port on the second side of the first microfluidic substrate. 3. The chromatography apparatus of claim 2 , wherein the first microfluidic substrate is card-like in shape and the substantially enclosed fluidic channels are arranged in a row for linear indexing. 4. The chromatography apparatus of claim 2 , wherein the first microfluidic substrate is disc-like in shape and the substantially enclosed fluidic channels are arranged radially about a center of the first microfluidic substrate for rotary indexing. 5. The chromatography apparatus of claim 2 , wherein each of the substantially enclosed fluidic channels of the first microfluidic substrate comprises a sample-preparation column. 6. The chromatography apparatus of claim 2 , wherein the DBS card is coupled to the first side of the first microfluidic substrate such that each of the dried blood spots of the DBS card is in fluidic communication with a different first fluidic port on the first side of the first microfluidic substrate. 7. The chromatography apparatus of claim 1 , wherein the first microfluidic substrate is removably coupled to the second microfluidic substrate. 8. The chromatography apparatus of claim 1 , wherein the first microfluidic substrate is movably coupled to the second microfluidic substrate for indexing. 9. The chromatography apparatus of claim 1 , further comprising a fluidic coupler coupled to the first fluidic port on the first side of the first microfluidic substrate and a second fluidic coupler coupled to the second fluidic port on the second side of the second microfluidic substrate. 10. The chromatography apparatus of claim 1 , further comprising a third microfluidic substrate having a fluidic channel, one end of the fluidic channel of the third microfluidic substrate terminating at a first fluidic port on a first side of the third microfluidic substrate and an opposite end of the fluidic channel of the third microfluidic substrate terminating at a second fluidic port on a second side of the third microfluidic substrate; wherein the second side of the third microfluidic substrate abuts the second side of the first microfluidic substrate such that one of the fluidic ports of the third microfluidic substrate aligns with one of the fluidic ports of the first microfluidic substrate and the alignment produces a fluidic path comprised of the fluidic channels of the first and third microfluidic substrates. 11. The chromatography apparatus of claim 1 , wherein the second substantially enclosed fluidic channel of the second microfluidic substrate terminates at a second fluidic port opening to a second side of the second microfluidic substrate. 12. The chromatography apparatus of claim 1 , wherein the second substantially enclosed fluidic channel of the second microfluidic substrate terminates at a second fluidic port opening at an edge of the second microfluidic substrate. 13. A chromatography apparatus comprising: a first microfluidic substrate comprising a plurality of spatially separated substantially enclosed fluidic channels each comprising a sample preparation column formed therein, one end of each of the substantially enclosed fluidic channels terminating at a different first fluidic port on a first side of the microfluidic substrate, and an opposite end of each substantially enclosed fluidic channel terminating at a different second fluidic port on a second side opposite the first side of the microfluidic substrate, and a second microfluidic substrate having a second substantially enclosed fluidic channel comprising an analytical column, one end of the second substantially enclosed fluidic channel terminating at a first fluidic port on a first side of the second microfluidic substrate, and wherein the first side of the second microfluidic substrate abuts the second side of the first microfluidic substrate such that the first fluidic port of the second microfluidic substrate aligns with one of the fluidic ports of the first microfluidic substrate and the alignment produces a fluidic path comprised of the first and second substantially enclosed fluidic channels. 14. The chromatography apparatus of claim 13 , wherein the first microfluidic substrate is card-like in shape, and the spatially separated substantially enclosed fluidic channels are identical in shape and arranged in a row for linear indexing. 15. The chromatography apparatus of claim 13 , wherein the first microfluidic substrate is disc-like in shape, and the spatially separated substantially enclosed fluidic channels are identical in shape and arranged radially about a center of the microfluidic substrate for rotary indexing. 16. The chromatography apparatus of claim 13 , wherein each of the sample-preparation columns contain a different resin. 17. The chromatography apparatus of claim 13 further comprising a multilayer construction, wherein one or more of the substantially enclosed fluidic channels cuts through multiple layers of the multilayer construction. 18. The chromatography apparatus of claim 13 , further comprising a multilayer construction, wherein different ones of the substantially enclosed fluidic channels are formed in different layers of the multilayer construction. 19. The chromatography apparatus of claim 13 , further comprising a dried blood spot (DBS) card having one or more dried blood spots, one side of the DBS card being coupled to the first side of the first microfluidic substrate such that each of the dried blood spots of the DBS card is in fluidic communication with a different first fluidic port on the first side of the first microfluidic substrate.