Two-dimensional needle array device and method of use

The invention claimed is: 1. A tissue grafting system comprising: a cartridge comprising: an array of hollow tubes comprising: a first row of hollow tubes; and a second row of hollow tubes, the first row and the second row configured to independently actuate; a plurality of pins, each pin positioned within a corresponding hollow tube; and a substrate securing the plurality of pins at a proximal end, wherein the first row and the second row of hollow tubes are respectively configured to translate along the plurality of pins, defining an extended tube position and a retracted tube position, wherein, in the extended tube position, a distal end of each pin is positioned internally to the corresponding hollow tube, and wherein, in the retracted tube position, the distal end of each pin is positioned externally to the corresponding hollow tube. 2. The tissue grafting system of claim 1 , wherein each of the hollow tubes further comprise, at a distal end, at least one point configured to core a biological tissue via translation of the hollow tubes to the extended tube position. 3. The tissue grafting system of claim 2 , wherein the plurality of pins are configured to displace cores of the biological tissue from the hollow tubes via translation of the hollow tubes to the retracted tube position. 4. The tissue grafting system of claim 1 , wherein the cartridge further comprises a peripheral housing surrounding the plurality of pins. 5. The tissue grafting system of claim 4 , wherein the peripheral housing includes at least one engagement surface configured to secure the cartridge to a grafting device. 6. The tissue grafting system of claim 1 , wherein the cartridge further comprises a projection configured to contact and secure a tissue surface. 7. The tissue grafting system of claim 6 , wherein a portion of the projection comprises a flexible material configured to form to a tissue surface. 8. The tissue grafting system of claim 6 , wherein, in the extended tube position, a distal portion of each hollow tube extends beyond the projection. 9. The tissue grafting system of claim 6 , wherein the cartridge further comprises a stop configured to limit a translational distance of the hollow tubes. 10. The tissue grafting system of claim 9 , wherein the stop is positioned to limit the translational distance such that a distal end of each hollow tube extends up to a dermal/fatty layer of a skin tissue. 11. A tissue grafting system comprising: a cartridge comprising: an array of hollow tubes comprising: a first row of hollow tubes; and a second row of hollow tubes, the first row and the second row configured to independently actuate; a plurality of pins secured to a substrate at a distal end, each pin positioned within a central lumen of a corresponding hollow tube; a peripheral housing surrounding the plurality of pins; and a projection affixed to the peripheral housing and configured to contact and secure a tissue during a tissue grafting process, wherein the first row and the second row of hollow tubes are respectively configured to translate along the plurality of pins, and wherein each hollow tube includes at least one point at a distal end configured to core the tissue via translation of the hollow tubes into the tissue. 12. The tissue grafting system of claim 11 , wherein the hollow tubes are configured to translate between an extended tube position and a retracted tube position, the extended tube position having a distal end of each pin positioned within the corresponding hollow tube, and the retracted tube position having the distal end of each pin positioned outside the corresponding hollow tube. 13. The tissue grafting system of claim 11 , wherein the plurality of pins are arranged in corresponding rows to the first row and the second row of hollow tubes. 14. The tissue grafting system of claim 11 , wherein the first row and the second row of hollow tubes are configured to sequentially translate. 15. The tissue grafting system of claim 11 , wherein the plurality of pins are configured to displace cores of the tissue from the hollow tubes via translation of the hollow tubes. 16. The tissue grafting system of claim 11 , wherein the cartridge further comprises a stop configured to limit a translational distance of the hollow tubes. 17. The tissue grafting system of claim 16 , wherein the stop is positioned to limit the translational distance such that a distal end of each hollow tube extends up to a dermal/fatty layer of the tissue. 18. The tissue grafting system of claim 11 , wherein a portion of the projection comprises a flexible material configured to form to a tissue surface.