Methods for the fabrication of tissue via printing

What is claimed is: 1. A method of printing a three-dimensional (3D) structure, the method comprising: providing a 3D printer, the printer comprising: one or more printer heads, wherein a printer head comprises a means for receiving and holding at least one cartridge, wherein the cartridge comprises at least one deposition orifice and contents comprising a bio-ink, wherein the bio-ink comprises cell solutions, cells suspensions, or cell concentrations; a calibration lever; a means for extruding the contents of at least one cartridge; a receiving surface for receiving a first layer of the materials extruded from the at least one cartridge; a programmable computer processor communicatively connected to the means for extruding, the programmable computer processor for positioning the one or more printer heads in three dimensions and regulating the pressure and the speed of dispensing of the contents of the at least one cartridge; and a means for calibrating the position of the at least one cartridge or the at least one deposition orifice; providing the materials to be dispensed; encoding the printer, via the programmable computer processor, with a 3D structure to be printed, wherein the 3D structure is a tissue construct, and wherein the programmable computer processor is programmable by a graphical user interface that is capable of receiving input of a visual representation of the tissue construct, and is configured to generate a series of commands to position means for dispensing the bio-ink, wherein the commands are based on the visual representation inputted via the graphical user interface; dispensing from the deposition orifice the materials to be dispensed, wherein the materials to be dispensed comprise cell solutions, cells suspensions, or cell concentrations, wherein the dispensing is by extrusion; depositing a first layer of the dispensed materials on the receiving surface; and repeating the depositing step by depositing subsequent dispensed material on the first and any subsequent layers of deposited material, thereby depositing layer upon layer of dispensed materials in a geometric arrangement according to the 3D structure. 2. The method of claim 1 , wherein the means for calibrating the position is selected from the group consisting of laser alignment, optical alignment, mechanical alignment, piezoelectric alignment, magnetic alignment, electrical field or capacitance alignment, ultrasound alignment, or combinations thereof. 3. The method of claim 2 , wherein the means for calibrating the position is laser alignment. 4. A method of printing a three-dimensional (3D) structure, the method comprising: providing a 3D printer, the printer comprising: one or more printer heads, wherein a printer head comprises a means for receiving and holding at least one cartridge, wherein the cartridge comprises at least one deposition orifice and contents comprising a bio-ink, wherein the bio-ink comprises cell solutions, cells suspensions, or cell concentrations; a means for extruding the contents of at least one cartridge; a calibration lever; a receiving surface for receiving a first layer of the materials extruded from the at least one cartridge; and a programmable computer processor communicatively connected to the means for extruding, the programmable computer processor for positioning the one or more printer heads in three dimensions and regulating the pressure and the speed of dispensing of the contents of the at least one cartridge; providing the materials to be dispensed; encoding the printer, via the programmable computer processor, with a 3D structure to be printed, wherein the 3D structure is a tissue construct, and wherein the programmable computer processor is programmable by a graphical user interface that is capable of receiving input of a visual representation of the tissue construct, and is configured to generate a series of commands to position means for dispensing the bio-ink, wherein the commands are based on the visual representation inputted via the graphical user interface; dispensing from the deposition orifice the materials to be dispensed, wherein the materials to be dispensed comprise cell solutions, cells suspensions, or cell concentrations, wherein the dispensing is by extrusion; depositing a first layer of the dispensed materials on the receiving surface; and repeating the depositing step by depositing subsequent dispensed material on the first and any subsequent layers of deposited material, thereby depositing layer upon layer of dispensed materials in a geometric arrangement according to the 3D structure. 5. The method of claim 4 , wherein the extrusion is by application of pressure via a piston, compressed gas, hydraulics, or a combination thereof. 6. The method of claim 5 , further comprising adjusting the temperature of the printer. 7. The method of claim 6 , wherein the temperature is adjusted by means of a radiant heater, a convection heater, a conductive heater, a fan heater, a heat exchanger, or a combination thereof. 8. The method of claim 6 , wherein the at least one cartridge is a syringe or needle. 9. The method of claim 7 , wherein the contents of the cartridge further comprises an extrusion compound. 10. The method of claim 9 , wherein the extrusion compound is a collagen. 11. The method of claim 8 , wherein the contents of the cartridge further comprises a support material. 12. The method of claim 11 , wherein the viscosity of the support material is changed by photocrosslinking. 13. The method of claim 9 , wherein the bio-ink is liquid or semi-solid. 14. The method of claim 10 , wherein the bio-ink comprises one type of cell. 15. The method of claim 11 , wherein the bio-ink comprises more than one type of cell. 16. A method of printing a three-dimensional (3D) structure comprising: providing a 3D printer, the printer comprising: a programmable computer processor; a calibration lever; an air compressor; a substantially flat receiving surface; and first and second detachable printer heads, wherein each printer head holds at least one cartridge comprising a deposition orifice and is capable of holding a bio-ink comprising a cell solution, cell suspension, or cell concentration, wherein the first printer head is a pneumatic printer head, and wherein the programmable computer processor positions the selected cartridge in three dimensions and regulates the pressure and the speed of the dispensing of the bio ink; providing the bio-ink to be dispensed; encoding the printer with a model of the 3D structure to be printed, wherein the 3D structure is a tissue construct; extruding the bio-ink from the deposition orifice; depositing a first layer of the bio-ink on the receiving surface; and repeating the depositing step by depositing subsequent layers of bio-ink in a geometric arrangement according to the 3D structure. 17. The method of claim 16 , wherein the viscosity of the bio ink is changed by photocrosslinking. 18. The method of claim 16 , wherein the viscosity of the bio-ink is changed by modifying temperature. 19. The method of claim 16 , further comprising activating an ultraviolet light configured to change the viscosity of the bio-ink by photocrosslinking. 20. The method of claim 16 , further comprising activating a heating element configured to change the viscosity of the bio-ink. 21. The method of claim 1 , wherein the visual representation of a desired tissue construct is displayed on a display screen as a thr