Instruments and methods for loading cells into implantable devices

We claim: 1. A cell loading system for transferring cells from a cell source to an implantable device, the loading system comprising: a base, a platform assembly, wherein the platform assembly comprises a rotatable platform and a transverse-sliding platform that is mounted for rotational movement with the rotatable platform relative to the base, wherein the transverse-sliding platform is configured to move laterally or vertically in relationship to the rotatable platform and wherein the transverse-sliding platform is configured to receive the cell source, a tube assembly, and a pump, wherein the pump is operable to draw cells from the cell source into the tube assembly under negative pressure when the cell source is supported on the transverse-sliding platform, and the pump is further operable to pump cells in the tube assembly into the implantable device under positive pressure when the implantable device is supported on the platform assembly. 2. The cell loading system of claim 1 , further comprising the implantable device, wherein the implantable device is a cell encapsulation device. 3. The cell loading system of claim 1 , wherein the rotatable platform is rotatable from a first orientation to a second orientation relative to the base through an angle between 0° to 180°, rotatable from a first orientation to a second orientation relative to the base through an angle between 0° to 90°, at an angle of 90°, or at an angle of 45°. 4. The cell loading system of claim 1 , wherein the system is manual, fully-automated, or semi-automated. 5. The cell loading system of claim 4 , wherein the system is automated by detachably connecting the tube assembly to the pump and controlling the pump. 6. The cell loading system of claim 1 , further comprising the cell source, wherein the cell source is a cell container, a cell reservoir, or a cell vial. 7. The cell loading system of claim 1 , wherein the cells are pancreatic-type cells. 8. The cell loading system of claim 1 , wherein the cells are pancreatic progenitor cells, endocrine precursor cells, immature beta cells, or immature islet cells. 9. The cell loading system of claim 1 , wherein the platform assembly comprises an implantable-device nesting block mounted for rotational movement with the rotatable platform, wherein the nesting block is configured to receive a first portion of the implantable device and the transverse-sliding platform is configured to receive a second portion of the implantable device, wherein the second portion includes a device port for receiving cells from the tube assembly. 10. A method of loading an implantable device with cells, the method comprising: (a) placing an implantable device with a device port on the platform assembly of claim 1 such that the implantable device can be rotated with the rotatable platform, wherein the device port is connected to the tube assembly, which contains a volume of cells, and wherein the implantable device is detachably coupled to the platform assembly; (b) rotating the rotatable platform and the implantable device from a first orientation to a second orientation through an angle between 0° to 180°; and (c) after the act of rotating, dispensing cells from the tube assembly into the implantable device through the device port. 11. The method of claim 10 , wherein the implantable device is inside a sterile package. 12. The method of claim 11 , wherein the platform, the implantable device and the sterile package are rotated through an angle between 45° to 90°. 13. The method of claim 10 , wherein after step (c) the device port is sealed aseptically. 14. The method of claim 11 , wherein after step (c) the device port and the sterile package are sealed aseptically. 15. The method of claim 13 , wherein the device port is sealed using radio-frequency (RF). 16. The method of claim 10 , wherein the cells are cell aggregates in suspension. 17. The method of claim 10 , wherein the cells are pancreatic progenitor cells, endocrine precursor cells, immature beta cells, or immature islet cells. 18. A cell loading system comprising: an implantable device, a platform assembly for supporting the implantable device and a cell source, wherein the platform assembly comprises a rotatable platform and a transverse-sliding platform that is mounted for rotational movement with the rotatable platform, wherein the transverse-sliding platform is configured to move laterally or vertically in relationship to the rotatable platform and wherein the transverse-sliding platform is configured to receive the cell source, a tube assembly, and a pump, wherein the pump is operable to draw cells from the cell source into the tube assembly under negative pressure when the cell source is supported on the transverse-sliding platform, and the pump is further operable to pump cells in the tube assembly into the implantable device under positive pressure. 19. The cell loading system of claim 9 , wherein the rotatable platform comprises a first support portion and a second, sliding support portion that is slidable relative to the first support portion between a first position and a second position, wherein the transverse-sliding platform and the nesting block are mounted on the sliding support portion. 20. The cell loading system of claim 19 , wherein the platform assembly comprises a mount that is mounted on the first support portion of the rotatable platform, wherein the mount is configured to support the tube assembly, wherein when the implantable device is supported by the nesting block and the transverse-sliding platform and the sliding support portion is in the first position, the device port of the implantable device is spaced from the tube assembly and when the sliding support portion is moved to the second position, the device port of the implantable device is closer to the tube assembly for connecting the device port to the tube assembly.