Thermal overwrite secure indirect thermal printing

What is claimed is: 1. A system comprising: a thermal transfer printer; a transfer ribbon supply roll configured to feed a heat activated transfer ribbon to the thermal transfer printer, the thermal transfer printer configured to transfer an image from the transfer ribbon to an associated label stock so as to generate an exposed portion of the transfer ribbon including a negative image of the transferred image; a used ribbon roller; a drive motor configured to cause the transfer ribbon to move through the thermal transfer printer and direct the exposed portion of the transfer ribbon to the used ribbon roller; and a heated fuse roller provided between the drive motor and the used ribbon roller and configured to erase the negative image on the exposed portion of the transfer ribbon and fuse the exposed portion of the transfer ribbon to a portion of the transfer ribbon previously fused around the used ribbon roller. 2. The system of claim 1 , wherein the drive motor is in contact with the heated fuse roller and configured to rotate the heated fuse roller. 3. The system of claim 2 , wherein the exposed portion of the transfer ribbon being moved comes in contact with the used ribbon roller first at a nip formed between the heated fuse roller and the used ribbon roller. 4. A method comprising: feeding a heat activated transfer ribbon from a transfer ribbon supply roll to a thermal transfer printer; moving the transfer ribbon through the thermal transfer printer; transferring, via the thermal transfer printer, an image from the transfer ribbon to an associated label stock so as to generate an exposed portion of the transfer ribbon including a negative image of the transferred image; directing the exposed portion of the transfer ribbon to a used ribbon roller; and with use of a heated fuse roller provided between a drive motor and the used ribbon roller, erasing the negative image on the exposed portion of the transfer ribbon and fusing the exposed portion of the transfer ribbon to a portion of the transfer ribbon previously fused around the used ribbon roller. 5. The method of claim 4 , wherein the drive motor is in contact with the heated fuse roller, which is rotated by the drive motor. 6. The method of claim 5 , wherein the exposed portion of the transfer ribbon being moved comes in contact with the used ribbon roller first at a nip formed between the heated fuse roller and the used ribbon roller.