The objective of this work was to engineer an automated system for the production of cultured epidermal autografts and sub-confluent cultured epidermal autografts. Human epidermal cells were grown directly on a transparent FEP film, which was held in place and surrounded by a polycarbonate growth chamber. The growth chambers were stacked to accommodate various surface area requirements. To monitor the development of the grafts, the upper-most growth chamber in the stack was periodically placed on a standard phase contrast microscope. The growth chambers were connected to a multi-channel peristaltic pump, which was controlled automatically to manage fluid-handling operations. Sub-confluent graft production involved removing the epidermal-film composite from the growth chambers and cutting desired graft geometries. Producing cultured epidermal autografts involved (1) removing the confluent epidermal-film composite from the growth chambers, (2) treating the composites with dispase, and (3) clipping the detached cultured epidermis to a synthetic support. Twelve to fifteen days were required to produce sub-confluent grafts (total surface area 3500-4500 cm2 50% confluent) and 18 to 24 d were required to produce standard cultured epidermal autografts (total surface area 3500-4500 cm2). The system reduces the tedious manual labor associated with producing cultured epidermal autografts.
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