Development of a radiometric metabolic viability testing method for human and porcine skin

A radiometric viability assay based upon the conversion of ¹⁴C]glucose into ¹⁴CO₂ by the viable cells on the dermal side of whole skin has been developed. The assay proved to be sensitive, reproducible, and practical, and was based upon the use of a microbiological growth detection system commonly used in many hospitals and laboratories. Relatively small samples of skin (0.25–1.00 g) were used in the test, and it was found that microbiological contamination did not interfere with the assay under normal conditions. The linear proportionality of the assay with both time and amount of skin assayed precluded the difficulties of nonlinear proportionality in other systems, allowing direct comparisons to be made between skin samples of different sizes and different incubation times. The assay could also detect ¹⁴CO₂ released from many radiolabeled substrates, including glucose, aspartate, glutamate, ornithine, orotic acid, and glycerol. Thus, the method could be used to test a number of cellular functions necessary for viability, including glycolysis, the functioning of the citric acid cycle and the pentose phosphate pathway, sugar and amino acid metabolism, pyrimidine biosynthesis, and cryopreservative agent metabolism. Since any of these tests could be performed in 4 hr, a viability assay based upon glycolysis alone, or in combination with any of the other tested substrates, could be carried out after allograft skin procurement before a decision needed to be made on skin cryopreservation.