Artificial capillary perfusion cell culture: Metabolic studies

Abstract

Summary Glucose, lactic-acid, and oxygen metabolism of BHK and L929 cells on artificial capillary perfusion units have been studied using several different modes of perfusion. After 7 to 10 days, cells planted in the extracapillary compartment of culture units containing 80 to 150 fibers reached populations that used 0.073±0.025 μmol per min glucose and 0.76±0.26 μl per min oxygen and excreted 0.078±0.038 μmol per min lactic acid. From these data it is estimated that these units contain approximately 2×10⁷ cells. The metabolic rate of cultures perfused through the capillaries or through the extracapillary compartment was not affected significantly by change in flow rate except at perfusion flow rates ≤0.05 ml per min. The cell population, as measured by metabolic activity, did not increase significantly when the serum content of the medium was ≤1%. No major differences were found in glucose utilization rates of equal numbers of cells on artificial capillaries, on short-term suspension culture, or as monolayers in plastic flasks. Artificial capillary perfusion may provide a simple system for studying metabolism of mammalian cells in culture.