One explanation for the failure of cephalothin to cure patients with bacterial meningitis is that desacetylcephalothin, as in vivo metabolite that has less antibacterial activity than the parent drug, penetrates more efficiently into cerebrospinal fluid (CSF); In experimental pneumococcal meningitis in rabbits, the peak levels of cephalothin and desacetylcephalothin in CSF after an intramuscular injection of 250 mg of cephalothin/kg were, respectively, 1.43 +/- 4.9 microgram/ml (2.8% of peak serum level) and 1.69 +/- 0.57 microgram/ml (2.2% of peak serum level). The observed half-life of desacetylcephalothin in CSF (3.32/hr) was longer (P less than 0.01) than that of cephalothin (0.72/hr). Choroid plexuses isolated from the lateral cerebral ventricles of rabbits with meningitis took up cephalothin in vitro more avidly than desacetylcephalothin (P less than 0.05), and metabolism of cephalothin to desacetylcephalothin by isolated choroid plexuses was demonstrated directly. Thus, intrathecal metabolism of cephalothin by the choroid plexus may contribute to the unsatisfactory performance of cephalothin in bacterial meningitis.