An in vitro bioassay method for hFSH is presented. The method is based on the principles previously described by Dorrington et al. (1976b) and involves the assay of oestradiol produced from 19-hydroxyandrostenedione by dispersed Sertoli cells of 10-day old rats when cultured in the presence of graded doses of FSH. Using the 1st International Reference Preparation for human pituitary gonadotrophins (FSH and LH/ICSH) for bioassay (code no. 69/104) as standard, the useful range of the method is from 0.5 to 32 mIU/chamber (2 to 128 mIU/ml). The sensitivity of the method is 0.5 mIU/chamger. The mean index of precision (lambda) obtained from 16 multiple assays over 2 or 3 dose levels was 0.084. Parallelism was obtained between the 69/104 preparation and all preparations under study. The practicability of the proposed assay method is such that 15 preparations at 3 dose levels can be assayed by one person in 3 days. The specificity of the assay was investigated by determining the FSH activity in the following preparations: hFSH alpha- and beta-subunits, hLH, hCG, hTSH, ACTH, human growth hormone (hGH) human prolactin (hPRL) and luteinizing hormone-releasing hormone (LH-RH). The ACTH, hGH, hPRL and LH-RH preparations studied showed no detectable FSH activity in the assay. In the remaining preparations very low levels of FSH activity were found, corresponding to 0.004 to 0.6% of the weight of these preparations when compared with a highly purified hFSH preparation, suggesting that the method is specific for FSH. The possible synergistic or antagonistic influence of the above preparations when assayed in the presence of the 69/104 preparation was also assessed. No evidence of a synergistic or antogonistic effect was found. The assay of the hFSH potencies of a limited number of hFSH preparations of varying purity by the proposed in vitro bioassay, an hFSH radioreceptor method and an hFSH specific radioimmunoassay technique revealed that - although the relationship of the various potencies obtained with each method showed a close agreement - the bioassays yielded the highest potency estimates, and the radioimmunoassays the lowest ones. Since the proposed bioassay method is sensitive and considered to be specific for hFSH activity, it provides a suitable basis for the assessment of the specificity of other in vitro methods (radioreceptor and radioimmunoassay) currently used for detecting low levels of FSH activity.