Basic and applied research on anticlastogenicity has not only revealed valuable evidence on the mechanisms governing the induction of chromosomal aberrations by environmental mutagens, but also contributed effective ideas on a practical employment of this knowledge for the protection of individuals at risk. Considering the basic role played by chromosomal anomalies in oncogenesis, additional weight must be attributed to studies on anticlastogenicity. The employment of human cells in this kind of study dates back to 1969/70, while classical mammalian cell systems were used only later on. Various modes of application of both clastogens and anticlastogens (AC) were examined, but simultaneous addition to the cultures of both reagents was the most favored way. A wide spectrum of cytogenetic endpoints can be studied, but differences can be demonstrated with regard to efficacy of inhibitors on different types of cytogenetic changes, e.g., open breaks vs. rearrangements, but also vs. SCEs. Depending on their mode of influence on this spectrum, ACs can be arranged in various categories which are of practical importance, for instance, with regard to their oncogenic potential. A wide variety of factors was shown to influence AC action, e.g., time and mode of application of the test substances, physiologic and metabolic features of the cell types studied, type and mechanism of the clastogen used, etc. The addition of S9 mix can drastically change the patterns of efficacy of the ACs. The combined application of two or more ACs, as far as investigated, apparently neither potentiates nor even merely adds their effects.