Head-and-neck squamous-cell cancer (HNSCC) is an important public-health problem, accounting for approximately 40,300 new cancer cases and 12,000 cancer deaths annually in the United States (Greenlee et al., [2000]). Patients with early-stage disease are often cured with surgery or radiotherapy but are at high risk for second primary tumor (SPT) development (Lippman and Hong, [1989]), and the majority of patients present with advanced disease, for which the outcomes have not markedly improved despite advances in combined-modality therapy (Vokes et al., [1993]). HNSCC arises from transformation of the genetic material of normal cells, followed by successive genetic alterations in a multistep fashion, leading to clonal evolution of progeny cells with a proliferative advantage (Vogelstein and Kinzler, [1993]), induced by tobacco carcinogens (Slaughter et al., [1953]). Chemoprevention aims at reversal of this process through re-regulation of growth and differentiation and possibly elimination of genetically and phenotypically aberrant clones. Chemoprevention studies in upper aerodigestive tract (UADT) cancers are based on these fundamental premises and the identification of molecular genetic and biologic cellular changes. These alterations represent biomarkers of the carcinogenesis process and ultimately, if validated, could serve as intermediate end points for these studies.