Induction protocols for pediatric renal transplant recipients commonly utilize polyclonal or monoclonal agents in sequence with additional immunosuppression. Polyclonal agents Minnesota antilymphoblast globulin (MALG), anti-thymocyte globulin (ATGAM) effect both T and B cells while monoclonal agents (OKT3) are T-cell specific. Flow cytometric analysis of T-cell subsets has become the marker of adequacy of immunosuppression during OKT3 therapy, yet to date no marker exists to measure the adequacy of immunosuppression with polyclonal agents. At the University of Michigan, flow cytometric analysis in pediatric renal transplant recipients undergoing polyclonal induction reveals that CD3, CD4, and CD8 suppression initially occurs. As opposed to OKT3, a rebound of CD3 cells occurs despite daily use of a polyclonal agent in sequence with additional immunosuppressives. During these analyses, a single kidney was lost which flow cytometry failed to predict. No significant difference in flow cytometric patterns occurred when comparing ATGAM to MALG induction. Flow cytometry utilized during polyclonal induction in pediatric renal transplant recipients revealed a variety of T-cell suppression patterns but failed to demonstrate persistence of suppression. Despite this lack of suppression as indicated by flow cytometry, a 97% 1 year allograft survival rate exists in the pediatric transplant program at the University of Michigan Medical Center. Therefore, the role of flow cytometry during polyclonal induction has yet to be well defined.