Background: Uniquely rearranged immunoglobulin and T-cell receptor gene sequences can be amplified and electrophoretically separated by size to detect a clonal population of lymphocytes.
Objective: The purpose of this study was to determine whether the polymerase chain reaction (PCR) detects neoplastic (clonal) lymphocytes more frequently than do microscopic methods.
Methods: We identified neoplastic lymphocytes in peripheral blood by both routine and standardized microscopic examination of blood smears and by PCR amplification of blood-derived DNA and compared the 3 methods for frequency of detection of leukemic involvement. For standardized microscopic examination (200 leukocytes counted on Wright-Giemsa-stained blood smears), samples were categorized as negative (</=1% prolymphocytes), equivocal (>1% prolymphocytes, no lymphoblasts), or positive (>/=1 lymphoblast). A PCR-amplified sample was positive if 1 or 2 discrete bands were seen on the gel, or negative if no bands, a smear, or a faint ladder was seen.
Results: Using PCR, neoplastic lymphocytes were detected in peripheral blood 2.5 times more frequently than with routine or standardized microscopic evaluation. Eighty-three percent of samples negative by microscopy were positive by PCR.
Conclusion: PCR is more sensitive than microscopy for the detection of clonal lymphocytes in peripheral blood. The results of this study also suggest that neoplastic lymphocytes circulate in peripheral blood at a higher frequency than previously reported. PCR may be useful for detecting or phenotyping lymphoma, monitoring response to therapy, identifying recurrence, and screening breeds at risk.