1. Reliable Detection of T-Cell Clonality by Flow Cytometry in Mature T-Cell Neoplasms Using TRBC1: Implementation as a Reflex Test and Comparison with PCR-Based Clonality Testing.
- Author
-
Waldron, Deirdre, O'Brien, David, Smyth, Laura, Quinn, Fiona, and Vandenberghe, Elizabeth
- Subjects
- *
TUMOR diagnosis , *FLOW cytometry , *CONFIDENCE intervals , *REFLEXES , *CELL receptors , *GENE expression , *T cells , *GENETIC techniques , *POLYMERASE chain reaction , *LYMPHOPROLIFERATIVE disorders , *T-cell lymphoma - Abstract
Objective The T-cell receptor β constant region 1 (TRBC1) antibody can identify T-cell clonality and distinguish pathological from normal T cells. This study aims to establish optimal cutpoints for establishing monotypia and validate the diagnostic abilities of the TRBC1 antibody when used as a reflex test in conjunction with an existing T-cell antibody panel. Materials and Methods We used 46 normal peripheral blood specimens and examined 8 patients with reactive lymphoproliferations to determine the normal biological range of TRBC1 on CD4+ and CD8+ T cells. We also evaluated 43 patient specimens that were submitted for investigation of a lymphoproliferative disorder for CD2/CD3/CD4/CD5/CD7/CD8/CD16/CD26/CD45/CD56/TCR αβ/TCR γδ, along with TRBC1 expression. The results were compared to TCR gene rearrangement patterns using polymerase chain reaction (PCR) analysis. Results Statistical analysis established differing cutoff points for establishing monotypia dependent on restricted TRBC1 or TRBC2 usage. Direct comparison with molecular analysis indicated that no specimen identified with the restricted expression of TRBC1 was reported as polyclonal by PCR with a concordance rate of 97% between a clonal PCR result and monotypic TRBC1 expression. Conclusion Incorporation of the TRBC1 antibody using statistically derived cutoff points in a reflex setting for the evaluation of a suspected T-cell neoplasm improves the identification of clonal T-cell populations by flow cytometry and correlates well with molecular methods. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF