The CNS Relapse in T-Cell Lymphoma Index Predicts CNS Relapse in Patients with T- and NK-Cell Lymphomas.

Little is known about risk factors for central nervous system (CNS) relapse in mature T- and NK-cell neoplasms (MTNKN). We aimed to describe the clinical epidemiology of CNS relapse in patients with MTNKN and developed the CNS relapse In T-cell lymphoma Index (CITI) to predict patients at highest risk of CNS relapse. We reviewed data from 135 patients with MTNKN and CNS relapse from 19 North American institutions. After exclusion of leukemic and most cutaneous forms of MTNKN, patients were pooled with non-CNS relapse control patients from a single institution to create a CNS relapse-enriched training set. Using a complete case analysis (N=182), of whom 91 had CNS relapse, we applied a LASSO Cox regression model to select weighted clinicopathologic variables for the CITI score, which we validated in an external cohort from the Swedish Lymphoma Registry (N=566). CNS relapse was most frequently observed in patients with PTCL, NOS (25%). Median time to CNS relapse and median overall survival after CNS relapse was 8.0 months and 4.7 months, respectively. We calculated unique CITI risk scores for individual training set patients and stratified them into risk terciles. Validation set patients with low-risk (N=158) and high-risk (N=188) CITI scores had a 10-year cumulative risk of CNS relapse of 2.2% and 13.4%, respectively (HR 5.24, 95%CI 1.50-18.26, P=0.018). We developed an open-access web-based CITI calculator (https://redcap.link/citicalc) to provide an easy tool for clinical practice. The CITI score is a validated model to predict patients with MTNKN at highest risk of developing CNS relapse.

Evolving Landscape of Antibody Drug Conjugates in Lymphoma.

ABSTRACT: Despite the curative potential of autologous transplantation and chimeric antigen receptor T cells in lymphoma, many patients are ineligible, or their disease progresses after these treatments. In this context, antibody drug conjugates (ADCs) have demonstrated very promising efficacy in lymphomas. Antibody drug conjugates are monoclonal antibodies covalently linked to a cytotoxic drug. Because of its highly specific targeting abilities and powerful killing effects, it has become a promising technology for developing anticancer drugs in recent years. The US Food and Drug Administration has approved 14 ADCs since Mylotarg (gemtuzumab ozogamicin) entered the market in 2000. With advances in the design of ADCs, their efficacy and safety have moved in tandem, and many novel ADCs have gained growing interest. Three ADCs, brentuximab vedotin, polatuzumab vedotin, and loncastuximab tesirine, have been approved for treating lymphoma. The rapidly evolving ADC arsenal for treating relapsed or refractory lymphoma offers many choices. The article reviews the history and general mechanism of action of ADCs. This is followed by a discussion of the molecular aspects of their key components and their mechanisms of influence on their design and function. Finally, we review up-to-date clinical data of the approved and emerging targets of ADCs in lymphoma.