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Neurotoxicity following CD19/CD28ζ CAR T-cells in children and young adults with B-cell malignancies

Haneen Shalabi, Staci Martin, Bonnie Yates, Pamela L. Wolters, Claire M. Kaplan, Hannah Smith, Christopher R Sesi, Jennifer Jess, Mary Anne Toledo‐Tamula, Kari Struemph, Cindy Delbrook, Omar Khan, Crystal L. Mackall, Daniel W Lee, Nirali N. Shah

2022Neuro-Oncology31 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Neurotoxicity is an established toxicity of CD19 CAR T-cell therapy; however, there is little information on neurotoxicity in children, adolescents, and young adults (CAYA) receiving CD19/CD28ζ CAR T-cells for B-cell malignancies. METHODS: We analyzed neurotoxicity of CD19/CD28ζ CAR T-cells in CAYA treated on a phase I study (NCT01593696). Assessments included daily inpatient monitoring, caregiver-based neuro-symptom checklist (NSC), exploratory neurocognitive assessments, clinically-indicated imaging, CSF analysis, and systematic cytokine profiling, outcomes of which were associated with cytokine release syndrome (CRS) and treatment response postinfusion. Patients with active CNS leukemia were included. RESULTS: Amongst 52 patients treated, 13 patients had active CNS leukemia at infusion. Neurotoxicity was seen in 11/52 (21.2%) patients, with an incidence of 29.7% (11/37) in patients with CRS. Neurotoxicity was associated with the presence and severity of CRS. Those with neurotoxicity had higher levels of peak serum IL-6, IFNγ, and IL-15. Additionally, CNS leukemia was effectively eradicated in most patients with CRS. Pilot neurocognitive testing demonstrated stable-to-improved neurocognitive test scores in most patients, albeit limited by small patient numbers. The NSC enabled caregiver input into the patient experience. CONCLUSIONS: This is the first systematic analysis of neurotoxicity utilizing a CD19/CD28ζ CAR construct in CAYA, including in those with active CNS involvement. The experience demonstrates that the neurotoxicity profile was acceptable and reversible, with evidence of anti-leukemia response and CNS trafficking of CAR T-cells. Additionally, neurocognitive testing, while exploratory, provides an opportunity for future studies to employ systematic evaluations into neurotoxicity assessments and validation is needed in future studies.

Topics & Concepts

NeurotoxicityCytokine release syndromeMedicineNeurocognitiveCD19OncologyInternal medicineImmunologyT cellToxicityFlow cytometryPsychiatryCognitionImmune systemChimeric antigen receptorCAR-T cell therapy researchImmunotherapy and Immune ResponsesAcute Lymphoblastic Leukemia research