This is a prospective biological study evaluating the persistence of COVID-19 vaccine and other vaccines' (zoster, diphtheria and tetanus)-induced immunity in a subgroup patient affected by Follicular Lymphoma requiring treatment undergoing frontline induction immuno-chemotherapy and anti-CD20 maintenance within the prospective FIL\_FOLL19 study (NCT05058404). Blood samples from patients will be collected before and at planned timepoints during treatment to evaluate humoral and cellular immunity against SARS-COV-2, VZV, tetanus and diphtheria and T-cell markers characterization.
Patients (pts) with follicular lymphoma (FL) were reported to be at high risk for hospitalization and death from COVID-19 infection, especially if exposed to anti-CD20 monoclonal antibodies (mAbs)-based therapy. A large amount of studies unequivocally demonstrated that anti-CD20 mAbs-containing therapies typically impair the development of protective levels of neutralizing anti-spike antibodies after immunization with full course of approved mRNA-based COVID-19 vaccines (up to 12 months after last anti-CD20 infusion). Moreover, booster doses seem to induce seroconversion only in a minority of such pts. On the contrary, preliminary findings seem to suggest that a substantial proportion of vaccinated pts with B-cell lymphoma (B-NHL) mount detectable SARS-CoV-2-specific T-cell responses (as measured by assays evaluating IFN-Y secretion after stimulation with SARS-CoV-2 peptides), independently from humoral response status. For newly diagnosed FL pts current guidelines suggest to complete the vaccination with booster dose(s) before treatment initiation, as anti-CD20 mAbs seems to spare pre-established humoral immunity to COVID-19 vaccine, although data supporting this finding are scanty.5 Furthermore, data about long term persistence of pre-established cellular immunity in this setting are lacking, although preliminary findings in unselected immunosuppressed pts suggest that it decline over time without significant difference with respect to the general population. The novel adjuvanted recombinant zoster vaccine demonstrated lower humoral immune response in pts with B-NHL with respect to other pts, probably due to anti-CD20 therapy, while cellular immunity was not affected, although the small number of pts requires further investigation. Very few data concerning persistence of immunity to childhood vaccines after anti-CD20-based therapy are available and suggest that humoral immunity to diphtheria and tetanus may be significantly impaired after therapy. This is a prospective biological study evaluating the persistence of COVID-19 vaccine and other vaccines' (zoster, diphtheria and tetanus)-induced immunity in a subgroup of FL patients undergoing frontline induction immuno-chemotherapy and anti-CD20 maintenance within the prospective FIL\_FOLL19 study (NCT05058404). After the signature of a specific informed consent, eligible patients will receive a questionnaire evaluating vaccination history, past infection history and treatment, and passive immune prophylaxis (e.g. tixagevimab/cilgavimab administration). A baseline blood sample will be collected before the initiation of treatment and will be sent to the central laboratory, where specific analyses evaluating vaccine-induced cellular and/or humoral immunity against COVID-19, VZV, diphtheria and tetanus will be performed. COVID-19 cellular and humoral immunity will be evaluated in all patients at all available timepoints. Humoral and cellular immunity for VZV will be evaluated for all patients at study entry. In the subgroup of patients with a detectable serologic response at study entry, humoral and cellular immunity will be also evaluated at all available later timepoints. Humoral immunity for diphtheria and tetanus will be evaluated for all patients at study entry. In the subgroup of patients with a detectable serologic response at study entry, humoral immunity will be also evaluated at all available later timepoints. T-cell immunological parameters will be evaluated at study entry and 12 months after EOI (or early withdrawal).
Study Type
OBSERVATIONAL
Enrollment
56
Evaluation of cellular immunity vs SARS-CoV-2 by ELISpot assay
Evaluation of Humoral immunity vs SARS-CoV-2 by ELISA assay (IgG anti-RBD and anti-N)
Evaluation of cellular immunity vs VZV by Enzyme-Linked immunoSPOT (ELISPOT) assay
Evaluation of humoral immunity vs VZV by ELISA (VZV gE-binding IgG)
Evaluation of diphtheria toxin-binding IgG by ELISA assay
Evaluation of tetanus toxoid-binding IgG by ELISA assay
Characterization of T-cell populations and markers by flow cytometry
Azienda Ospedaliera S.Giuseppe Moscati - S.C. Ematologia e Trapianto emopoietico
Avellino, AV, Italy
RECRUITINGA.O. SS. Antonio e Biagio e Cesare Arrigo, S.C. Ematologia
Alessandria, IT, Italy
RECRUITINGNuovo Ospedale degli Infermi, SSD Ematologia
Biella, IT, Italy
RECRUITINGASST Grande Ospedale Metropolitano Niguarda - SC Ematologia
Milan, IT, Italy
RECRUITINGOspedale Maggiore Policlinico Fondazione IRCCS Ca' Granda - Ematologia
Milan, IT, Italy
RECRUITINGA.O.U. Maggiore della Carità di Novara - S.C.D.U. Ematologia
Novara, IT, Italy
RECRUITINGIRCCS Policlinico San Matteo - Divisione di Ematologia
Pavia, IT, Italy
RECRUITINGOspedale Guglielmo da Saliceto - U.O. Ematologia
Piacenza, IT, Italy
RECRUITINGA.O.U. Città della Salute e della Scienza di Torino - S.C. Ematologia U
Torino, IT, Italy
RECRUITINGA.O.U. Città della Salute e della Scienza di Torino - S.C. Ematologia
Torino, IT, Italy
RECRUITING...and 4 more locations
Rate of patients with persistence of cell-mediated immunity induced by COVID-19 approved vaccines (at least three doses) after standard induction immuno-chemotherapy.
Proportion of patients with laboratory parameters of vaccine-induced cellular immunity against SARS-CoV-2 (by ELISpot assay) at EOI (after induction immuno-chemotherapy) vs proportion at baseline
Time frame: At the end of induction therapy (EOI) - About 8 months from treatment start
Rate of patients with persistence of cell-mediated immunity induced by COVID-19 approved vaccines (at least three doses) during anti-CD20 mAbs maintenance
Proportion of patients with laboratory parameters of vaccine-induced cellular immunity against SARS-CoV-2 (by ELISpot assay) during anti-CD20 maintenance (+12 months after EOI) vs proportion at baseline
Time frame: At +12 months of maintenance - About 20 months from treatment start
Rate of patients with persistence of humoral immunity induced by COVID-19 approved vaccines (at least three doses) after standard induction immuno-chemotherapy and during maintenance.
Proportion of patients with laboratory parameters of vaccine-induced humoral immunity against SARS-CoV-2 (by ELISA assay detecting anti-receptor binding domain \[RBD\] and anti-nucleocapsid \[N\] IgG antibodies) after standard induction immuno-chemotherapy (EOI) and during anti-CD20 maintenance (+12 months after EOI) vs proportion at baseline (excluding patients who received pre-exposure tixagevimab/cilgavimab or other monoclonal antibodies).
Time frame: At the end of induction therapy (EOI) and at +12 months of maintenance - About 8 months and 20 months from treatment start respectively
Rate of patients (with a detectable serologic response at study entry) with persistence of humoral and cellular immunity induced by adjuvanted recombinant zoster vaccine after standard induction immuno-chemotherapy and during maintenance
Proportion of patients with laboratory parameters of vaccine-induced humoral (by ELISA assay detecting anti-glycoprotein E IgG antibodies) and/or cellular immunity (by ELISpot assay) against VZV at EOI and during anti-CD20 maintenance (+12 months after EOI) vs proportion at first detection after vaccination (in the subgroup of patients with a detectable serologic response at study entry).
Time frame: At the end of induction therapy (EOI) and at +12 months of maintenance - About 8 months and 20 months from treatment start respectively
Rate of patients (with a detectable serologic response at study entry) with persistence of humoral immunity induced by childhood vaccines (diphtheria and tetanus) after standard induction immuno-chemotherapy and during maintenance
Proportion of patients with laboratory parameters of vaccine-induced humoral immunity against diphtheria and tetanus (by ELISA assay detecting diphtheria toxin-binding IgG and tetanus toxoid-binding IgG) at EOI and during anti-CD20 maintenance (+12 months after EOI) vs proportion at baseline (in the subgroup of patients with a detectable serologic response at study entry).
Time frame: At the end of induction therapy (EOI) and at +12 months of maintenance - About 8 months and 20 months from treatment start respectively
Rate of COVID-19 infection events and severity in vaccinated patients and correlation with humoral and/or cellular immunity with eventual tixagevimab/cilgavimab or other MAb prophylaxis and with dominant SARS-CoV-2 variant/subvariant at time of infection
Incidence of COVID-19 infections and their severity in vaccinated patients undergoing induction immuno-chemotherapy and maintenance and correlation with the level of immunity as measured by humoral and/or cellular immune parameters at the time point before the event as well as with eventual tixagevimab/cilgavimab administration (or prophylaxis with other monoclonal antibodies) and with dominant SARS-CoV-2 variant/subvariant at the time of infection
Time frame: From baseline (before therapy) up to 20 months from treatment start (+12 months of maintenance)
Rate of zoster infection events and their severity in vaccinated patients and correlation with the level of immunity as measured by humoral and/or cellular immune parameters at the time point before the event
Incidence of zoster infections and their severity in vaccinated patients undergoing induction immuno-chemotherapy and maintenance and correlation with the level of immunity as measured by humoral and/or cellular immune parameters at the time point before the event.
Time frame: From baseline (before therapy) up to 20 months from treatment start (+12 months of maintenance)
Characterization of multiple T-cell immunological parameters before and after standard induction immuno-chemotherapy in patients with follicular lymphoma treated within the prospective FIL_FOLL19 study
Description in the study population at study entry and at the latest timepoint of the percentage and absolute number of T lymphocytes populations and their subset distribution, expression of markers of activation and of functional exhaustion and immune checkpoints on T lymphocytes and T helper (Th) polarization of the CD4+ T-cell population by flow cytometry
Time frame: From baseline (before therapy) up to 20 months from treatment start (+12 months of maintenance)
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