Antibody Response to COVID-19 Vaccination in Adults With Hematologic Malignant Disease | Oncology | JAMA Oncology | JAMA Network
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Figure.  Proportion of Vaccinated Patients With Hematologic Cancers Who Attain Postvaccination Seroconversion on the Qualitative IgG/IgM Assay
Proportion of Vaccinated Patients With Hematologic Cancers Who Attain Postvaccination Seroconversion on the Qualitative IgG/IgM Assay

A, Prior monoclonal antibody exposure. B, Active disease, remission, or watchful waiting (WW) status at the time of vaccination; error bars indicate exact binomial 95% CIs.

Table.  Patient Characteristics Associated With Seroconversion
Patient Characteristics Associated With Seroconversion
1.
Baden  LR, El Sahly  HM, Essink  B,  et al; COVE Study Group.  Efficacy and safety of the mRNA-1273 SARS-CoV-2 vaccine.   N Engl J Med. 2021;384(5):403-416. doi:10.1056/NEJMoa2035389PubMedGoogle ScholarCrossref
2.
Polack  FP, Thomas  SJ, Kitchin  N,  et al; C4591001 Clinical Trial Group.  Safety and efficacy of the BNT162b2 mRNA Covid-19 vaccine.   N Engl J Med. 2020;383(27):2603-2615. doi:10.1056/NEJMoa2034577PubMedGoogle ScholarCrossref
3.
Ribas  A, Sengupta  R, Locke  T,  et al; AACR COVID-19 and Cancer Task Force.  Priority COVID-19 vaccination for patients with cancer while vaccine supply is limited.   Cancer Discov. 2021;11(2):233-236. doi:10.1158/2159-8290.CD-20-1817PubMedGoogle ScholarCrossref
4.
Paiva  KJ, Grisson  RD, Chan  PA,  et al.  Validation and performance comparison of three SARS-CoV-2 antibody assays.   J Med Virol. 2021;93(2):916-923. doi:10.1002/jmv.26341PubMedGoogle ScholarCrossref
5.
Stephenson  KE, Le Gars  M, Sadoff  J,  et al.  Immunogenicity of the Ad26.COV2.S Vaccine for COVID-19.   JAMA. 2021;325(15):1535-1544. doi:10.1001/jama.2021.3645PubMedGoogle ScholarCrossref
6.
Walsh  EE, Frenck  RW  Jr, Falsey  AR,  et al.  Safety and immunogenicity of two RNA-Based Covid-19 vaccine candidates.   N Engl J Med. 2020;383(25):2439-2450. doi:10.1056/NEJMoa2027906PubMedGoogle ScholarCrossref
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    Research Letter
    August 11, 2021

    Antibody Response to COVID-19 Vaccination in Adults With Hematologic Malignant Disease

    Author Affiliations
    • 1Department of Medicine, Alpert Medical School of Brown University, Providence, Rhode Island
    • 2Division of Hematology-Oncology, Rhode Island Hospital, Providence, Rhode Island
    • 3Department of Pathology and Laboratory Medicine, Rhode Island Hospital, Providence, Rhode Island
    • 4Division of Infectious Disease, Rhode Island Hospital, Providence, Rhode Island
    JAMA Oncol. 2021;7(11):1714-1716. doi:10.1001/jamaoncol.2021.4381

    The effectiveness of COVID-19 vaccination remains unknown in patients with hematologic malignant disease who have an impaired humoral immunity from both treatment and disease. Phase 3 registration studies of COVID-19 vaccines excluded patients with immunosuppression or immunosuppressive therapies.1,2 Despite this, professional organizations suggest vaccination, or even its prioritization, for patients with cancer.3 As the US Centers for Disease Control loosens pandemic-related precautions for vaccinated people, a better understanding of the vaccine response among patients with hematologic malignant disease is critical.

    Methods

    We conducted a retrospective study of adults with hematologic malignant disease who were vaccinated with 1 of 3 COVID-19 vaccines authorized by the US Food and Drug Administration between February and April of 2021. Eligible patients were identified by a search in the institutional electronic medical record. The study was approved by the institutional review board at Rhode Island Hospital, which waived written informed consent because data collected were part of standard care. Anti–COVID-19 antibodies were assessed with the qualitative SARS-CoV-2 Total Antibody Test (IgG or IgM against receptor binding domain [RBD], Wondfo USA), SARS-CoV-2 IgG (IgG against nucleocapsid protein, Abbott), the semiquantitative Abbott AdviseDx SARS-CoV-2 IgG II (IgG against RBD), and Abbott AdviseDx SARS-CoV-2 IgM (IgM against spike protein).4 Binary variables were compared using Fisher exact tests, and continuous variables using rank-sum tests; P values were adjusted for multiple testing (5 hypotheses) using Bonferroni correction, using P < .01 as an indicator of statistical significance.

    Results

    We examined response to COVID-19 vaccines in 160 patients with hematologic cancers; median (IQR) age was 72 (65-79) years and 86 (54%) were male (Table). One hundred and five (66%) patients had received a B-cell–depleting monoclonal antibody, most commonly rituximab (n = 85), daratumumab (n = 9), obinutuzumab (n = −7), or bispecific CD3/CD20 antibodies (n = 12). Sixty-three patients (39%, binomial exact 95% confidence interval [CI], 32%-47%) demonstrated seroconversion as evidenced by a positive SARS-CoV-2 total antibody assay. For the quantitative IgG assay (n = 47), patients with a negative qualitative assay result had median anti–COVID-19 IgG quantity of 8 AU/mL (interquartile range [IQR], 0.1-50.0 AU/mL), whereas those with a positive qualitative assay result had median 4289 AU/mL (IQR, 2661-12 586 AU/mL). Response to COVID-19 vaccine by the qualitative assay was significantly less frequent (30 of 105 [29%]) among patients previously exposed to B-cell/plasma cell-depleting monoclonal antibodies (risk difference [RD], 31%; 95% CI, 16%-47%; P < .001; Figure, A). It was significantly less frequent for patients with active malignant disease (22 of 88 [27%]) compared with those in remission after treatment (31 of 63 [49%]; RD, 22%; 95% CI, 7%-38%; P = .009) or those under watchful waiting without any receipt of cancer therapy (67%; RD, 40%; 95 CI, 14%-66%; P = .006, Figure B). Longer time from last chemotherapy administration to vaccination was associated with increased rates of seroconversion (median 8.4 vs 0 months, P = .005). Among patients who completed chemotherapy longer than 12 months before vaccination (n = 32), 69% showed seroconversion, compared with 24% among those who were vaccinated within 12 months of last treatment (n = 97). The quantitative antibody response to the COVID-19 vaccine was also lower among patients with exposure to B-cell/plasma cell–depleting antibodies (median IgG: 20.7 AU/mL and 489 AU/mL among those with or without antibody exposure, respectively; median IgM S/C index: 0.055 and 0.16, respectively) and those with active malignant disease (median IgG: 28 AU/mL, 1911 AU/mL, and 1950 AU/mL for those with active malignant disease, in remission after treatment, or under watchful waiting, respectively; median IgM signal-to-cutoff [S/C] ratio index: 0.03, 0.12, and 0.16, respectively). Three patients developed COVID-19 infections after vaccination (with no detectable post-vaccination antibodies) with 1 death.

    Discussion

    Prior studies demonstrate a nearly 100% rate of seroconversion in healthy participants receiving mRNA or adenovirus-based vaccines against COVID-19.5,6 This study is limited by its retrospective design and possible selection bias of patients who underwent clinical testing for postvaccination seroconversion. The qualitative test for anti–COVID-19 antibodies does not inform about T-cell–based immunity and has not been correlated with clinical outcomes related to potential COVID-19 infection. However, our findings raise a concern that patients with hematologic cancers, particularly those receiving B-cell–depleting immunotherapy, may not gain adequate protection from vaccination, and as observed in our cohort, may still develop a potentially fatal infection. These patients may benefit from ongoing protective measures, including masks, social distancing, and screening. Consideration should be made to prioritizing vaccination for family members and caregivers to protect the patients themselves. With possible infection, we recommend testing regardless of vaccination status, and treatment with COVID-19–specific monoclonal antibody therapy.

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    Article Information

    Accepted for Publication: July 12, 2021.

    Published Online: August 11, 2021. doi:10.1001/jamaoncol.2021.4381

    Corresponding Author: Thomas A. Ollila, MD, Alpert Medical School of Brown University, Rhode Island Hospital, George Bldg, Ste 310, 593 Eddy St, Providence, RI 02903 (thomas_ollila@brown.edu).

    Author Contributions: Dr Ollila had full access to all the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis.

    Concept and design: Ollila, Lu, Rogers, Olszewski.

    Acquisition, analysis, or interpretation of data: Ollila, Lu, Masel, Zayac, Paiva, Olszewski.

    Drafting of the manuscript: Ollila, Zayac, Paiva, Olszewski.

    Critical revision of the manuscript for important intellectual content: All authors.

    Statistical analysis: Olszewski.

    Administrative, technical, or material support: Ollila, Lu, Paiva, Rogers, Olszewski.

    Supervision: Ollila, Olszewski.

    Conflict of Interest Disclosures: Dr Olszewski reported research funding from Genentech, TG Therapeutics, Celldex Pharmaceuticals, and Precision Bio; grants from Acrotech Pharma, Adaptive Biotechnologies outside the submitted work. No other disclosures were reported.

    Additional Contributions: In addition to the listed authors, we acknowledge the following individuals for their assistance with this study, none of whom were compensated for his or her contributions and all of whom agree to include their names here: John L. Reagan, MD (Brown Alpert School of Medicine); Peter Barth, MD (Brown Alpert School of Medicine); Rabin Niroula, MD; Gerard J. Nau, MD, PhD (Brown Alpert School of Medicine); Rani Chudasama, MD (Brown Alpert School of Medicine); Inna Yakirevich, NP (Division of Hematology/Oncology, Rhode Island Hospital); and Christopher Elco, MD, PhD (Brown Alpert School of Medicine).

    References
    1.
    Baden  LR, El Sahly  HM, Essink  B,  et al; COVE Study Group.  Efficacy and safety of the mRNA-1273 SARS-CoV-2 vaccine.   N Engl J Med. 2021;384(5):403-416. doi:10.1056/NEJMoa2035389PubMedGoogle ScholarCrossref
    2.
    Polack  FP, Thomas  SJ, Kitchin  N,  et al; C4591001 Clinical Trial Group.  Safety and efficacy of the BNT162b2 mRNA Covid-19 vaccine.   N Engl J Med. 2020;383(27):2603-2615. doi:10.1056/NEJMoa2034577PubMedGoogle ScholarCrossref
    3.
    Ribas  A, Sengupta  R, Locke  T,  et al; AACR COVID-19 and Cancer Task Force.  Priority COVID-19 vaccination for patients with cancer while vaccine supply is limited.   Cancer Discov. 2021;11(2):233-236. doi:10.1158/2159-8290.CD-20-1817PubMedGoogle ScholarCrossref
    4.
    Paiva  KJ, Grisson  RD, Chan  PA,  et al.  Validation and performance comparison of three SARS-CoV-2 antibody assays.   J Med Virol. 2021;93(2):916-923. doi:10.1002/jmv.26341PubMedGoogle ScholarCrossref
    5.
    Stephenson  KE, Le Gars  M, Sadoff  J,  et al.  Immunogenicity of the Ad26.COV2.S Vaccine for COVID-19.   JAMA. 2021;325(15):1535-1544. doi:10.1001/jama.2021.3645PubMedGoogle ScholarCrossref
    6.
    Walsh  EE, Frenck  RW  Jr, Falsey  AR,  et al.  Safety and immunogenicity of two RNA-Based Covid-19 vaccine candidates.   N Engl J Med. 2020;383(25):2439-2450. doi:10.1056/NEJMoa2027906PubMedGoogle ScholarCrossref
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