Successful Combination of Remdesivir and Convalescent Plasma to Treat
a Patient with Rituximab-Related B-Cell Deficiency and Prolonged
COVID-19: A Case Report

Giorgio      Raho; William      Cordeddu; Davide      Firinu; Stefano      Del Giacco; Goffredo      Angioni

doi:10.2174/2211352520666220922091227

Abstract

Background: Treatment of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection in immuno-compromised patients with complete B cell depletion can be really challenging due to the lack of seroconversion and long-lasting disease.

Case Report: We describe a case of long-lasting coronavirus disease (COVID-19) in a female patient with rheumatoid arthritis who was treated with rituximab and continued to show B-cell depletion. An ongoing replication of SARS-CoV-2 was demonstrated for a period of 8 months when nasopharyngeal swabs were tested. She was treated once with remdesivir but without lasting resolution, and she was then treated with convalescent plasma but with a similar effect. Only with a combination of both treatments was clinical resolution achieved. The patient's lack of seroconversion and the prolonged course of the disease illustrate the importance of humoral immunity in resolving SARS-CoV-2 infection. This case report highlights challenges in managing immunocompromised hosts, who may act as persistent shedders and sources of transmission.

Conclusion: The combination of remdesivir and convalescent plasma resulted in successfully achieving clinical resolution of SARS-CoV-2 infection in our patient.

Keywords: SARS-CoV-2, COVID19, Immunocompromised, Rituximab, Convalescent Plasma

[1]
Wiersinga, W.J.; Rhodes, A.; Cheng, A.C.; Peacock, S.J.; Prescott, H.C. Pathophysiology, transmission, diagnosis, and treatment of coronavirus disease 2019 (COVID-19): A review. JAMA,  2020, 324(8), 782-793.
 [http://dx.doi.org/10.1001/jama.2020.12839] [PMID: 32648899]

[2]
Xiao, A.T.; Xin, T.Y.I.; Sheng, Z. Profile of RT-PCR for SARSCoV- 2: A preliminary study from 56 COVID-19 patients. Clin. Infect. Dis., 2020, 2250-2251. (manuscript published online ahead of print 19 August 2020). 

[3]
Jared, B.; Kerry, D.F.; James, E.; David, A.; Lauren, G.; Carl, B.; Alexander, B.; Adam, H.; Zachary, S.K.D.; Nathalie, B.; Yan, L.; Paul, G.V.C; Guillaume, P. Predicting infectious SARS-CoV-2 from diagnostic samples Clin. Infect. Dis., 2020, 8-9. (manuscript published online ahead of print 22 May 2020). 

[4]
Rhee, C.; Kanjilal, S.; Baker, M.; Klompas, S.K.; Meghan, B. Duration of SARS-CoV-2 infectivity: When is it safe to discontinue isolation. Clin. Infect. Dis.,  2020, 9-10. [manuscript published online ahead of print August 25, 2020].
 [PMID: 33029620]

[5]
Baang, J.H.; Christopher, S.; Carmen, M.; Valesano, A.L.; Manthei, D.M.; Bachman, M.A.; Wobus, C.E.; Michael, A.; Laraine, W.; Martin, E.T.; Lauring, A.S. Prolonged severe acute respiratory syndrome coronavirus 2 replication in an immunocompromised patient, JI Hoon Baang. J. Infect. Dis. 2020, 1.

[6]
Jérôme, A.; Elodie, D.; Eric, H.; Raphaèle, S.; Sophie, G-L.; Soumaya, E.M.; Edouard, P.; Thao, P.; Hubert, M.; Amélie, S.; Fanny, D.; Pascal, C.; Mathilde, D.; Pascal, C.; Vincent, L.; Arsène, M.; Alexandre, T.J.M.; Béatrice, B.; Bruno, F.; Jacques, P.; Thierry, T.; René-Marc, F.; Christophe, R. COVID-19 outcomes in patients with inflammatory rheumatic and musculoskeletal diseases treated with rituximab: A cohort study. Lancet Rheumatol.,  2021, 3(6), 421-422.

[7]
V’elez, I.O.; Bermejo, J.I.´.; P’erez, J.E.; Aguayo, L.I.; Ruiz, M.D.; García-Erce, J.A. Two patients with rituximab associated low gammaglobulin levels and relapsed covid-19 infections treated with convalescent plasma Irati ormazabal. Tranfus Apher Sci,  2021, 3-4.

[8]
WHO Covid 19 clinical management, 25 January 2020, 9.

[9]
Luu, V.P.; Vazquez, M.I.; Zlotnik, A. B cells participate in tolerance and autoimmunity through cytokine production. Autoimmunity,  2014, 47(1), 1-12.
 [http://dx.doi.org/10.3109/08916934.2013.856006] [PMID: 24245950]

[10]
Pateinakis, P.; Pyrpasopoulou, A. CD20+ B cell depletion in systemic autoimmune diseases: Common mechanism of inhibition or disease-specific effect on humoral immunity? Biomed. Res.,  2014, 2014, 973609.

[11]
Grøn, K.L.; Arkema, E.V.; Glintborg, B.; Mehnert, F.; Østergaard, M.; Dreyer, L.; Nørgaard, M.; Krogh, N.S.; Askling, J.; Hetland, M.L. Risk of serious infections in patients with rheumatoid arthritis treated in routine care with abatacept, rituximab and tocilizumab in Denmark and Sweden. Ann. Rheum. Dis.,  2019, 78(3), 320-327.
 [http://dx.doi.org/10.1136/annrheumdis-2018-214326] [PMID: 30612115]

[12]
Yun, H.; Xie, F.; Delzell, E.; Levitan, E.B.; Chen, L.; Lewis, J.D.; Saag, K.G.; Beukelman, T.; Winthrop, K.L.; Baddley, J.W.; Curtis, J.R. Comparative risk of hospitalized infection associated with biologic agents in rheumatoid arthritis patients enrolled in medicare. Arthritis Rheumatol.,  2016, 68(1), 56-66.
 [http://dx.doi.org/10.1002/art.39399] [PMID: 26315675]

[13]
Jesús, L.M.; Antía, G.F.; Fernando, L.G.; Verónica, G.G.; Laura, C.S.; Iván, B.G.; Andreína, T.T.; Alina, B.; Javier, B.C.; Mónica, V.D. High rates of severe disease and death due to SARS-CoV-2 infection in rheumatic disease patients treated with rituximab: A descriptive study. Rheumathol. Inter.,  2020, 40(12), 2015-2021.

[14]
Shields, A.M.; Burns, S.O.; Savic, S.; Richter, A.G.F. COVID-19 in patients with primary and secondary immunodeficiency: The United Kingdom experience. J. Allergy Clin. Immunol.,  2020, 147(3), 872-873.
 [PMID: 33338534]

[15]
Hueso, T.; Pouderoux, C.; Péré, H.; Beaumont, A.L.; Raillon, L.A.; Ader, F.; Chatenoud, L.; Eshagh, D.; Szwebel, T.A.; Martinot, M.; Camou, F.; Crickx, E.; Michel, M.; Mahevas, M.; Boutboul, D.; Azoulay, E.; Joseph, A.; Hermine, O.; Rouzaud, C.; Faguer, S.; Petua, P.; Pommeret, F.; Clerc, S.; Planquette, B.; Merabet, F.; London, J.; Zeller, V.; Ghez, D.; Veyer, D.; Ouedrani, A.; Gallian, P.; Pacanowski, J.; Mékinian, A.; Garnier, M.; Pirenne, F.; Tiberghien, P.; Lacombe, K. Convalescent plasma therapy for B-cell–depleted patients with protracted COVID-19. Blood,  2020, 136(20), 2290-2295.
 [http://dx.doi.org/10.1182/blood.2020008423] [PMID: 32959052]

[16]
Anna, F.; Gabriella, F.; Ludovica, C.; Elisa, V.; Roberto, R.; Filippo, G.; Piergiorgio, S. Dramatic response to convalescent hyperimmune plasma in association with an extended course of remdesivir in 4 B cell-depleted non-hodgkin lymphoma patients with sars-cov-2 pneumonia after rituximab therapy. Clin. Lymphoma Myeloma Leuk.,  2021, 21(9), e731-e735.

[17]
Gordon, C.J.; Tchesnokov, E.P.; Woolner, E.; Perry, J.K.; Feng, J.Y.; Porter, D.P.; Götte, M. Remdesivir is a direct-acting antiviral that inhibits RNA-dependent RNA polymerase from severe acute respiratory syndrome coronavirus 2 with high potency. J. Biol. Chem.,  2020, 295(20), 6785-6797.
 [http://dx.doi.org/10.1074/jbc.RA120.013679] [PMID: 32284326]

[18]
Meyts, I.; Bucciol, G.; Quinti, I.; Neven, B.; Fischer, A.; Seoane, E.; Lopez-Granados, E.; Gianelli, C.; Robles-Marhuenda, A.; Jeandel, P.Y.; Paillard, C.; Sankaran, V.G.; Demirdag, Y.Y.; Lougaris, V.; Aiuti, A.; Plebani, A.; Milito, C.; Dalm, V.A.S.H.; Guevara-Hoyer, K.; Sánchez-Ramón, S.; Bezrodnik, L.; Barzaghi, F.; Gonzalez-Granado, L.I.; Hayman, G.R.; Uzel, G.; Mendonça, L.O.; Agostini, C.; Spadaro, G.; Badolato, R.; Soresina, A.; Vermeulen, F.; Bosteels, C.; Lambrecht, B.N.; Keller, M.; Mustillo, P.J.; Abraham, R.S.; Gupta, S.; Ozen, A.; Karakoc-Aydiner, E.; Baris, S.; Freeman, A.F.; Yamazaki-Nakashimada, M.; Scheffler-Mendoza, S.; Espinosa-Padilla, S.; Gennery, A.R.; Jolles, S.; Espinosa, Y.; Poli, M.C.; Fieschi, C.; Hauck, F.; Cunningham-Rundles, C.; Mahlaoui, N.; Warnatz, K.; Sullivan, K.E.; Tangye, S.G. Coronavirus disease 2019 in patients with inborn errors of immunity: An international study. J. Allergy Clin. Immunol.,  2021, 147(2), 520-531.
 [http://dx.doi.org/10.1016/j.jaci.2020.09.010] [PMID: 32980424]

[19]
Jin, H.; Reed, J.C.; Liu, S.T.H.; Ho, H.; Lopes, J.P.; Ramsey, N.B.; Waqar, O.; Rahman, F.; Aberg, J.A.; Bouvier, N.M.; Cunningham-Rundles, C.; Liu, S.T.H.; Lin, H-M.; Abrams-Downey, A.; Cascetta, K.P.; Glatt, A.E.; Koshy, S.C.; Kojic, E.; Mazo, D.S.; Perlman, D.; Rudolph, S.; Steinberg, J.; Schneider, T.; Baine, I.; Wajnberg, A.; Gumprecht, J.P.; Rahman, F.; Rodriguez, D.; Sanky, C.; Dupper, A.; Altman, D.R.; Krammer, F.; Mendu, D.R.; Firpo-Betancourt, A.; Cordon-Cardo, C.; Jhang, J.S.; Arinsberg, S.A.; Reich, D.L.; Aberg, J.A.; Bouvier, N.M. Three patients with X-linked agammaglobulinemia hospitalized for COVID-19 improved with convalescent plasma. J. Allergy Clin. Immunol. Pract.,  2020, 8(10), 3594-3596.e3.
 [http://dx.doi.org/10.1016/j.jaip.2020.08.059] [PMID: 32947026]

[20]
Van Damme, K.F.A.; Tavernier, S.; Van Roy, N.; De Leeuw, E.; Declercq, J.; Bosteels, C.; Maes, B.; De Bruyne, M.; Bogaert, D.; Bosteels, V.; Hoste, L.; Naesens, L.; Maes, P.; Grifoni, A.; Weiskopf, D.; Sette, A.; Depuydt, P.; Van Braeckel, E.; Haerynck, F.; Lambrecht, B.N. Pieter DEVBFHBN. Lambrecht Case report: Convalescent plasma, a targeted therapy for patients with CVID and severe COVID-19. Front. Immunol.,  2020, 11, 596761.
 [http://dx.doi.org/10.3389/fimmu.2020.596761] [PMID: 33329586]

[21]
Schwaiger, J.; Karbiener, M.; Aberham, C.; Farcet, M.R.; Kreil, T.R. No SARS-CoV-2 neutralization by intravenous Immunoglobulins produced from plasma collected before the 2020 pandemic. J. Infect. Dis.,  2020, 222(12), 1960-1964.
 [http://dx.doi.org/10.1093/infdis/jiaa593] [PMID: 32941626]

[22]
Sharrocks, K.; Blane, E.; Briggs, J.A.G.; van Gils, M.J.; Smith, K.G.C.; Bradley, J.R.; Smith, C.; Doffinger, R.; Ceron-Gutierrez, L.; Barcenas-Morales, G.; Pollock, G.; Smielewska, A.; Skittrall, J.P.; Gouliouris, T.; Goodfellow, I.G.; Gkrania, K.E.; Illingworth, C.J.R.; McCoy, L.E.; Gupta, R.K.; Kemp, S.A.; Collier, D.A.; Datir Ferreira, I.A.T.M.; Gayed, S.; Jahun, A.; Hosmillo, M.; Rees-Spear, C.; Mlcochova, P.; Ines, U.L.; David, J.R.; Anita, C.; Temperton, N. The CITIID-NIHR BioResource COVID-19 Collaboration, The COVID-19 Genomics UK (COG-UK) Consortium, Neutralising antibodies in spike mediated SARS-CoV-2 adaptation. medRxiv,  2020, 19-20.

[23]
Richard, C.; Alina, B.; Elzbieta, W.; Kristen, E.P.; Stephanie, G.; Benjamin, O.F.; Anbo, Z.; Nicole, N.; Kathryn, L.; Newton, C.; Angel, C.; Joyce, C.; Min, N.; Yi, W.; Gurinder, S.A.; Annabel, R.H.; Kei, S.; Yi, Z.; Matthew, C.F.; Andrea, T.H.; Shane, M.; Sara, H.; Jennifer, D.H.; Hilary, M.S.; Kendra, A.; Ricardo, C.; Shazia, A.; Thomas, N.; Selin, S-K.; Sumathi, S.; Gary, A.H.; David, M.W.; Leah, L.; Neil, S.; Andrew, J.; George, D.Y.; Christos, A.K. Regeneron Pharmaceuticals, Inc.; The monoclonal antibody combination REGEN-COV protects against SARS-CoV-2 mutational escape in preclinical and human studies. Cell,  2021, 184(15), 3949-3961.e11.

Rights & Permissions Print Cite

Journal Information

For Authors

For Editors

For Reviewers

Explore Articles

Open Access

Open Access Articles

For Visitors

DOI https://dx.doi.org/10.2174/2211352520666220922091227	Print ISSN 2211-3525
Publisher Name Bentham Science Publisher	Online ISSN 2211-3533

Anti-Infective Agents

Successful Combination of Remdesivir and Convalescent Plasma to Treat a Patient with Rituximab-Related B-Cell Deficiency and Prolonged COVID-19: A Case Report

Abstract Play Pause

Related Journals

Related Books

Abstract