Please use this identifier to cite or link to this item: http://hdl.handle.net/11434/2036
Title: Survival outcomes for plasmablastic lymphoma: an international, multicentre study by the Australasian Lymphoma Alliance.
Epworth Authors: Yannakou, Costas
Other Authors: Polizzotto, Mark
Cwynarski, Kate
Burton, Cathy
Jiamsakul, Awachana
Bower, Mark
Kuruvilla, John
Montoto, Silvia
McKay, Pam
Osborne, Wendy
Miliken, Sam
Linton, Kim
Manos, Kate
Kassam, Shireen
Doo, Nicole
Watson, Anne-Marie
Fedele, Pasquale
Hunt, Stewart
Renshaw, Hanna
Thakrar, Nisha
Smith, Alexandra
Painter, Daniel
Maxwell, Alice
Liu, Qin
Dhairyawan, Rageshri
Ferguson, Graeme
Pickard, Keir
Hamad, Nada
Keywords: Plasmablastic Lymphoma (PBL)
Large Cell lymphoma
Plasma Cell Markers
Classical B Cell Markers
Overall Survival (OS)
Cox Regression
Risk Factors
Immunosuppressive Risk Factors
CHOP-Based Chemotherapy
Australasian Lymphoma Alliance
MYC Pathway
Multinational Retrospective Cohort
Epworth Centre for Immunotherapies and Snowdome Laboratories
Molecular Oncology and Cancer Immunology
Cancer Services Clinical Institute, Epworth HealthCare, Victoria, Australia
Issue Date: Dec-2020
Conference Name: ASH Meeting 2020
Conference Location: Georgia World Congress Center, Atlanta, Georgia, United States
Abstract: Plasmablastic lymphoma (PBL) is a rare, aggressive large cell lymphoma, first described in 1997. PBL is strongly associated with immunodeficient states, such as HIV infection and solid organ transplantation, but up to one third of cases are reported to occur in immunocompetent patients. The pathogenesis of PBL is incompletely understood, though the oncogenic impact of EBV, in particular in the context of dysregulated immune surveillance, together with acquired abnormalities in the MYC pathway appear to play key roles in many cases. Plasma cell markers such as CD138 and CD38 are typically positive, as well as CD30 in a significant subset. Classical B cell markers such as CD20, CD19 and PAX5 are typically absent. The literature on clinical outcomes in PBL is generally limited to small, single-centre case series. Reports describe an aggressive disease of poor prognosis, with median survival of 8 to 15 months, with one series reporting a longer median survival of 32 months. Methods We retrospectively identified patients diagnosed with PBL between 1999 and 2019 from 16 sites across Australia, the United Kingdom and Canada. Patients aged ≥18 years with confirmed tissue diagnosis of PBL at their local treating centre were included. Factors associated with overall survival (OS) were analysed using Cox regression, stratified by site to account for heterogeneity across sites. Risk time for mortality began on the date of diagnosis and ended on the date of death. Patients who were alive, lost to follow-up or transferred to another centre for care, were censored on the date of last follow-up. Risk factors analysed included age, year of diagnosis, HIV status, MYC rearrangement status, CD30 status, lactate dehydrogenase level, disease stage by Lugano consensus criteria, and bone marrow involvement. Results We identified 197 patients with PBL (Table 1). The median age at diagnosis was 55 years (range 18-95) and there was a male predominance (69%). 37% of patients were HIV positive, 56% were HIV negative and 7% were either not tested or had missing results. Other immunosuppressive risk factors included solid organ transplant, allogeneic stem cell transplant (SCT), and immunosuppressive medication. No immunodeficient state was detected in 44%. Fifty per cent of patients were stage IV at diagnosis. Fifty-four per cent were staged using PET/CT. The median follow-up time from diagnosis was 1.36 years, with the longest follow up out to 18.4 years. There were 87 deaths (44%). For patients receiving first-line treatment with curative intent, the rate of complete remission was 57% (103 of 181 patients). Most patients (53%) received CHOP (cyclophosphamide, doxorubicin, vincristine, prednisolone)-based chemotherapy as first line, and 27% treatment of higher intensity than CHOP. Rituximab was administered to 20% and 10% were exposed to proteasome inhibitors as part of first line therapy. Five percent of patients underwent autologous SCT in first remission, and a further 5% after first relapse or later. The median survival time was 4.8 years, with a 5-year OS of 49% and 10-year OS of 45% (figure 1). In multivariate analysis the only adverse factors associated with OS were bone marrow involvement and stage IV disease. Patients without bone marrow involvement at diagnosis had improved OS, compared to those who did (hazard ratio (HR) 0.36, 95%CI 0.18-0.72, p=0.004) (figure 2). There was an increasing trend for mortality with higher disease stages (p-trend=0.002). The median survival was 14.1 years for stage I, 10.7 years for stage II, 5.1 years for stage III and 1.2 years for stage IV. However, only stage IV disease was independently associated with inferior OS in multivariate analysis (HR 2.93, 95%CI 1.43-6.00, p=0.003) (figure 3). OS did not change depending upon year of diagnosis. Conclusion We report a multinational retrospective cohort of patients diagnosed with PBL and to our knowledge the largest single series of PBL to date. OS was longer than previously published data, particularly in patients with early-stage disease. However, patients with stage IV disease and baseline bone marrow involvement had inferior OS. HIV infection did not affect outcome. These findings suggest that baseline bone marrow biopsy and PET staging are useful prognostic tools. There is also an ongoing need for the evaluation of the predictive value of PET imaging and novel agents in PBL, especially in higher-risk disease.
URI: http://hdl.handle.net/11434/2036
Type: Conference Poster
Affiliated Organisations: Department of Haematology and Bone Marrow Transplantation, St Vincent's Hospital, Sydney, Australia
University of New South Wales, Sydney, Australia
The Kirby Institute, University of New South Wales, Sydney, NSW, Australia
Department of Haematology, University College Hospital, London, United Kingdom
Department of Haematology, St James University Hospital, Leeds, United Kingdom
National Centre for HIV Malignancy, Chelsea & Westminster Hospital, London, United Kingdom
The Princess Margaret Hospital, Toronto, ON, Canada
Department of Haemato-oncology, St Bartholomew's Hospital, Barts Health NHS Trust, London, United Kingdom
Beatson West of Scotland Cancer Centre, Glasgow, United Kingdom
Newcastle upon Tyne NHS Foundation Trust, Newcastle-upon-Tyne, United Kingdom
The Christie, Manchester, United Kingdom
University of Manchester, Manchester, United Kingdom
Manchester Academic Health Science Centre, Manchester, United Kingdom
Department of Haematology, Austin Health, Melbourne, Australia
King's College Hospital, London, United Kingdom
Concord Repatriation General Hospital, Sydney, NSW, Australia
University of Sydney, Sydney, NSW, Australia
Department of Haematology, Liverpool Hospital, Sydney, NSW, Australia
School of Clinical Sciences at Monash Health, Monash University, Clayton, Australia
Haematology Department, Monash Health, Clayton, Australia
Department of Haematology, Gold Coast University Hospital, Gold Coast, QLD, Australia
University College Hospital, London, United Kingdom
Epidemiology and Cancer Statistics Group, Department of Heath Sciences, University of York, York, United Kingdom
Chelsea & Westminster Hospital, London, United Kingdom
Department of Haematology, Princess Margaret Cancer Centre, Toronto, Canada
Department of Infection and Immunity, Barts Health NHS Trust, London, United Kingdom
Department of Haematology, Beatson West of Scotland Cancer Centre, Glasgow, United Kingdom
Faculty of Medicine, University of New South Wales, Sydney, Australia
Department of Haematology, St Vincent's Hospital, Sydney, Australia
Type of Clinical Study or Trial: Retrospective studies
Appears in Collections:Cancer Services
MOCI

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