BJH - volume 7, issue 3, june 2016
C. Springael MD, PhD, V. Delrieu MD, K.L. Wu MD, PhD, W. Schroyens MD, PhD, C. Bonnet MD, D. Bron MD, PhD, A. Janssens MD, PhD, On behalf of the BHS Lymphoproliferative Working Party
Large granular lymphocyte and prolymphocytic leukaemias are rare chronic lymphoproliferative disorders. Large granular lymphocyte leukaemias consist of indolent disorders such as T-cell large granular lymphocyte and chronic lymphoproliferative disorder of natural killer cells and the very rare but aggressive natural killer cell leukaemia. Treatment of the indolent large granular lymphocyte leukaemias is necessary in case of symptomatic cytopaenias or non-haematological autoimmune disorders. First line therapy of these two disorders is based on three immunosuppressive drugs: methotrexate, cyclophosphamide and cyclosporine A. Aggressive natural killer cell leukaemia needs an L-asparaginase containing regimen as induction followed by allogeneic stem cell transplantation to prolong remission. T-cell prolymphocytic leukaemia always follows an aggressive course even after an indolent onset. The optimal treatment strategy should exist of remission induction with alemtuzumab intravenously followed by autologous or allogeneic stem cell transplantation. Treatment indications for B-cell prolymphocytic leukaemia follow the criteria described by the chronic lymphocytic leukaemia guidelines. After induction with fludarabine, cyclophosphamide, rituximab or bendamustine in patients without a p53 mutation and/or a 17p deletion and alemtuzumab in case of a p53 mutation and/or a 17p deletion, stem cell transplantation must be considered.
(BELG J HEMATOL 2016; 7(3):103–11)
Read moreBJH - volume 6, issue 5, december 2015
K. Beel MD, PhD, M.C. Vekemans MD, G. Bries MD, PhD, J. Caers MD, PhD, B. De Pryck MD, K. Fostier MD, A. Kentos MD, PhD, N. Meuleman MD, PhD, P. Mineur MD, I. Van de Broek MD, PhD, K.L. Wu MD, PhD, C. Doyen MD, M. Delforge MD, PhD
Immunoglobulin light chain amyloidosis is a clonal plasma cell dyscrasia, historically associated with a very poor prognosis. Prompt diagnosis is critical to preserve organ function and improve survival in immunoglobulin light chain amyloidosis patients. The severity of cardiac involvement and response to treatment are the most important prognostic factors. Serum free light chain ratio and cardiac biomarkers troponin T and N-terminal pro-brain natriuretic peptide are powerful tools for the evaluation of prognosis and treatment response. Historically, treatment with autologous stem cell transplantation appears to offer a survival benefit, but is only an option in a minority of patients. IMiDs, and especially proteasome inhibitors, have shown promising activity in immunoglobulin light chain amyloidosis. Supportive care should be integrated in the treatment plan and requires a multidisciplinary approach. These guidelines summarise a consensus of the myeloma subcommittee of the Belgian Hematological Society on diagnosis, cytoreductive and supportive treatment of immunoglobulin light chain amyloidosis, based on an extended review of the literature. Where applicable, comments were added with respect to the Belgian reimbursement modalities.
(BELG J HEMATOL 2015;6(5):187–94)
Read moreBJH - volume 6, issue 4, october 2015
V. Van Hende MD, D. Bron MD, PhD, E. Van den Neste MD, PhD, C. Bonnet MD, M. André MD, PhD, A. Van Hoof MD, PhD, D. Dierickx MD, PhD, G. Verhoef MD, PhD, T. Tousseyn MD, PhD, A. Janssens MD, PhD, V. De Wilde MD, PhD, K.L. Wu MD, PhD, P. Heimann MD, PhD
Waldenström’s macroglobulinaemia is a B-cell disorder characterised by bone marrow infiltration with lymphoplasmacytic cells, along with demonstration of an IgM monoclonal gammopathy in the blood. This condition belongs to the lymphoplasmacytic lymphomas as defined by the World Health Organization classification (ICD-0 code 9671/3). Approximately one-fourth of patients are asymptomatic. Clinical features of the symptomatic patients are diverse and may relate to overall disease burden (such as peripheral blood cytopaenias, organomegaly and constitutional symptoms) or may be directly attributable to the IgM paraprotein. The latter include hyperviscosity syndrome, amyloidosis, peripheral neuropathy and cold haemagglutinin. Therapeutic options have traditionally involved alkylating agents, nucleoside analogues, and rituximab, either as single therapy or in combination. However, emerging new data on combination therapy as well as novel agents have shown encouraging results. This report provides the Belgian Hematology Society guidelines according to recent clinical studies.
(BELG J HEMATOL 2015;6(4):142–50)
Read moreBJH - volume 6, issue 2, may 2015
C. Bonnet MD, A. Janssens MD, PhD, K.L. Wu MD, PhD, W. Schroyens MD, PhD, V. Van Hende MD, P. Heimann MD, PhD, T. Tousseyn MD, PhD, M. André MD, PhD, D. Bron MD, PhD, A. Van Hoof MD, PhD, G. Verhoef MD, PhD, B. De Prijck MD, Y. Beguin MD, PhD, D. Dierickx MD, PhD
Burkitt’s lymphoma is a rare but very aggressive non-Hodgkin’s lymphoma characterised by an isolated translocation t(8;14)(q24;q32). The sporadic form is the sub-entity most frequently encountered in Belgium. Diagnosis and initial work-up must be completed rapidly to start treatment as soon as possible. Positron emission tomography scan is useful for initial staging and to evaluate the chemosensitivity of the tumour during and after treatment. After debulking, it is recommended to add rituximab to chemotherapy. Currently intensive short-cycle and low intensity chemotherapies are two valuable options. Radiotherapy is not indicated except in case of central nervous system involvement. Patients achieving complete remission must be followed carefully during the first year to detect recurrence of the disease. More than 80% of patients sustain their remission one year following initial treatment and are considered cured. For patients in partial remission or with chemosensitive relapse, autologous stem cell transplantation is recommended following re-induction with non-cross-resistant polychemotherapy. Monitoring complete blood counts and cognitive functions is important to detect late toxicity of the applied therapies.
(BELG J HEMATOL 2015;6(2):61–9)
Read moreBJH - volume 5, issue Abstract Book BHS, january 2014
J. Caers MD, PhD, M.C. Vekemans MD, I. Vande Broek MD, PhD, V. Maertens MD, P.H. Mineur , G. Bries MD, PhD, E. Vandeneste , G. Vanstraelen , K. Beel MD, PhD, F. Leleu , H. Demuynck MD, C. Scheurmans , A. Van De Velde MD, PhD, W. Schroyens MD, PhD, K.L. Wu MD, PhD, N. Meuleman MD, PhD, R. Schots MD, PhD, M. Delforge MD, PhD, C. Doyen MD