Prophylaxis and management of venous thromboembolism in patients with myeloproliferative neoplasms: consensus statement of the Haemostasis Working Party of the German Society of Hematology and Oncology (DGHO), the Austrian Society of Hematology and Oncology (ÖGHO) and Society of Thrombosis and Haemostasis Research (GTH e.V.).

Patients with Philadelphia chromosome-negative myeloproliferative neoplasms (MPN) like polycythemia vera and essential thrombocythemia are at increased risk of arterial and venous thrombosis. Strategies of prevention may consist of platelet aggregation inhibitors and/or cytoreductive agents depending on the underlying disease and the individual risk. Clinical evidence for management of acute venous thromboembolic events in MPN patients is limited. Modality and duration of therapeutic anticoagulation after venous thrombosis has to be evaluated critically with special regard to the increased risk for spontaneous bleeding events associated with the underlying diseases. Both for therapy of the acute event and for secondary prophylaxis, low-molecular-weight heparins should preferentially be used. A prolongation of the therapeutic anticoagulation beyond the usual 3 to 6 months can only be recommended in high-risk settings and after careful evaluation of potential risks and benefits for the individual patient. New direct oral anticoagulants (NOAC) should not preferentially be used due to lack of clinical experience in patients with MPN and potential drug interactions (e.g. with JAK inhibitors). Consequent treatment of the underlying myeloproliferative disease and periodical evaluation of the response to therapy is crucial for optimal secondary prophylaxis of thromboembolic events in those patients.

TNFα facilitates clonal expansion of JAK2V617F positive cells in myeloproliferative neoplasms.

Proinflammatory cytokines such as TNFα are elevated in patients with myeloproliferative neoplasms (MPN), but their contribution to disease pathogenesis is unknown. Here we reveal a central role for TNFα in promoting clonal dominance of JAK2(V617F) expressing cells in MPN. We show that JAK2(V617F) kinase regulates TNFα expression in cell lines and primary MPN cells and TNFα expression is correlated with JAK2(V617F) allele burden. In clonogenic assays, normal controls show reduced colony formation in the presence of TNFα while colony formation by JAK2(V617F)-positive progenitor cells is resistant or stimulated by exposure to TNFα. Ectopic JAK2(V617F) expression confers TNFα resistance to normal murine progenitor cells and overcomes inherent TNFα hypersensitivity of Fanconi anemia complementation group C deficient progenitors. Lastly, absence of TNFα limits clonal expansion and attenuates disease in a murine model of JAK2(V617F)-positive MPN. Altogether our data are consistent with a model where JAK2(V617F) promotes clonal selection by conferring TNFα resistance to a preneoplastic TNFα sensitive cell, while simultaneously generating a TNFα-rich environment. Mutations that confer resistance to environmental stem cell stressors are a recognized mechanism of clonal selection and leukemogenesis in bone marrow failure syndromes and our data suggest that this mechanism is also critical to clonal selection in MPN.

Circulating YKL-40 in Philadelphia-negative myeloproliferative neoplasms.

Objectives: Philadelphia-negative chronic myeloproliferative neoplasms (MPNs), essential thrombocythemia (ET), polycythemia vera (PV) and myelofibrosis (MF), are characterized by clonal myeloproliferation and a strong inflammatory atmosphere. YKL-40, expressed in granulocytes, macrophages, megakaryocytes and malignant cells, is an acute phase reactant with an important role in tissue remodeling and atherosclerotic inflammation. The aim of this study was to investigate serum YKL-40 levels in MPNs and to assess its clinical correlations. Methods: ELISA test was used to measure serum YKL-40 levels in 111 MPN patients and in 32 healthy controls. Results: Serum YKL-40 levels were higher in ET, post-ET MF, PV, post-PV MF and primary MF patients, when compared to healthy controls (p < 0.001). Higher serum YKL-40 levels were associated with parameters indicative of the increased inflammatory state (higher C-reactive protein, poor performance status, presence of constitutional symptoms and cardiovascular risk factors). Additionally, higher serum YKL-40 levels in MF patients were associated with blast phase disease, lower hemoglobin and higher Dynamic International Prognostic Scoring System score. In the multivariate Cox regression models, higher serum YKL-40 levels in ET and PV patients were independently associated with an increased risk of thrombosis (HR 4.64, p = 0.031) and impaired survival in MF patients (HR 4.31, p = 0.038). Conclusion: These results indicate that higher circulating YKL-40 levels in MPNs might have a pathophysiological role in disease progression and thrombosis development. Assessing circulating YKL-40 could help in identification of ET and PV patients at a high risk of future cardiovascular events and has a good potential for improving prognostication of MF patients.

Atypical chronic myeloid leukemia as defined in the WHO classification is a JAK2 V617F negative neoplasm.

Atypical chronic myeloid leukemia (aCML) as defined by the WHO classification is a rare hematopoietic stem cell disorder, which shows both myeloproliferative as well as myelodysplastic features. Because of the presence of neutrophilic leukocytosis, aCML may resemble chronic myelogenous leukemia. However, in contrast with the latter, aCML lacks a Philadelphia chromosome or the BCR/ABL fusion gene. The molecular pathogenesis of aCML and its relationship to other myeloproliferative neoplasms is unknown. To clarify these points, the presence of JAK2 V617F was examined by a retrospective analysis of archival specimens obtained from two large medical institutions. Paraffin-embedded bone marrow (BM) trephines and clot sections were examined by an allele-specific TaqMan PCR suitable for use with decalcified tissue. Fifty-nine cases of Philadelphia (Ph) chromosome negative chronic myeloproliferative neoplasms (CMPN) and normal bone marrows (BM) served as controls. None of the nine amplifiable cases of aCML and none of the normal BM controls showed a JAK2 V617F mutation, in contrast to 45/59 (76%) of the Ph chromosome negative CMPN cases. Atypical CML should therefore be considered as a JAK2 negative chronic myeloid neoplasm that remains properly categorized, alongside chronic myelomonocytic leukemia and juvenile myelomonocytic leukemia, within the WHO group of myelodysplastic/myeloproliferative neoplasms.

Association of JAK2V617F mutation with thrombosis in Indian patients with Philadelphia negative chronic myeloproliferative neoplasms.

BACKGROUND: : It is still a matter of debate regarding the association of JAK2V617F mutation with thrombosis in BCR-ABL negative CMPN patients. The role of JAK2V617F mutation in increasing the thrombotic risk in CMPNs is yet unequivocal. AIMS: : To clarify the contribution of JAK2V617F mutation in thrombosis in CMPN patients. SETTINGS AND DESIGN: This retrospective study was done to evaluate role of JAK2V617F mutation in thrombosis in CMPNs. MATERIALS AND METHODS: 65 CMPN patients (PV, ET and PMF) were analyzed for JAK2V617F mutation using ARMS-PCR and detailed history of thrombosis was recorded in these patients. STATISTICAL ANALYSIS: P values were 2 tailed, and statistical significance was set at P < 0.05. RESULTS: : 46/65 were males and 19/65 were females [M: F: 2.4:1] with median age 46 years [range, 14-80 years]. Patients had median Hb 15.6 g/dl [range, 5.1-20.3], median TLC 10.7 × 109/l [range 2.4-216] and platelet count 360 × 109/l [range, 20-1859]. 32 were JAK2V617F positive and 33 were negative for this mutation. On comparing the prevalence of thrombosis in JAK2V617F positive patients with JAK2V617F negative patients, we observed that 20/32 (62.5%) JAK2V617F positive patients had thrombosis as compared to 16/33 (48%) in JAK2V617F negative patients (P = 0.04). We observed significant association of JAK2V617F mutation with thrombosis, however no association of this mutation with thrombosis was observed among the JAK2V617F negative patients. CONCLUSION: Our study suggests that JAK2V617F mutation may increase the risk of thrombosis in CMPNs. This finding could lead to risk stratification, setting up the treatment strategy in CMPNs.

The detection of Philadelphia chromosome negative metaphases in long-term bone marrow cultures of the peripheral blood from patients with chronic myeloid leukemia predicts response to interferon-alpha 2a.

The cytogenetic response of 10 patients with chronic myeloid leukaemia (CML) to human recombinant interferon-alpha 2a (rhIFN alpha 2a) was compared to the Philadelphia chromosome (Ph) status of the pre-treatment peripheral blood cells after in vitro culture under long-term bone marrow culture (LTBMC) conditions. Pre-treatment light density peripheral blood cells were cultured in LTBMC on sex-mismatched irradiated allogeneic stromal layers with weekly cytogenic examination of metaphases in the non-adherent cell fraction. This was correlated with the patients' response to rhIFN alpha. Two groups of patients, five showing a cytogenetic response (responsive) and five who failed to achieve a cytogenetic response (nonresponsive) were studied. At the initiation of the LTBMCs the Ph' was found to be present in 100% of the cells analysed for nine patients and 97% for one patient. Pretreatment peripheral blood from four responsive patients demonstrated a decline in the proportion of Ph'-positive cells (Ph+) after 1 to 2 weeks in LTBMC. In contrast, peripheral blood from all the non-responsive subjects showed persistence of the Ph+ clone in 100% of the cells analysed out to a maximum of 3 to 5 weeks in LTBMC. A significant difference was observed (Fisher exact test, p = 0.023) between the two patient groups in respect to the appearance of normal clones in the nonadherent population. The presence of Ph- metaphases in LTBMC of peripheral blood cells of CML patients may predict their cytogenetic response to rhIFN alpha 2a.

Cytogenetic status pre-transplant as a predictor of outcome post bone marrow transplantation for chronic myelogenous leukaemia.

We have analysed pre-transplant cytogenetic findings in 418 patients with CML in pre-blastic phase who underwent allogeneic BMT between February 1981 and January 1998. Five different patient groups were identified: A = Philadelphia (Ph)+; B = Ph-, BCR-ABL+; C = variant Ph (VPh); D = Ph chromosome plus at least one of: trisomy 8, +Ph, chromosome 17 abnormalities and E = other abnormalities in addition to the Ph chromosome. There were two principal conclusions. Firstly, Ph- patients showed a better outcome, and VPh patients a worse outcome, than those with a standard Ph, both in terms of leukaemia-free survival (LFS) (76.9%, 22.1% and 31.9%) and the risk of treatment failure relative to those with a standard Ph (relative risks of 0.49 and 1.92, respectively). One contributing factor may be relapse: no Ph- patients relapsed, whereas all other groups showed similar probabilities of relapse at 5 years (range 33.0-44. 0%). Secondly, those with the additional changes of +8, +Ph and i(17q) did not show a worse outcome than those with no additional changes (5 year survival of 44.7% vs 51.8%; 5 year LFS of 40.6% vs 31.9%), whereas those with other additional changes may fare worst of all (40.4% and 16.0%, respectively). Bone Marrow Transplantation (2000) 25, 143-146.

Philadelphia chromosome-negative chronic myelogenous leukemia and chronic myelomonocytic leukemia.

Philadelphia chromosome (Ph)-negative chronic myelogenous leukemia (CML) and chronic myelomonocytic leukemia (CMML) are heterogeneous disorders characterized by various degrees of proliferation, dysplasia, maturation arrest, and monocytosis. In this article, the clinical, laboratory, molecular, and therapeutic aspects of the disease entities are reviewed.

[T lymphoblastic leukemia with leukemoid reaction or the extramedullary blast crisis of Philadelphia chromosome-negative chronic myeloid leukemia? Comments apropos 2 cases]. / Linfoma linfoblástico T con reacción leucemoide o crisis blástica extramedular de la leucemia mieloide crónica cromosoma Filadelfia negativa? Consideraciones a propósito de dos casos.

Reactive leukocytosis has been reported in patients with non-Hodgkin's lymphoma of different histologic types. On the other hand, the blastic crisis of chronic myelocytic leukemia (CML) can sometimes be localized outside the bone marrow and simulate lymphoma, particularly when the blasts are of lymphoid lineage and the blastic crisis is the presenting feature of the disease. We report two patients in whom the differential diagnosis between lymphoblastic lymphoma with reactive leukocytosis and blastic crisis of CML outside the bone marrow was raised. They were two males aged 32 and 22 years, respectively, with lymphadenopathy (and one with splenomegaly), who were initially diagnosed of T lymphoblastic lymphoma. In both cases, leukocytosis was detected with myelemia and dysgranulopoiesis in the onset in one of them and when lymphadenopathy reappeared after remission in the other one. In addition, one patient had marked eosinophilia. In the bone marrow there was marked granulopoietic hyperplasia, with a reduction of fatty cells, and the granulocyte alkaline phosphatase index was reduced. However, the cytogenetic study did not disclose the existence of Philadelphia (Ph) chromosome, and bcr/abl molecular rearrangement was also not observed in the molecular study of both cases. We discuss the basic aspects of differential diagnosis between T lymphoblastic lymphoma with leukemoid reaction and T lymphoid lymphadenopathic blastic crisis of Ph-negative, bcr/abl-negative CML.

[Philadelphia chromosome-negative chronic myelogenous leukemia with trisomy 13].

Trisomy 13, as a sole karyotypic abnormality in acute leukemia, has been reported in several cases. However, in chronic myelogenous leukemia (CML), only two cases with this abnormality were reported so far. We describe herein a 68-year-old case with Philadelphia chromosome-negative CML and trisomy 13. Leukocytosis was pointed out during the treatment for other diseases. After 7 months, abrupt increase in leukocyte count (108,000/microliters) and splenomegaly developed. Decreased neutrophil alkaline phosphatase activity and morphological features fulfilled the diagnostic terms for CML. However, the karyotypic analysis revealed trisomy 13 instead of Philadelphia chromosome, and the BCR gene rearrangement was not detected. In cases with acute leukemia accompanied by trisomy 13, malignant transformation of an immature hematopoietic precursor cell has been suggested by the expression of antigens characteristic of both the myeloid and lymphoid lineage. In a few cases with myelodysplastic syndrome, a multipotent stem cell disorder, trisomy 13 has also been reported. From these standpoints, there might be a possibility that trisomy 13 as a sole abnormality in hematologic disorders would be related to tumorigenesis in the levels of multipotent stem cells.

[The chronic Philadelphia chromosome-negative myeloproliferative syndrome I. Pathogenesis and pathophysiology]. / Det kroniske Philadelphia-kromosom-negative myeloproliferative syndrom I. Patogenese og patofysiologi.

In polycythaemia vera (PV) the erythroid progenitors proliferate autonomously independently of the circulating erythropoietin. The progenitors are hypersensitive to various growth factors, including insulin-like growth factor 1, which inhibits apoptosis in erythroid and myeloid progenitor cells. No change has been found in the erythropoietin (EPO) receptor. Thrombopoietin (Tpo) regulates the production of haematopoietic progenitor cells, particularly of platelets. By inhibiting apoptosis, this growth factor may be responsible for the autonomous proliferation of the megakaryocyte cell lineage in PV and idiopathic myelofibrosis (IMF), which are featured by highly elevated circulating Tpo levels. Thrombopoietin may also be involved in the pathogenesis of myelofibrosis and development of extramedullary haematopoiesis. Both fibrogenesis and angiogenesis in the bone marrow, spleen, and liver develop secondary to the release of various growth-promoting factors from the megakaryocyte cell lineage. The lesion of the pluripotent stem cell in PV and IMF seems to imply several defects, including lack of or decreased expression of the Tpo receptor, alterations in the sensitivity of progenitor cells to various growth factors, and alterations in important gene systems (Bcl-2), which govern cell survival. Essential thrombocytosis seems to be a heterogeneous disease entity, as about 50% of the patients have polyclonal haematopoiesis.

[Acute thrombotic complication at the debute of the Philadelphia chromosome-negative myeloproliferative syndrome]. / Akut trombotisk komplikation ved debut af det Philadelphia-kromosom-negative myeloproliferative syndrom.

METHODS: We describe eight patients with a diagnosis of a chronic myeloproliferative disorder, characterised in most patients by severe thrombotic complications at the debut of the disease. RESULTS: The symptoms were life-threatening in seven patients: acute upper gastrointestinal haemorrhage from oesophageal varices in four, an acute abdominal catastrophy owing to mesenteric vein thrombosis with intestinal gangrene in two, and a large cerebral infarction, which was lethal, in one. The same patient also suffered a thrombosis of the axillary and subclavian veins. Neurological symptoms, with headache, visual disturbances, dizziness, and impaired memory, were initial cardinal symptoms. In two patients, explorative laparotomy was performed with intestinal resection owing to gangrene. One patient had a toe amputation. DISCUSSION: The above symptoms are explained by thrombosis in the microcirculation because of thrombocytosis and circulating platelet aggregates. In patients with polycythaemia vera, the elevated haematocrit contributes significantly to the impaired microcirculation. Early diagnosis and management of these disorders are of utmost importance to prevent the potentially life-threatening complications described above.

[Does Ph'-negative chronic myeloleukemia exist?]. / Sushchestvuet li Ph'-otritsatel'nyi khronicheskii mieloleikoz?

The authors have presented the current data on so-called Ph'-negative chronic myeloleukemia (CML). A detailed clinico-hematologic analysis has proved that most of patients with unchanged chromosome 22 have other myeloproliferative disease, most often it is chronic myelomonocytic leukemia. In some CML patients Ph'-chromosome is masked as a result of translocations, in other patients, although chromosome 22 is unchanged, the molecular-genetic marker of CML--chimera bcr/c-abl-gene, is detected on chromosome 22 or some other chromosome. It has been noted that only in rare cases of typical CML characteristic cytogenetic and molecular-genetic changes are absent. Further investigations should be conducted in the group of patients studied.

Clinical risk factors of thrombosis in patients with Ph-negative myeloproliferative neoplasms, who had experienced radiation exposure due to the Chornobyl accident.

OBJECTIVE: The objective of this study was to determine the predictive value of a factor of age over 60 years, history of thrombosis, and cardiac risk factors (CRF) for the thrombosis in patients with Ph-negative myeloproliferative neoplasm (Ph-negative MPN), namely the essential thrombocythemia (ET), polycythemia vera (PV) and primary myelofibrosis (IMF), who had experienced radiation exposure due to the Chornobyl accident and without radiation anamnesis. MATERIALS AND METHODS: There were 216 patients with Ph-negative MPN included in the study. Prevalence of thrombosis and presence of CRF were determined by processing the medical documentation. RESULTS: The age older than 60 years (RR=1.73, 95% confidence interval [CI] 1.00-2.98; p=0.043 and RR=2.04, 95% CI =1.12-3.68; p=0.02) and CRF (RR=2.25, 95% CІ =1.21-4.16; p=0.005 and RR=2.31, 95% CІ =1.20-4.41; p=0.008) are predictors of thrombosis in all patients with PV and with spontaneous PV, respectively. Age over 60 years and CRF in all patients with ET associates with an increase of the relative risk of thrombosis (RR=2.5, 95% CІ =1.05-5.92; p=0.047 and RR=2.74, 95% CІ =1.18-6.23; p=0.026). Frequency of recurrent thrombotic complications in patients with ET and thrombosis in anamnesis is significantly higher than in patient's without history of thrombotic complication (RR=2.75, 95% CІ =1.15-6.51; p=0.035). CONCLUSIONS: Our findings confirm previous results of other studies reporting that the age over 60 years, history of thrombosis, CRF influences on thrombosis development in Ph-negative MPN patients.

Hemopoiesis in Ph-negative chronic myeloproliferative disorders.

Chronic myeloproliferative disorders (cMPDs) are clonal hemopoietic malignancies arising at the multipotent stem cell level. These conditions are characterized by increased blood count, marrow hyperplasia and extramedulary hemopoiesis. Vascular events might complicate their course, and transformation to either acute leukemia or myelofibrosis can finally occur. Among cMPDs, Polycythemia Vera (PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF) belong to the group of Ph-negative cMPDs. Although they share common pathogenetic features, these entities have a quite different prognosis. The common pathogenetic basis of Ph-negative cMPDs was recognized long ago, and it was suggested that a stimulating factor might enhance bone marrow hemopoietic activity. Hemopoietic progenitors from cMPDs show hypersensitivity to low levels of a variety of hemopoietic cytokines. The independency of erythroid precursors from erythropoietin became the first surrogate marker of an abnormal hemopoietic clone. This clone is characterized by increased proliferation and survival, as well as by decreased apoptosis, leading to the accumulation of mature blood cells that additionally show a phenotype of activated cells. Recently four independent groups have described an activating point mutation in the JAK2 kinase as a key pathogenetic event in Ph-negative cMPDs. JAK2 is a tyrosine kinase that acts as a second intracellular messenger for many hemopoietic cytokine receptors. It is now believed that jacking up hemopoiesis can explain many features of myeloproliferation. Interestingly, some features are associated with intracellular levels of mutated JAK2 (the "dosage hypothesis"). The mutation in JAK2 kinase is not an example of a genetic defect leading to a single disease, since it occurs in many other myeloid disorders, and probably represents a secondary hit in a multistep ongogenetic process. Nevertheless, it has changed the way we approach cMPD patients and has clarified many aspects of their biology.

Durable responses to imatinib in patients with PDGFRB fusion gene-positive and BCR-ABL-negative chronic myeloproliferative disorders.

Fusion genes derived from the platelet-derived growth factor receptor beta (PDGFRB) or alpha (PDGFRA) play an important role in the pathogenesis of BCR-ABL-negative chronic myeloproliferative disorders (CMPDs). These fusion genes encode constitutively activated receptor tyrosine kinases that can be inhibited by imatinib. Twelve patients with BCR-ABL-negative CMPDs and reciprocal translocations involving PDGFRB received imatinib for a median of 47 months (range, 0.1-60 months). Eleven had prompt responses with normalization of peripheral-blood cell counts and disappearance of eosinophilia; 10 had complete resolution of cytogenetic abnormalities and decrease or disappearance of fusion transcripts as measured by reverse transcriptase-polymerase chain reaction (RT-PCR). Updates were sought from 8 further patients previously described in the literature; prompt responses were described in 7 and persist in 6. Our data show that durable hematologic and cytogenetic responses are achieved with imatinib in patients with PDGFRB fusion-positive, BCR-ABL-negative CMPDs.

Heterogeneous features of Ph-negative CML--possible existence of Ph-negative, bcr-rearrangement-negative CML.

We have examined eight patients with Ph-negative chronic myelocytic leukemia (CML). Two of the patients had the same molecular abnormalities as well as the same clinical and hematological features as those of Ph-positive CML. The other six patients showed no genomic rearrangement. This group was hematologically divided into four subgroups, namely chronic myelomonocytic leukemia, undifferentiated chronic myeloproliferative disorder, chronic neutrophilic leukemia and CML-like syndrome. This last subgroup resembled Ph-positive CML in many points except for rather moderate proliferation of granulocyte lineage, and it was difficult to clinically separate it from Ph-positive CML.