Bone marrow histopathology and biological markers as specific clues to the differential diagnosis of essential thrombocythemia, polycythemia vera and prefibrotic or fibrotic agnogenic myeloid metaplasia

Clinical, hematological and morphological peripheral blood and bone marrow characteristics, in particular, megakaryopoiesis and bone marrow cellularity, reveal diagnostic clues and pathognomonic features, which enable a clear-cut distinction between essential thrombocythemia (ET), polycythemia vera (PV) and prefibrotic and fibrotic agnogenic myeloid metaplasia (AMM). The characteristic increase of enlarged mature megakaryocytes with mature cytoplasm and multilobulated nuclei and their tendency to cluster in a normal or slightly increased cellular bone marrow represent the hallmark of ET. The characteristic increase and clustering of enlarged mature and pleiomorphic megakaryocytes with multilobulated nuclei and proliferation of erythropoiesis in a moderate to marked hypercellular bone marrow with hyperplasia of dilated sinuses are the specific diagnostic features of untreated PV. ET may precede PV for many years to more than one decade. Prefibrotic and fibrotic AMM appears to be a distinct dual proliferation of abnormal megakaryopoiesis and myelopoiesis. The histopathology of the bone marrow in prefibrotic and fibrotic AMM is dominated by atypical enlarged and immature megakaryocytes with cloud-like immature nuclei, which are not seen in ET and PV at diagnosis and during follow-up. Myelofibrosis is not a feature of ET at diagnosis and during long-term follow-up. Myelofibrosis, which is secondary to the megakaryocytic/granulocytic myeloproliferation, and extramedullary myeloid metaplasia constitute a prominent feature and usually progress more or less rapidly during the natural history of PV and AMM. Life expectancy is normal in ET, normal in the first and decreased in the second decade of follow-up in PV, but significantly shortened in thrombocythemia associated with prefibrotic AMM as well as in the various fibrotic stages of AMM. These clinical and pathological characteristics of the Ph-negative MPDs, by including bone marrow histopathology, enable a clear-cut distinction between ET, PV and prefibrotic and fibrotic AMM. The use of established and new biological markers of MPDs, like spontaneous EEC, PRV-1 gene expression etc, should be validated in large prospective multicenter studies of newly diagnosed and previously treated MPD patients using the proposed European clinical and pathological (ECP) criteria as the only gold standard available for the proper diagnosis and differential diagnosis of ET, PV and AMM.     

Clinical and pathological criteria for the diagnosis of essential thrombocythemia,polycythemia vera,and idiopathic myelofibrosis (agnogenic myeloid metaplasia)

A set of clinical and pathological criteria for the diagnosis and staging of Philadelphia chromosome-negative myeloproliferative disorders (Ph(1-)-MPDs) is presented by including bone marrow histopathology as a significant tool to identify the early, manifest, and advanced stages of essential thrombocythemia (ET), polycythemia vera (PV), and idiopathic myelofibrosis/agnogenic myeloid metaplasia (IMF/AMM). This combined approach provides a pathognomonic clue to each of the different subtypes of Ph(1-)-MPDs and further enables recognition of the various steps in the evolution of the myeloproliferative process Increase and clustering of giant to large megakaryocytes with mature cytoplasm and multilobulated staghorn-like nuclei in a normal or only slightly increased cellular bone marrow represent major hallmarks of ET. Loose assemblies of small to giant pleiomorphic megakaryocytes containing deeply lobulated nuclei together with a proliferation of erythro- and granulopoiesis (panmyelosis) are the specific lesions of PV. The initial prefibrotic and the overt and more advanced myelofibrotic stages of IMF/AMM show a pronounced proliferation of an abnormal megakaryo- and granulopoiesis dominated by clustered atypical medium-sized to giant megakaryocytes with cloud-like, bulbous, and often hyperchromatic nuclei, which are not seen in allied subtypes of MPDs including chronic myeloid leukemia (Ph(1+)-CML) and myelodysplastic syndromes (MDS). The presented clinical and pathological criteria modify the Polycythemia Vera Study Group (PVSG) proposals for the Ph(1-)-MPDs by including bone marrow histopathology and are in keeping with features outlined in the new World Health Organization classification. The latter allows the differentiation of true ET from reactive thrombocytosis and from thrombocythemias as an eventually presenting finding in PV, IMF/AMM, MDS, and Ph(1+)-CML. Moreover, these diagnostic guidelines are able to separate latent and early PV from secondary erythrocytosis and to detect the prefibrotic and early stages of IMF/AMM. Myelofibrosis is not a feature of ET and is rarely observed in PV at time of diagnosis, but it becomes apparent during long-term follow-up and constitutes a prominent lesion during the course of IMF/ AMM. Life expectancy is almost normal in ET and is also not significantly altered during the first, but compromised during the second, decade of follow-up in PV. On the other hand, survival is substantially shortened in IMF/AMM, even for patients with thrombocythemia as a frequent finding of prefibrotic and early stage IMF/AMM.     

PVSG and WHO vs European Clinical,Molecular and Pathological Criteria for prefibrotic myeloproliferative neoplasms

The Polycythemia Vera Study Group (PVSG), World Health Organization (WHO) and European Clinical, Molecular and Pathological (ECMP) classifications agree upon the diagnostic criteria for polycythemia vera (PV) and advanced primary myelofibrosis (MF). Essential thrombocythemia (ET) according to PVSG and 2007/2008 WHO criteria comprises three variants of JAK2^V617F mutated ET when the ECMP criteria are applied. These include normocellular ET, hypercellular ET with features of early PV (prodromal PV), and hypercellular ET due to megakaryocytic, granulocytic myeloproliferation (ET.MGM). Evolution of prodromal PV into overt PV is common. Development of MF is rare in normocellular ET (WHO-ET) but rather common in hypercellular ET.MGM. The JAK2^V617F mutation burden in heterozygous mutated normocellular ET and in heterozygous/homozygous or homozygous mutated PV and ET.MGM is of major prognostic significance. JAK2/MPL wild type ET associated with prefibrotic primary megakaryocytic and granulocytic myeloproliferation (PMGM) is characterized by densely clustered immature dysmorphic megakaryocytes with bulky (bulbous) hyperchromatic nuclei, which are never seen in JAK2^V617F mutated ET, and PV and also not in MPL⁵¹⁵ mutated normocellular ET (WHO-ET). JAK2^V617 mutation burden, spleen size, LDH, circulating CD34⁺ cells, and pre-treatment bone marrow histopathology are mandatory to stage the myeloproliferative neoplasms ET, PV, PMGM for proper prognosis assessment and therapeutic implications. MF itself is not a disease because reticulin fibrosis and reticulin/collagen fibrosis are secondary responses of activated polyclonal fibroblasts to cytokines released from the clonal myeloproliferative granulocytic and megakaryocytic progenitor cells in ET.MGM, PV and PMGM.     

Clinical, pathological and molecular features of the chronic myeloproliferative disorders: MPD 2005 and beyond

The combined use of bone marrow histopathology, biomarkers and clinical features has the potential to diagnose, stage and distinguish early and overt stages of ET, PV and idiopathic myelofibrosis, that has an important impact on prognosis and treatment of MPD patients. As the extension of the PVSG and WHO for ET, PV and agnogenic myeloid metaplasia (AMM), a new set of European clinical and pathological (ECP) criteria clearly distinct true ET from early or latent PV mimicking true ET, overt and advanced polycythemia vera (PV), and from thrombocythemia associated with prefibotic, early fibrotic stages of chronic megakaryocytic granulocytic metaplasia (CMGM) or chronic idiopathic myelofibrosis (CIMF). Cases of atypical MPD and masked PV are usually overlooked by clinicians and pathologists. Bone marrow biopsy will not differentiate between post-PV myelofibrosis versus so-called classical agnogenic myeloid metaplasia. The recent discovery of the JAK2 V617F mutation can readily explain the trilinear megakaryocytic, erythroid and granulocytic proliferation in the bone marrow, but also the etiology of the platelet-mediated microvascular thrombotic complications at increased platelet counts and red cell mass in essential thrombocythemia and polycythemia vera.     

Follow-up examinations including sequential bone marrow biopsies in essential thrombocythemia (ET): a retrospective clinicopathological study of 120 patients

Diagnosis of essential thrombocythemia (ET) has been usually established by regarding the criteria of the Polycythemia Vera Study Group. Accordingly, a retrospective clinicopathological study was performed on 120 patients with a follow-up ranging between 5 and 13 years and repeated bone marrow trephine examinations. Following the new WHO classification, at presentation patients revealed three distinctive patterns of bone marrow (BM) features: (true) ET in 43 patients, prefibrotic idiopathic myelofibrosis (IMF) in 50 patients, and early IMF in 27 patients. Heterogeneity of morphological features was associated with correspondingly expressed laboratory data. Contrasting initial and early IMF, patients with true ET displayed an about 80% probability to lack splenomegaly, anemia, and increase in the LDH and LAP values and also failed to show any myeloblasts or erythroblasts on the peripheral blood films. Follow-up examinations including sequential BM biopsies (mean interval 39 +/- 31 months) disclosed that of the 43 patients with true ET only one developed an increase in reticulin. On the other hand, 65 of 77 patients with prefibrotic and early IMF evolved into overt myelofibrosis-osteosclerosis. Moreover, survival analysis demonstrated significant differences in our patients. A neglectable proportion of life loss according to a sex- and age-matched general population was found in true ET (less than 11%) opposed to IMF without or mild fibrosis (range 21% to 32%).     

European vs 2015-World Health Organization clinical molecular and pathological classification of myeloproliferative neoplasms

The BCR/ABL fusion gene or the Ph~1-chromosome in the t(9;22)(q34;q11)exerts a high tyrokinase acticity,which is the cause of chronic myeloid leukemia(CML).The1990 Hannover Bone Marrow Classification separated CML from the myeloproliferative disorders essential thrombocythemia(ET),polycythemia vera(PV)and chronic megakaryocytic granulocytic myeloproliferation(CMGM).The 2006-2008 European Clinical Molecular and Pathological(ECMP)criteria discovered 3variants of thrombocythemia:ET with features of PV(prodromal PV),"true"ET and ET associated with CMGM.The 2008 World Health Organization(WHO)-ECMP and 2014 WHO-CMP classifications defined three phenotypes of JAK2~(V617F)mutated ET:normocellular ET(WHO-ET),hypercelluar ET due to increased erythropoiesis(prodromal PV)and ET with hypercellular megakaryocytic-granulocytic myeloproliferation.The JAK2~(V617F)mutation load in heterozygous WHO-ET is low and associated with normal life expectance.The hetero/homozygous JAK2~(V617F)mutation load in PV and myelofibrosis is related to myeloproliferative neoplasm(MPN)disease burden in terms of symptomaticsplenomegaly,constitutional symptoms,bone marrow hypercellularity and myelofibrosis.JAK2 exon 12mutated MPN presents as idiopathic eryhrocythemia and early stage PV.According to 2014 WHO-CMP criteria JAK2 wild type MPL~(515)mutated ET is the second distinct thrombocythemia featured by clustered giant megakaryocytes with hyperlobulated stag-horn-like nuclei,in a normocellular bone marrow consistent with the diagnosis of"true"ET.JAK2/MPL wild type,calreticulin mutated hypercellular ET appears to be the third distinct thrombocythemia characterized by clustered larged immature dysmorphic megakaryocytes and bulky(bulbous)hyperchromatic nuclei consistent with CMGM or primary megakaryocytic granulocytic myeloproliferation.     

The impact of peripheral blood values and bone marrow findings on prognosis for patients with essential thrombocythemia and polycythemia vera

The Philadelphia chromosome-negative (Ph-) chronic myeloproliferative neoplasms include the three well-known clinical entities polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF). Over time, patients with ET and PV may develop myelofibrosis (MF), and all three entities carry a risk of transformation into acute myeloid leukemia (AML). In a population-based survey during 1983-1999, we studied a total of 358 patients who were diagnosed with ET and PV in the city of Gothenburg, Sweden. At the time of diagnosis, evaluable bone marrow biopsy material was available from 280 of these patients. The current work was aimed at investigating the impact of peripheral blood counts, spleen size, and bone marrow biopsy findings at diagnosis on long-term survival and the risk of development of AML or MF in this well-defined unselected population. The variables evaluated were venous blood hemoglobin concentration, packed cell volume, white blood cell count, platelet count, and splenic enlargement; as to bone marrow biopsies, interest was focused on reticulin content, focal or generalized collagen formation, bone marrow cellularity, and megakaryocyte profile number. Over the median observation time of 15 yr, the patients with ET did not demonstrate any significant difference as to survival compared to the normal Swedish population (hazard ratio, 1.23; 95% confidence interval, 0.97-1.51; p= 0.089). The patients with PV, on the other hand, had a significantly shorter survival compared to general population (hazard ratio, 1.66; 95% confidence interval, 1.38-1.99; p< 0.001). A lower hemoglobin concentration at diagnosis of ET predicted poorer survival (p =0.0281), whereas patients with PV with splenic enlargement at diagnosis had a shorter survival (p =0.037). In the patients with ET, the risk of transformation to either MF or AML was significantly associated with low hemoglobin concentration and high white cell count at diagnosis (p =0.0037 and 0.0306, respectively). An increased reticulin content and hypercellularity in the bone marrow at diagnosis were also independent risk factors (p =0.0359 and 0.0103, respectively). The risk of transformation in patients with PV was significantly associated with splenic enlargement and increase in bone marrow reticulin content (p =0.0028 and 0.0164, respectively).     

Prefibrotic chronic idiopathic myelofibrosis--a diagnostic enigma?

To analyze precursor lesions of chronic idiopathic myelofibrosis (CIMF) 21 patients were recruited who developed manifest myelofibrosis after about 70 months, preceded by a prefibrotic stage but without interference by cytoreductive therapy. Prodromal bone marrow lesions included a prominent granulocytic and megakaryocytic proliferation with megakaryocytes showing conspicuous abnormalities associated with a borderline to slight anemia, thrombocytosis, and minimal splenomegaly. Comparison of this cohort with 211 additional patients at this precursor stage revealed no differences concerning clinical findings and bone marrow histopathology. Relative incidence of prefibrotic CIMF was 24% and median survival 143 months, thus contrasting overt CIMF (82 months). In CIMF progressive myelofibrosis occurred in more than 50% of patients according to the last biopsy specimen; however, this figure increased according to relevant clinical data in the follow-up period.     

Different involvement of the megakaryocytic lineage by the JAK2V617F mutation in Polycythemia vera, essential thrombocythemia and chronic idiopathic myelofibrosis

Atypical megakaryocytes provide the histomorphological hallmark of all Philadelphia-chromosome negative chronic myeloproliferative disorder (Ph⁻ CMPD) subtypes and have not been studied so far for the JAK2^V617F mutation. The mutant gene dosage was determined in isolated megakaryocytes from 68 cases of JAK2⁺/Ph⁻ CMPD by a pyrosequencing assay. Megakaryocytes from essential thrombocythemia (ET) showed significantly lower levels of mutated JAK2 alleles compared to patients with chronic idiopathic myelofibrosis (cIMF) with manifest fibrosis and polycythemia vera (PV) but not to prefibrotic cIMF. Solely, ET JAK2V617F in megakaryocytes is associated with a PV-like phenotype, and at least in one patient, the JAK2 mutation was exclusively acquired within the megakaryocytic lineage. The overt differences between prefibrotic and fibrotic cIMF suggested a causative role of the gene dosage of mutant JAK2 in fibrotic progression. Megakaryocyte analysis of a follow-up of eight individual cases with sequential biopsies, however, showed that progression to homozygosity of V617F mutated JAK2 and onset of manifest fibrosis appeared to be independent events. We conclude that megakaryocytes might be the predominant or even the exclusive lineage that acquires the JAK2^V617F mutation in ET and that the JAK2^V617F evolution to higher gene dosages represents a dynamic and complex process substantially involving megakaryocytes.     

Histochemistry and morphometry on bone marrow biopsies in chronic myeloproliferative disorders – aids to diagnosis and classification

 The aim of this review is to evaluate morphological characteristics of the different subtypes of chronic myeloproliferative disorders (MPDs) derived by applying immunohistochemical and morphometric techniques to bone marrow biopsies and to combine these results with relevant clinical parameters. In comparison to control specimens, a significant decrease in erythroid precursors is determinable in chronic myeloid leukemia (CML), while this cell lineage is most prominent in polycythemia vera (PV) and moderately to markedly reduced in idiopathic myelofibrosis (IMF). On the other hand, neutrophilic granulopoiesis shows a predominance in CML and a relevant increase in PV, but no conspicuous changes are detectable in essential thrombocythemia (ET). CML is characterized by a prevalent growth of dwarflike micromegakaryocytes, occurring in particular in the so-called megakaryocyte-rich subtypes (about 30%). This finding differs significantly from the pleomorphous aspect, i.e., clusters of small to giant-sized megakaryocytes in PV and the grossly abnormal (dysplastic) appearance of this cell lineage in patients with IMF. Similar cytological abnormalities of megakaryopoiesis consistent with maturation defects are never encountered in ET. The incidence of mature (resident) macrophages (phagocytic reticular cells) is significantly enhanced in IMF in comparison to the other MPDs and controls. Moreover, there is a striking difference in the density of reticulin-collagen fibers, ranging from normal (ET) to extreme values (IMF). In IMF more than 80% of the patients present with some degree of myelofibrosis-osteosclerosis at diagnosis, while the rest show an initial prefibrotic, hypercellular stage. This feature deserves special attention since, when accompanied by thrombocythemia, it may simulate ET. Sequential bone marrow biopsies in patients with IMF disclose that evolution of myelofibrosis is progressive, but occurs at a variable and unpredictable speed. A synoptical approach regarding clinical diagnosis and histological subtyping of MPDs is explicitly recommended and demonstrated by sets of diagnostic criteria. This rationale requires equal consideration of laboratory data and morphology by clinicians to include well-defined subtypes of MPDs into prospective management studies. Furthermore, it may even warrant follow-up studies and repeated bone marrow examinations in initially unclassifiable cases. Received: October 19, 1998 / Accepted: July 19, 1999     

Primary polycythaemia, essential thrombocythaemia and myelofibrosis--three facets of a single disease process?

Primary polycythaemia (PP), idiopathic myelofibrosis (MF), essential thrombocythaemia (ET) and chronic granulocytic or myeloid leukaemia (CGL) are clonal disorders of the pluripotent haemopoietic stem cells. We have studied granulocyte, megakaryocyte and erythroid progenitors from the peripheral blood of 7 patients with PP, 9 with ET, 19 with MF and 6 with CGL in order to characterise similarities and differences at the committed progenitor cell level. Spontaneous megakaryocytic and erythrocytic growth was characteristic of MF, PP and ET but was not seen in CGL. Circulating erythroid (BFU-E) and granulocyte/macrophage (CFU-GM) progenitors were markedly increased in MF and CGL, less raised in ET and closest to normal in PP. Erythropoietin-independent erythroid bursts (EIBFU-E) grew from the blood of patients with MF, PP and ET but spontaneous growth of megakaryocytes occurred in only MF and ET. These results suggest a progression of increasing abnormality from PP, where EIBFU-E occurred with relatively normal numbers of circulating progenitors, to ET where both EIBFU-E and megakaryocyte precursors regularly occur with elevated numbers of progenitors, to MF where spontaneous BFU-E, CFU-Mk and CFU-GM occur at high levels.     

Myelofibrosis in chronic granulocytic leukaemia: clinicopathologic correlations and prognostic significance

We performed 221 marrow trephine biopsies in 139 patients with Ph1-positive (Ph1+) chronic granulocytic leukaemia (CGL) in order to assess the incidence, degree and prognostic significance of marrow fibrosis (MF) at various stages of the disease. We also attempted to elucidate the relationship between development of MF and the various clinical and haematological features of CGL. A significant correlation was found between the amount of fibrosis (graded from 0 to 3) and the stage of CGL, indicating that major fibrotic changes are associated with accelerated or blastic disease. Survival studies performed to assess the prognostic significance of the various degrees of MF, showed a progressively worse life-expectancy from grade 0 to grade 3 fibrosis. Multivariate regression analysis indicated Hb level, age, number of marrow megakaryocytes (MKs), time from diagnosis as the features most significantly correlated with the degree of MF. This study demonstrates that the natural history of CGL involves a progressive increase in reticulin deposition towards severe MF, although the rate of this progression varies widely. Monitoring changes of fibrosis with sequential biopsies could give a measure of the rate of progression of the disease and help in prognostic assessment of CGL patients. Our findings also confirm that among marrow features the number of MKs is the cytological variable most significantly correlated with MF.     

Density distribution and size of megakaryocytes in inflammatory reactions of the bone marrow (myelitis) and chronic myeloproliferative diseases

Morphometric evaluation was performed on semi-thin sections of core biopsies of the bone marrow and included 20 cases of each group of diseases besides control specimens. (i) Hyperergic myelitis of rheumatic origin. (ii) Chronic granulocytic leukaemia (CGL). (iii) Polycythaemia vera (P. vera). (iv) Chronic megakaryocytic-granulocytic myelosis (CMGM). (v) Myelofibrosis or osteomyelosclerosis (MF/OMS). The following classification of megakaryopoiesis was applied: normal megakaryocytes; giant forms; microforms; intussusceptions; cytoplasmic fragments; naked nuclei. The density distribution shows an increase of megakaryocyte number in those 5 different marrow disorders, ranging from about 13/mm2 in the normal sample up to 65 cells/mm2 in MF/OMS. Microforms are most frequently encountered in CGL, whereas giant megakaryocytes, intussusceptions and many cytoplasmic fragments characterize P. vera, CMGM and MF/OMS. Our measurements suggests 3 distinct categories of bone marrow lesions with corresponding alterations of the megakaryopoiesis: (i) myelitis and CGL; (ii) P. vera; (iii) CMGM and MF/OMS.     

Bone marrow megakaryocytic activation predicts fibrotic evolution of Philadelphia-negative myeloproliferative neoplasms

Philadelphia-negative chronic myeloproliferative neoplasms (MPN) have been traditionally considered as indistinctly slowly progressing conditions; recent evidence proves that a subset of cases have a rapid evolution, so that MPN prognosis needs to be personalized. We identified a new morphological parameter, defined as megakaryocytic activation (M-ACT) based on the coexistence of megakaryocytic emperipolesis, megakaryocytes (MK) cluster formation and evidence of arrangement of collagen fibers around the perimeter of MK. We retrospectively analyzed the bone marrow biopsy of two MPN cohorts of patients with polycythemia (PV) (n=64) and non-PV patients (including essential thrombocythemia, and early/prefibrotic primary myelofibrosis [PMF]) (n=222). M-ACT showed a significant correlation with splenomegaly, white blood cell count, and lactate dehydrogenase serum levels in both groups, with JAK2 V617F allele burden in PV patients, and with CALR mutations, and platelet count in non-PV patients. Progression-free survival, defined as PV-to-secondary MF progression and non-PV-to-overt PMF, was worse in both PV and early/prefibrotic PMF patients with M-ACT in comparison to those without M-ACT (P<0.0001). Interestingly, M-ACT was not found in the subgroup of essential thrombocythemia patients. In conclusion, M-ACT can be helpful in the differential diagnosis of MPN and can represent a new morphologic parameter with a predictive value for progression of MPN.     

Circulating haemopoietic progenitor cells in primary and secondary myelofibrosis: relation to collagen and reticulin fibrosis

The relationship between the extent of bone marrow reticulin and collagen fibrosis and the concentration of granulocytic (CFU-GM), erythroid (BFU-E) and megakaryocyte (CFU-Mk) progenitor cells in the peripheral blood of patients with primary agnogenic myeloid metaplasia (AMM) and secondary myelofibrosis (sMF) has not been definitively correlated. We studied 23 patients with established diagnosis of AMM and 12 patients with sMF for the extent of reticulin and collagen bone marrow fibrosis and for the spontaneous colony (sCFU-GM, sBFU-E and sCFU-Mk) formation. The control group consisted of 11 healthy volunteers. Trephine biopsy of the posterior iliac crest was performed in all individuals studied to determine the type and degree of reticulin and collagen fibrosis. Gomori's silver impregnation technique was used. sCFU-GM, sBFU-E and sCFU-Mk colony formation was related positively to spleen size, the white blood cell counts and the degree of collagen fibrosis in AMM (p < 0.01). Stimulated CFU-GM were also significantly correlated with the degree of bone marrow reticulin and collagen fibrosis. There was no correlation between the extent of peripheral blood progenitor concentration and the degree of bone marrow reticulin or collagen fibrosis in sMF and in control individuals. In conclusion, the extent of bone marrow fibrosis is significantly correlated with the peripheral blood progenitor colony formation in AMM but not in sMF.     

Myelofibrosis and cytopenia are not always malignant

Myelofibrosis (MF) is characterized by reticulin fibrosis of the bone marrow. It may occur in neoplastic disorders such as myelofibrosis with myeloid metaplasia (MMM) or other neoplasms involving the bone marrow. However, autoimmune phenomena have been described in patients with MF defining a distinct clinicopathological entity called autoimmune myelofibrosis (AIMF). We report two cases of AIMF and review the literature.     

Bone marrow histopathology in myeloproliferative disorders--current diagnostic approach

Current diagnostic issues in chronic myeloproliferative disorders (MPDs) include the differentiation of essential thrombocythemia (ET) from its mimics: early (prefibrotic) stages of chronic idiopathic myelofibrosis (CIMF) and early polycythemia vera (PV), both of which can be associated with thrombocytosis. Applying a systematic evaluation of bone marrow histopathology, in accordance with the current World Health Organization (WHO) classification system, it is possible to identify cases of true ET as opposed to false ET, usually early-stage CIMF accompanied by an excess of platelets. This distinction is important because the frequency of complications such as progression to overt myelofibrosis, blastic crisis, and overall prognosis are significantly different in the two conditions. The diagnostic criteria of the Polycythemia Vera Study Group (PVSG) do not adequately define the initial stages of PV, nor do they distinguish PV with thrombocytosis from ET. Differentiation of the two is possible by bone marrow histopathology, which also is highly predictive (96%) in distinguishing PV from secondary polycythemia. In conclusion, bone marrow biopsy is an important diagnostic tool for distinguishing specific subtypes of MPD and should be a mandatory step for entry evaluation and follow-up of patients enrolled in prospective studies and/or clinical trials.     

Primary (essential) thrombocythemia versus initial (hyperplastic) stages of agnogenic myeloid metaplasia with thrombocytosis--a critical evaluation of clinical and histomorphological data

In 40 patients (17 male, 23 female, median age 57 years) with the presumptive diagnosis of primary (essential) thrombocythemia (PTH) according to the diagnostic requirements of the Polycythemia-Vera-Study-Group (PVSG) a follow-up study and a histological evaluation of initial trephine biopsies of the bone marrow were performed. Thorough review of the hematological data during the lengthy course of disease (observation time ranging from 1.5-10.5 years) and the histomorphology of the bone marrow implied a discrimination into two groups of patients. Group I patients (n = 26; 10 male, 16 female) were compatible with PTH according to our follow-up studies. Group II patients consisted of 14 cases (7 male, 7 female) which suggested retrospectively early hyperplastic stages of agnogenic myeloid metaplasia (AMM) with concomitant thrombocytosis. In PTH (group I patients) there was a sustained elevation of the platelet count lasting for several years accompanied by stable other blood values. Early AMM (group II patients) was characterized by an insidious decline of the initially elevated thrombocyte count, starting in a few patients already 4-6 months after admission. In AMM there was further an increase in hepatosplenomegaly observable together with the level of LDH and the score of the leukocyte alkaline phosphatase, and finally an evolution of a leukoerythroblastic blood picture could be noticed. Initial histopathology of the bone marrow revealed a profound proliferation of a not severely dysplastic megakaryopoiesis in group I patients (PTH) and a normal content of reticulin fibers. In early thrombocythemic AMM (group II patients) conspicuous abnormalities of megakaryocytes were accompanied by a slight to moderate increase in argyrophilic fibers and a left-shifted neutrophilic granulocyto- as well as erythropoiesis. These differences of certain histomorphological features could be substantiated by morphometric analysis. Our findings suggest that even the rigid requirements for the diagnosis of PTH as proposed by the PVSG may not be sufficiently restrictive to exclude patients with early hyperplastic stages of thrombocythemic AMM.     

The incidence of myelofibrosis in essential thrombocythaemia, polycythaemia vera and chronic idiopathic myelofibrosis: a retrospective evaluation of sequential bone marrow biopsies

The incidence of myelofibrosis (MF) among the three major Philadelphia chromosome-negative chronic myeloproliferative disorders, i.e. essential thrombocythaemia (ET), polycythaemia vera (PV) and chronic idiopathic myelofibrosis (CIMF), is not well documented since the diagnostic criteria have recently been redefined by the WHO. Therefore we performed a retrospective analysis of follow-up biopsies of 275 patients with ET, PV and CIMF according to the WHO classification of chronic myeloproliferative disorders. In the diagnostic bone marrow biopsies, MF was observed in 57 of the 136 CIMF patients (42%), 4 of the 73 PV patients (5%) and none of the 66 patients with ET. Within a median observation time of 2.9 years, 34 of the 79 patients with CIMF (43%), 13 of the 69 patients with PV (19%) and 1 of the 66 patients with ET (1.5%)--each initially without MF--developed MF regardless of myelosuppressive therapy.     

Megakaryocytopoiesis in vitro of patients with essential thrombocythaemia: effect of plasma and serum on megakaryocyte colony formation

To clarify the mechanism of increased numbers of megakaryocytes in patients with essential thrombocythaemia (ET), we studied in vitro megakaryocytopoiesis in ET and other myeloproliferative disorders, using a megakaryocytic colony assay in methylcellulose containing plasma or serum and medium conditioned by phytohaemagglutinin (PHA) stimulated leucocytes (PHA-LCM). Megakaryocytic colony formation was supported well by heparinized or citrated plasma and citrated serum which was harvested after clot formation of citrated plasma. Whole serum was inhibitory for megakaryocytic colony growth. The addition of platelet releasates and partially purified platelet derived growth factor (PDGF) resulted in a decrease in the number of megakaryocytic colonies. These findings suggested that platelet-derived factor(s) in serum was inhibitory to megakaryocytic colony formation. ET plasma supported the megakaryocytic colony formation by normal or ET bone marrow cells better than normal plasma. Moreover, in ET bone marrow cells, spontaneous megakaryocytic colonies were formed in the absence of PHA-LCM. Increased megakaryocytopoiesis in ET may be ascribed to (i) increased megakaryocyte-colony stimulating activity (Meg-CSA) in plasma and (ii) increased sensitivity to Meg-CSA or autonomous proliferation of megakaryocytic progenitor cells.