Acute myeloid leukemia (AML-M2) with mast cell hyperplasia of bone marrow: a report of three cases

Bone marrow mastocytosis, though infrequently documented in Indian patients, may be observed in association with many non mast cell hematological neoplasms, including acute myeloblastic leukemia (AML) and myelodysplastic syndromes (MDS). We report three cases of acute myeloid leukemia with excess of mast cells in the bone marrow (BM) samples. Mast cell hyperplasia may remain under diagnosed due to shortcoming of morphological identification and diagnostic workup.     

Erythroid proliferations in myeloid neoplasms

Prominent erythroid proliferations (in which erythroid elements comprise ≥50% of total bone marrow cells) can be seen in various hematopoietic stem cell neoplasms. The myeloproliferative neoplasm polycythemia vera exhibits effective, overexuberant erythropoiesis resulting in an increased red blood cell mass; in contrast, most other diseases characterized by erythroid predominance exhibit ineffective hemopoiesis. The latter include acute erythroid leukemia (erythroid-myeloid and pure erythroid leukemia subtypes) as well as some cases of myelodysplastic syndromes, acute myeloid leukemia with myelodysplasia-related changes, and therapy-related myeloid neoplasms. Some nonneoplastic reactive conditions may also manifest a striking bone marrow erythroid predominance. In this article, we review the literature relevant to this group of diseases for a better understanding of their clinicopathologic features and surrounding controversies. We also examine the position of neoplastic erythroid proliferations in the current 2008 World Health Organization Classification of Myeloid Neoplasms and provide recommendations as to how to approach the differential diagnosis of this group of diseases.     

骨髓涂片和骨髓活检在骨髓增生异常综合征诊断中的意义

对33例初诊骨髓增生异常综合征病人的骨髓涂片及骨髓活检进行分析,表明涂片在初诊筛选中能对MDS作出诊断,而骨髓活检对判断增生度,显示各系病态造血,提供预后信息及确诊MDS合并骨髓纤维化中意义重大,后者对前者起补充、修正的作用.     

p53 expression in myeloid cells of myelodysplastic syndromes. Association with evolution of overt leukemia.

To assess p53 expression in the hematopoietic cells of the bone marrow in premalignant as well as malignant conditions, we examined immunohistochemically bone marrow biopsies from patients with myelodysplastic syndromes (MDS, n = 51), acute myeloid leukemia (n = 42) and as a nonneoplastic condition, aplastic anemia (n = 20) and samples from individuals who had no hematological disorder (control, n = 12). Nuclear accumulation of p53 protein was found in seven of 51 patients with MDS (14%) and two of 42 acute myeloid leukemia patients (5%), whereas patients with aplastic anemia and control subjects were uniformly negative for p53 protein. In the bone marrow of patient with MDS, p53-positive cells constituted about 5 to 30% of the total bone marrow cells. Two-color immunohistochemical analysis revealed that the p53-positive cells were also positive for the myeloid cell marker. Half of the MDS cases that evolved to overt leukemia (seven of 14) exhibited positive p53 reaction in the bone marrow at the time of initial diagnosis. This frequency (50%) was significantly higher than that in de novo acute myeloid leukemia cases. All of the seven MDS cases that exhibited p53 expression at the time of initial diagnosis developed overt leukemia later, and p53 expression was maintained throughout the progression of MDS. The results suggest that p53 mutations that occur in the myeloid cells in MDS may confer a growth advantage to these cells resulting in the progression to overt leukemia. Thus, immunohistochemical examination for p53 is very useful for predicting the evolution to overt leukemia from MDS.     

Therapy-related myelodysplastic syndrome: morphologic subclassification may not be clinically relevant

In practice, cases of therapy-related myelodysplastic syndrome (t-MDS) are often classified according to morphologic schemes used for de novo MDS. However, there are few data addressing the appropriateness of such classification. We studied 155 patients with therapy-related acute myeloid leukemia (t-AML)/t-MDS to determine whether subclassification by the World Health Organization (WHO) criteria for de novo MDS provides prognostic information in t-MDS. In addition, we assessed whether cytogenetic stratification by the International Prognostic Scoring System (IPSS) guidelines or karyotypic complexity was prognostically important. We found no differences in median survival times among patients classified into the different WHO subgroup of MDS or according to their bone marrow blast percentage; our results indicate a uniformly poor outcome in t-MDS regardless of morphologic classification. However, significant survival differences correlated with cytogenetic stratification according to IPSS guidelines and/or karyotypic complexity. We found only a borderline difference in median survival of patients with an initial t-MDS diagnosis compared with patients with an initial t-AML diagnosis.     

骨髓增生异常综合征与白血病细胞p15INK4B基因甲基化及机制研究

目的:探讨p15INK4B基因甲基化异常和血液系统肿瘤发病的关系及甲基化异常的机制。方法:采用RT-PCR、甲基化特异PCR、Western blot法检测20例骨髓增生异常综合征(MDS)、20例急性白血病患者(AL)、14例慢性粒细胞性白血病(CML)患者骨髓单个核细胞p15INK4B基因 mRNA和p15INK4B蛋白的表达、p15INK4B基因甲基化及甲基转移酶(DNMTs)的表达。结果:高危组MDS患者p15INK4B蛋白表达阳性率低于低危组MDS患者(10% vs 80%,P<0.01),p15INK4B基因甲基化阳性率较高(60% vs 10%,P<0.01)。20例AL有9例(45%)存在p15INK4B基因甲基化。10例CML慢性期(CML-CP)患者仅1例存在p15INK4B基因甲基化。4例CML急变期(CML-BP)患者均检测到p15INK4B基因部分甲基化。DNMT_3A、DNMT_3B表达在AL、高危组MDS和CML-BP患者均明显高于低危组MDS(P<0.05)。结论:p15INK4B基因甲基化在AL、高危组MDS和CML-BP患者发生率高于低危组MDS,伴有甲基转移酶DNMT_3A、DNMT_3B表达较高。p15INK4B基因甲基化可能参与MDS和AL的发病机制并与MDS 及CML的预后有关。     

Prominent gelatinous bone marrow transformation presenting prior to myelodysplastic syndrome: a case report with review of the literature

Gelatinous bone marrow transformation (GMT) is a rare disorder characterized by the presence of fat cell atrophy, loss of hematopoietic cells, and deposition of extracellular gelatinous materials. GMT is not a specific disease, but is strongly associated with malnutrition and drugs. Albeit extremely rare, GMT has been reported in patients with myeloproliferative disorders. Herein, we report the second documented case of hypoplastic myelodysplastic syndrome (MDS) accompanying GMT. A 73-year-old Japanese male with excellent nutrition status and no history of alcohol or drug intake was detected with pancytopenia. The initial bone marrow aspirate specimen reveled hypocellular marrow without dysplastic signs in the myeloid cells. Bone marrow biopsy demonstrated hypocellular bone marrow with prominent GMT. He received blood transfusions, however, pancytopenia continued to progress. The second bone marrow aspirate specimen showed dysplastic changes, such as pseudo-Pelger-Huët cells, hypogranular or agranular granulocytes, and megakaryocytes with multiple small nuclei. Cytogenetic study demonstrated deletion of chromosome 7. Therefore, an ultimate diagnosis of hypoplastic MDS accompanying GMT was made. Only a limited number of cases of myeloproliferative disorders with GMT have been reported. Our analysis of these cases revealed that chromosome 7 abnormality is frequently observed in this condition. Moreover, findings from the current case suggested that myeloproliferative disorders including MDS must be included in the differential diagnostic considerations of GMT patients, who have no history of malnutrition or drugs, and careful examination of the bone marrow smear specimen and cytogenetic analysis are necessary for early detection of underlying myeloproliferative disorders.     

Topics in bone marrow biopsy pathology: role of marrow topography in myelodysplastic syndromes and evaluation of post-treatment and post-bone marrow transplant biopsies

The role of bone marrow biopsy is expanding. Bone marrow biopsy is considered a "gold standard" for assessing cellularity and infiltrative process. More recently, biopsies are increasingly used for immunohistochemical stains and molecular studies such as in situ hybridization and laser microdissection, further augmenting morphologic interpretation. Biopsies are playing a greater role in early diagnosis of myelodysplastic syndromes (MDS). Both primary and secondary MDS are increasing (5% to 12%), and can present a significant challenge in early diagnosis. Present MDS diagnostic criteria are based purely on marrow aspirate smears, peripheral blood smears, and ancillary studies, and may not be adequate in some instances. With the current understanding of marrow topography and hematopoietic microenvironment, bone marrow biopsies are greatly useful in early diagnosis and grading of MDS. Marrow biopsies also are helpful in evaluation of postchemotherapy and post-bone marrow transplant patients. Assessment of topographic alteration and certain corroborating immunohistochemical and molecular studies can only be performed on bone marrow biopsies, and these ancillary studies will contribute significantly to the understanding of hematopoietic disorders. Bone marrow biopsy, in conjunction with other modalities such as flow cytometry, will play a significant role in diagnostic hematopathology. Ann Diagn Pathol 5:110-120, 2001.     

Comparison of touch imprints with aspirate smears for evaluating bone marrow specimens.

We compared the differential counts of normal and abnormal bone marrow from touch imprints with those from aspirate smears to determine whether the touch imprint was reliable for independent routine use in the examination of bone marrow and the classification of hematologic abnormalities. Normocellular bone marrow specimens were obtained from 87 patients without hematologic abnormality. Abnormal bone marrow specimens were obtained from 173 patients with treated or untreated neoplastic hematologic disease, including acute myeloid leukemia, myelodysplastic syndrome, chronic lymphocytic leukemia, non-Hodgkin lymphoma, hairy cell leukemia, myeloma, and acute lymphoblastic leukemia. We found no diagnostic difference in the differential counts from touch imprints and aspirate smears of normocellular bone marrow, and although we found some difference between the differential counts in certain cases of diseased bone marrow, the touch imprint proved to be a reliable diagnostic tool for determining the cellular composition of normal bone marrow and more reliable for the diagnosis of bone marrow involved by a neoplastic hematologic disease. Our findings suggest that evaluating touch imprints should be considered a standard practice in examining bone marrow.     

An autopsy case of myelodysplastic syndrome (MDS): diagnostic problems between MDS and the other haematopoietic disorders including acute myelofibrosis

We report an autopsy case of myelodysplastic syndrome (MDS) in a 35-year-old male, who presented with pancytopenia and bleedings. Bone marrow specimens disclosed myelofibrosis and hypercellular marrow with more than 60% atypical erythroblasts in the bone marrow cells. Type I or type II blasts were less than 10% of the peripheral blood and bone marrow cells during the clinical course. At autopsy, infiltration by myeloid and erythroid cells and megakaryocytes was noted in the liver, spleen and lymph nodes. According to the FAB classification, this case might be classified into refractory anemia with excess of blasts (RAEB) or RAEB in transformation. However, the remarkable neoplastic proliferation of three haematopoietic cell lines also indicates acute myeloproliferative disorder such as acute myelofibrosis or acute panmyelosis.     

Histological and cytogenetic characterization of bone marrow in relation to prognosis and diagnosis of myelodysplastic syndromes

Bone marrow (BM) histology of 102 myelodysplastic syndromes (MDS) patients was analyzed retrospectively. All the cases were reclassified according to the World Health Organization (WHO) classification. Karyotype study was conducted for all except one. Fifteen of the MDS cases were hypoplastic. The cellularity in bone marrow histology is sometimes ineffective in the differential diagnosis of MDS and aplastic anemia (AA). Nonetheless, a marked decrease in the number of megakaryocytes (average, 0.3/mm(2); range, 0-2/mm(2)) even in the hyperplastic foci of the marrow of AA was the most important histological feature differentiating AA from MDS, whereas the number of megakaryocytes increased in most MDS cases (44/mm(2); range, 1-240/mm(2)) and also in hypoplastic MDS (14/mm(2); range, 8-26/mm(2)). Hyperplastic marrow had a significantly high frequency of progress to acute myeloid leukemia (AML) and hypoplastic MDS had a lower rate of progress to AML. Severe myelofibrosis had a significantly poor prognosis. An increase in CD34-positive cells in MDS indicated a high rate of progress to AML. As for the patients with refractory cytopenia with multilineage dysplasia (RCMD; the new category under the WHO classification), the increased number of megakaryocytes was correlated with poor prognosis.     

RAS, FLT3, and TP53 mutations in therapy-related myeloid malignancies with abnormalities of chromosomes 5 and 7

Oncogenic mutations in the KRAS2, NRAS, or FLT3 gene are detected in more than 50% of patients with de novo acute myeloid leukemia (AML). RAS mutations are also prevalent in de novo myelodysplastic syndrome (MDS), especially chronic myelomonocytic leukemia and juvenile myelomonocytic leukemia. However, few studies have examined these genetic lesions in therapy-related myeloid malignancies. Monosomy 7/del(7q) and monosomy 5/del(5q) represent the most common cytogenetic abnormalities in therapy-related MDS and AML (t-MDS/t-AML) and are strongly associated with prior exposure to alkylating agents. Mutational analysis of bone marrow specimens from a well-characterized cohort of 26 t-MDS/t-AML patients with abnormalities of chromosomes 5 and/or 7 revealed 3 with RAS mutations. Further analyses of 23 of these cases uncovered one FLT3 internal tandem duplication and five TP53 mutations. The four patients with RAS or FLT3 mutations had monosomy 7, including one with abnormalities of chromosomes 5 and 7. One specimen demonstrated mutations in both KRAS2 and TP53. RAS and FLT3 mutations, which are thought to stimulate the proliferation of leukemia cells, appear to be less common in t-MDS/t-AML than in de novo AML, whereas TP53 mutations are more frequent.     

Angiogenesis in myelodysplastic syndromes (MDS) in Indian patients

Angiogenesis plays an important role in the pathogenesis of haematological neoplasms and may be correlated with the prognosis. We recently evaluated the microvessel densities in trephine biopsy sections of seventeen patients of myelodysplastic syndromes (MDS). Of the 17 cases, 2 were RAEB-t, 3 were RAEB, one was RARS and 11 were of the subtype RA (FAB subtyping). The microvessel counts were measured in the bone marrow biopsy sections by immunohistochemical staining, using CD34 reactive monoclonal antibodies. MVD was significantly higher in the cases of RAEB and RAEB-t as compared to the cases of RA. The average MVD per x400 in the cases of RA was 5.7 +/- 4.7 with a median value of 4.65 (range 19) whereas it was 45.4 +/- 10.0 and 44.0 (range 27.3) respectively in RAEB and RAEB-t (p <.001), the 95% confidence interval being (2.94, 8.5) and (36.6, 54.3), for the two groups respectively. This finding may imply that subtypes of MDS with a higher tendency for converting to acute leukaemia are associated with increased angiogenesis as compared to other subtypes where the risk of progression to acute leukaemia is much lower.     

Therapy-related myelodysplastic syndrome/acute myeloid leukemia with del(7)(q22) in a patient with de novo AML

A 55-year-old Korean woman was initially diagnosed with acute myelomonocytic leukemia (AML). After induction chemotherapy was performed using cytarabine, idarubicin, and G-CSF, complete remission (CR) was subsequently achieved following reinduction chemotherapy using the same chemotherapeutic agents. Thirty-six months after the initial CR, an increase in immature cells (up to 12.0%) was observed in the patient's bone marrow. Because chromosome analysis revealed a karyotype of 46,XX,del(7)(q22) in all of the analyzed cells, the patient was diagnosed with therapy-related myelodysplastic syndrome (t-MDS). Although the patient subsequently received chemotherapy and G-CSF for neutropenia, t-MDS rapidly progressed after 3 months to therapy-related acute myeloid leukemia (t-AML). Although very rare, de novo AML can progress to a secondary MDS/AML with del(7q) after chemotherapy with cytarabine, idarubicin, and G-CSF. Further investigation into the role of genes located in 7q22 may provide more information about the mechanisms of leukemogenesis.     

Myelodysplastic syndromes

Myelodysplastic syndromes (MDS) are hematopoietic neoplasms characterized by an ineffective hematopoiesis associated with cytopenia(s), functional abnormalities of bone marrow lineages, morphologic dysplasia, and a progression to acute myeloid leukemia. The pathogenesis of MDS is exceedingly complex and involves the hematopoietic stem cells/hematopoietic precursors, bone marrow microenvironment, and complex interaction between these components. The diagnostic strategy in MDS has evolved significantly over the years from a strategy based almost exclusively on peripheral blood smear and bone marrow aspirate morphology to the integrated approach used in the 2001 and 2008 World Health Organization (WHO) classification schemes. In parallel with the diagnostic approach, evolution has occurred in the prognostic assessment and evaluation of treatment response. The prognostic assessment now includes both disease-related factors and patient-specific characteristics such as nonhematologic comorbidities. All these developments are particularly important considering the ever-increasing treatment options available for MDS. This review focuses on the diagnostic approach to MDS and highlights recent developments in the pathogenesis as well as select clinical advances. We present the overview of the minimal diagnostic criteria for a diagnosis of MDS, the WHO classification scheme, and briefly address the risk stratification.     

Low frequency of FLT3 gene internal tandem duplication and activating loop mutation in therapy-related acute myelocyticleukemia and myelodysplastic syndrome

FLT3 gene internal tandem duplication (ITD) and activating loop mutations (D835) were determined in 22 cases of therapy-related acute myelocytic leukemia/myelodysplastic syndrome (t-AML/MDS) and 102 cases of de novo AML/MDS. In t-AML/MDS, FLT3 ITD was absent, and D835 was found in only one case of therapy-related acute promyelocytic leukemia (APL). In de novo AML/MDS, however, FLT3 ITD and D835 were significantly more frequent (28 of 102 cases, P=0.024) and were associated with high peripheral blood and marrow blast counts. Our results suggest that different pathogenetic pathways might be involved in t-AML/MDS and de novo AML/MDS.     

Translocation t(6;9) occurring in acute myelofibrosis, myelodysplastic syndrome, and acute nonlymphocytic leukemia suggests multipotent stem cell involvement

The cytological and cytogenetic features of six patients with myeloid neoplasia and t(6;9)(p23;q34) including a case of acute myelofibrosis (AMF), a refractory anemia with excess of blasts (RAEB), and four cases of acute nonlymphocytic leukemia (ANLL) are described. Two patients in this series, both affected by ANLL type M2, presented an increase of bone marrow basophils, suggesting that this cytological-cytogenetic association is not absolute and that it may be more frequently observed in ANLL with maturation. All patients with de novo ANLL showed associated myelodysplastic features, and one patient presented a dysmyelopoietic syndrome, later evolving into ANLL. The presence of the t(6;9) in a range of myeloid neoplasias, with either concurrent myelodysplastic features or a preleukemic phase in cases of ANLL, provide evidence that this chromosome aberration may always involve a multipotent myeloid stem cell. Data on toxic exposure of the patients suggests that myeloproliferative disorders with the t(6;9) may frequently represent environmentally induced neoplasias.     

Therapy related myelodysplastic syndrome: a case report and review of literature

Therapy related myeloid neoplasm is directly related to previous cytotoxic chemotherapy or radiation therapy. We present a 47-year-old lady who developed therapy related myelodysplastic syndrome (MDS) 2.5 years after she received four cycles of chemotherapy and local radiation therapy for carcinoma breast. She presented with bicytopenia with trilineage dyspoiesis in the peripheral blood, bone marrow aspirate and biopsy. Fluorescent in-situ hybridization studies did not reveal any of the common abnormalities associated with MDS. A diagnosis of therapy related MDS was rendered. Different studies have shown that patients treated with alkylating agents and ionizing radiation present as MDS with a latent period of 3-10 years. Our patient developed MDS within 2.5 years of starting chemotherapy and radiotherapy and did not reveal any of the conventional cytogenetic abnormalities. It highlights the importance of simple tests like a complete blood count and peripheral blood smear examination in follow-up of the patients treated with chemotherapy.     

Systemic mastocytosis with associated clonal haematological non-mast cell lineage diseases: a histopathological challenge

AIMS: Although systemic mastocytosis (SM) with an associated clonal haematological non-mast cell lineage disease (SM-AHNMD) is a major subtype of SM, little is known about its frequency among myelogenous neoplasms, and mastocytosis in particular, or about AHNMD subtype frequencies. METHODS: Approximately 19500 routine bone marrow biopsies were evaluated. Immunostaining with antibodies against tryptase, KIT, and CD25 and molecular analysis for detection of C-KIT point mutations were performed in approximately 550/4100 myelogenous malignancies including mastocytosis, almost all subtypes of myelodysplastic syndrome (MDS), myelodysplastic/myeloproliferative syndrome (MDS/MPD), MPD, and acute myeloid leukaemia (AML). RESULTS: SM was rare-it was diagnosed in only 64 bone marrows (0.3%) and made up 1.5% of myelogenous tumours. SM-AHNMD was the second most frequent subtype (20). SM-AHNMD was never included in the clinical differential diagnoses and was confirmed histologically in most cases only after appropriate immunostaining. The abnormal mast cell phenotype was confirmed by immunohistochemical demonstration of tryptase and CD25 coexpression. The following associated haematological neoplasms were found: MDS/MPS, AML, MPS, MDS, plasma cell myeloma, and unclassifiable myelogenous malignancy. C-KIT point mutations were detected in 16 of 20 cases. CONCLUSIONS: SM-AHNMD can be diagnosed histologically in bone marrow trephines only after immunostaining with antibodies against tryptase, KIT, and CD25. Eighteen of 20 AHNMDs were of myeloid origin. C-KIT point mutations were present in 16 of 20 cases. The prognostic relevance of detecting SM associated with another haematological neoplasm remains unclear, but mast cell resistance to most cytoreductive agents is of major importance for treatment planning.     

Loss of heterozygosity identifies genetic changes in chronic myeloid disorders, including myeloproliferative disorders, myelodysplastic syndromes and chronic myelomonocytic leukemia.

This study evaluates changes in genetic loci of chronic myeloid disorders using loss of heterozygosity (LOH) techniques. We present the combined results of three experiments. First, examination of a panel of genetic loci in groups of myeloproliferative disorders was evaluated. The second experiment involved microdissection of megakaryocytes from myeloproliferative disorders and comparison of their genetic changes to surrounding neoplastic marrow elements. Finally, we compared results of LOH studies of myeloproliferative disorders to those of myelodysplastic syndromes and chronic myelomonocytic leukemia. A total of 41 bone marrow biopsies were evaluated. Twenty-seven were myeloproliferative disorders (11 chronic idiopathic myelofibrosis, 11 essential thrombocythemia, 5 polycythemia vera). The remaining cases consisted of myelodysplastic syndromes (total=5; RAEB-1=2; RAEB-2=2; MDS, not otherwise specified=1) and chronic myelomonocytic leukemia (n=8). The abnormalities in myeloproliferative disorders were distributed as follows: D7S2554-4/14 (5/14); D8S263-4/15 (5/15); D9S157-5/15 (5/15); D9S161-7/17 (6/17); D13S319-5/14 (4/14); TP53-5/16 (5/16); D20S108-4/15 (4/15). In 75% cases diagnosed as essential thrombocythemia (6/8), both cases of polycythemia vera (2/2), and 29% cases of chronic idiopathic myelofibrosis (2/7), there were genetic differences between the megakaryocytes and the surrounding marrow. These results suggest that in some cases, megakaryocytes have different clonal abnormalities than surrounding hematopoietic tissue. The genetic profiles of myeloproliferative disorders had several differences from those of myelodysplastic syndromes. Although different from both, chronic myelomonocytic leukemia appeared more similar to myeloproliferative disorders using these techniques.