The objective of the study was to evaluate the incidence, characteristics, treatment and outcome of acute megakaryoblastic leukemia (AMeL) in patients enrolled in GIMEMA trials. Between 1982 and 1999, 3603 new consecutive cases of AML aged over 15 years were admitted to GIMEMA trials. Of them, 24 were AMeL. The incidence of AMeL among AML patients enrolled in GIMEMA trials was 0.6% (24/3603). Diagnosis was based on morphological criteria. Out of 11 cytogenetic studies performed two presented chromosome 3 abnormalities. Twelve patients (50%) reached a CR, five (21%) died in induction and seven (27%) were unresponsive. The median duration of CR was 35 weeks (range 10-441). Seven patients underwent transplantation procedures (1 BMT, 4 aBMT, 2 aPBSCT). Four patients died in CR due to chemotherapy-related complications. Comparing the CR rate between AMeL and the other cases of AML enrolled in GIMEMA trials, no differences were observed. These results were mirrored for different age groups. The median survival was 40 weeks. At present, after a followup of a minimum of 2 years, only two patients are alive in CR, all the others having died. A 5-year Kaplan-Meier curve shows a disease-free survival of 17% and an actuarial overall survival of 10%. AMeL is a rare form of AML. The CR duration and the overall survival in this group of patients are very poor, even if similar to those observed in other AML. Furthermore, a high number of deaths in CR were observed. On the basis of these data, a specific therapeutic approach, possibly with innovative treatments, should be evaluated.
. The local Ethics Committee approved the protocol. We analyzed data from all the 159 patients admitted in the study period with suspected iron overload based on high TS (above 55% in men and 45% in women) and/or SF (> 322 ng/mL), who had undergone MRI-T2* for heart, liver, spleen, and/or pancreas iron overload and had been screened for the presence of HFE mutations by allele-specific PCR (polymerase chain reaction). The calculations of liver iron concentration (LIC) values were based on liver MRI-T2* measurements, using the Thalassemia-Tools software (Cardiovascular Imaging Solutions, London, UK).Mutations in the HFE gene were identified in 109/159 (68.6%) patients. The most common mutation in our sample was H63D, present in 91 patients (57.2%): 14 (8.8%) were homozygous, 69 (43.4%) heterozygous, and 8 (5%) compound heterozygous for C282Y/H63D. For the C282Y mutation, in contrast, only 5 patients (3.1%) were homozygous and 11 (6.9%) were heterozygous. The S65C mutation was detected in heterozygous state in 2 (2.5%) cases.All 159 patients underwent abdominal MRI-T2* and 126 underwent cardiac MRI-T2* too. Only 3 out of 126 cardiac MRIs had a positive T2* result, mild cardiac overload (T2*: 18.98, 19.14, and 19.8 ms). Of these, two patients had the H63D mutation (1 homozygous and 1 heterozygous) and one patient did not have any of the mutations studied. In the liver, 61 (38.4%) patients had iron overload (T2*: < 11.4 ms and LIC > 2.0 mg/g) of which 57 (35.8%) were light (T2*: 3.83-11.4 ms and LIC: 2.01-6.86 mg/g), and four (2.5%) moderate (T2*: 2.0-3.8 ms and LIC: 7.06-13.56 mg/g). Of these patients with liver overload, 27.9% were C282Y carriers (8.2% homozygous, 11.5% heterozygous, and 8.2% compound heterozygous C282Y/H63D), and 50.8% carried the H63D mutation (14.8% in homozygosis and 36.1% in heterozygosis). Only 12 (19.7%) patients with liver overload did not have the HFE mutation.The presence of C282Y mutation (in either homo or heterozygosis), compound heterozygous (C282/H63D), and H63D in homozygosis was significantly associated with a higher frequency of iron overload in the liver as measured by T2* (P 5 0.001). However, this was not true in patients with H63D in heterozygosis or absence of mutation (P 5 0.42), in which overload frequency was 68.4% and 29.1%, respectively.Pancreatic overload was diagnosed in 33 patients (21%), and 56 patients (35.7%) had splenic overload (Table I). The presence of the C282Y was associated with an overall higher frequency of iron overload. There was also a relatively high frequency (37.3%) of abnormal T2* values in H63D mutants both in the liver and in the spleen, and the frequency of splenic iron overload in H63D mutants was similar to that associated with the C282Y mutation.SF results were available for 152 patients. Median SF was 647 ng/mL (72-13,625), and in 138 patients (90.8%) SF was abnormally high. Overall, in 28 patients (18.2%) serum levels were higher than 1,000 ng/mL, in 80 patients (54%) they varied from 501 to 1,000 ng/mL and in 30 (20.3%) they ranged from 324...
SummarySporadic essential thrombocythaemia (ET) is rare in paediatrics, and the diagnostic and clinical approach to paediatric cases cannot be simply copied from experience with adults. Here, we assessed 89 children with a clinical diagnosis of ET and found that 23 patients (25Á8%) had a clonal disease. The JAK2 V617F mutation was identified in 14 children, 1 child had the MPL W515L mutation, and 6 had CALR mutations. The monoclonal X-chromosome inactivation pattern was seen in six patients (two with JAK2 V617F and two with CALR mutations). The other 66 patients (74Á2%) had persistent thrombocytosis with no clonality. There were no clinical or haematological differences between the clonal and non-clonal patients. The relative proportion of ET-specific mutations in the clonal children was much the same as in adults. The higher prevalence of nonclonal cases suggests that some patients may not have myeloproliferative neoplasms, with significant implications for their treatment.
Autoimmune neutropenia of infancy (AIN) is characterized by low risk of severe infection, tendency to spontaneously resolve and typically onset at ≤4-5 years of age; it is due to auto-antibodies whose detection is often difficult. In case of negativity of 4 antineutrophils Justification of the high number of authors: this is a registry study and a lot of researchers and physicians contributed to the enrollment of patients and data analysis.
Autoimmune hemolytic anemia (AIHA) is an uncommon disease of childhood caused by the premature destruction of erythrocytes by autoantibodies. In this rare disease both diagnostic criteria and therapeutic approaches are not well standardized. The Red Cell Working Group of the Pediatric Italian Hematogy and Oncology Association (AIEOP) developed specific recommendations to help Physicians for AIHA management. The document is available on the AIEOP website since November 1st 2013. The Italian Pediatric AIHA Group began an observational, retrospective and prospective study in order to monitor the management of children with AIHA diagnosed from 2010 to 2018, and to assess whether the availability of AIEOP recommendations had an impact on the clinical management of such patients in AIEOP Centers. We collected a national cohort of 159 children with AIHA from 21 AIEOP Centers; 48 patients were diagnosed before November 2013 and 111 patients after that date. Gender was 56% males and 44% females; median age at diagnosis was 47 months, with 11.9% under 12 months of age; 8.2% of children were born prematurely and 3.9% showed congenital malformations. 23.2 % of patients had a familiar history of immunological, hematological or oncological diseases. The median hemoglobin level at diagnosis was 6.1 gr/dL. Table 1 reports the distribution of our cases, according to the different type of autoantibodies. The comparison between the retrospective and prospective study did not reveal significative differences in clinical and biological presentation. The cold IgM forms were mainly post infective (38.4%) or primary forms (53.8%), only one patient had a secondary form due to a primitive immunodeficiency. These patients did not develop other diseases during follow up (median follow up: 28,6 months). The preliminary results of treatment and follow up of the 146 patients with warm antibody AIHA revealed the following: The treatment with conventional dose of steroids (median dose 2 mg/Kg, range 0.7- 3.5 mg/Kg) was started in 94.4% of patients, in 53% of cases on the same day of diagnosis. A high number of children used additional treatment: red blood cell transfusions (51.4%), high dose Prednisolone (59.7%), high dose i.v. Immunoglobulin (49.7%) and Plasma Exchange (1.4%). 9.5% of patients, with poor responsive disease, needed alternative drugs during the first four weeks of therapy. Response criteria were so defined: a complete response was defined as the achievement of an Hb concentration greater than or equal to the lower normal limit for age with no signs of haemolysis, i.e. normal reticulocyte count and bilirubine concentration. A partial response was defined as an increase of Hb >2 g/dL without the Hb concentration reaching a normal value for the patient age and no response as an increase of Hb< 2 g/dL and/or dependence on transfusion. A complete response was reached by 62.5%, 79.3%, 85.1% at 3, 4, 6 weeks respectively. 14.9% of patients had either a partial response or a resistant disease at 6 weeks. IgG/IgG+C3d positivity was a negative prognostic factor, as compared to positivity to C3d only, with the need of a second line treatment (prevalently Mabthera or Mycophenolate Mofetil) in 31.7% vs 0, respectively (p 0.009). Currently 6.1% of the patients were lost to follow up, 1.3% died, 55,8% are in Complete Response without events and 21.9% of the patients are still on treatment . At the last follow up, in the whole "cohort" of warm AIHA, 58% have a Primary form, 15.7% an isolated post infective form and 27.7% a Secondary form (56% Evans Syndrome). The management of the patients diagnosed after November 2013 was mostly in agreement with our recommendations, whose comprehensive therapeutic algorithm is reported in table 2, with prolonged steroid tapering in order to extend the treatment for at least 6 months. The most important difference between the retrospective and prospective study was the duration of first line treatment: 6 months or more, for steroid dependence, in 71.6% of patients in the prospective study versus 52.3% of the retrospective (p 0.031) and, more importantly, the percentage of relapsed patients: 8.3% in the prospective study versus 29.8% of the retrospective (p 0.001), these data need a longer follow up (median follow up: 24 months in the prospective study versus 63 in the retrospective) Disclosures Colombatti: Global Blood Therapeutics: Consultancy; Novartis: Consultancy; AddMedica: Consultancy.
Primary autoimmune neutropenia (pAN) is typified by onset in early infancy and a mild/moderate phenotype that resolves within 3 years of diagnosis. In contrast, secondary AN is classically an adult disease associated with malignancy, autoimmunity, immunodeficiency, viral infection, or drugs. This study describes a cohort of 79 children from the Italian Registry who, although resembling pAN, did not fully match the criteria for pAN because neutropenia either appeared after age 5 years (LO-Np) or lasted longer than 3 years (LL-Np). These 2 categories compared with classical pAN showed a far inferior rate of resolution (P < .001), lower severity of neutropenia (P = .03), leukopenia (P < .001), lymphopenia (P < .001) with low B+ (P = .001), increased need of granulocyte colony-stimulating factor (P = .04), and increased frequency of autoimmunity over the disease course (P < .001). A paired comparison between LO-Np and LL-Np suggested that LO-Np had a lower rate of resolution (P < .001) and lower white blood cell (P < .001) and lymphocyte (P < .001) values, higher occurrence of apthae (P = .008), and a stronger association with autoimmune diseases/markers (P = .001) than LL-Np, thus suggesting a more pronounced autoimmune signature for LO-Np. A next-generation sequencing panel applied in a small subgroup of LO-Np and LL-Np patients identified variants related to immune dysregulations. Overall, these findings indicate that there are important differences among pAN LL-Np and LO-Np. Forms rising after 3 years of age, with low tendency to resolution, require tight monitoring and extensive immune investigations aimed to early identify underlying immunologic disease.
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