Piero Farruggia

Effect of eradication of Helicobacter pylori in children with chronic immune thrombocytopenia: A prospective, controlled, multicenter study†

The eradication of Helicobacter pylori has been associated with remission of immune thrombocytopenia (ITP) in approximately half of eradicated patients. Data on children are limited to small case series.

Long‐term follow‐up analysis after rituximab therapy in children with refractory symptomatic ITP: identification of factors predictive of a sustained response

We report the long‐term follow‐up (median 39·5 months) of 49 paediatric patients (33 females and 16 males) with refractory symptomatic immune thrombocytopenic purpura (ITP) treated with rituximab. The overall response rate was 69% (34/49 patients). Twenty‐one responders had a platelet count >50 × 109/l at a median 20·2 months from treatment. Kaplan–Meier analysis showed a probability of relapse‐free survival (RFS) of 60% at 36 months from the first rituximab infusion. The number of infusions and a previous splenectomy did not influence overall response rate. Patients who achieved complete response were significantly older at diagnosis and first rituximab infusion than partial responders (P = 0·027). Older children displayed a significantly greater probability of sustained response (RFS) at 36 months than younger children (88·9% vs. 56·7%, P = 0·037). Earlier responses (within 20 d from treatment) were significantly associated with both complete (P = 0·004) and sustained response (P = 0·002). Only mild and transient side‐effects were observed in 9/49 children; no major infections nor delayed toxicities were recorded during the follow‐up.

Castleman's disease in childhood: report of three cases and review of the literature.

Castlemans disease (CD) is a rare, localized or generalized, lymphoproliferative disorder with a frequent mediastinal location, but possible in any lymph node or extra nodal site. It usually appears in young adults whilst it rarely occurs in childhood. There are only about 100 pediatric cases published, five of them in Italy. We report 3 cases of localized Castlemans disease, investigated in our Department in a 3 years period and reviewed the literature.

Congenital and acquired neutropenia consensus guidelines on diagnosis from the Neutropenia Committee of the Marrow Failure Syndrome Group of the AIEOP (Associazione Italiana Emato-Oncologia Pediatrica).

Congenital and acquired neutropenia are rare disorders whose frequency in pediatric age may be underestimated due to remarkable differences in definition or misdiagnosed because of the lack of common practice guidelines. Neutropenia Committee of the Marrow Failure Syndrome Group (MFSG) of the AIEOP (Associazione Italiana Emato‐Oncologia Pediatrica) elaborated this document following design and methodology formerly approved by the AIEOP board. The panel of experts reviewed the literature on the topic and participated in a conference producing a document which includes a classification of neutropenia and a comprehensive guideline on diagnosis of neutropenia. Pediatr Blood Cancer 2011;57:10–17.

Congenital and acquired neutropenias consensus guidelines on therapy and follow‐up in childhood from the Neutropenia Committee of the Marrow Failure Syndrome Group of the AIEOP (Associazione Italiana Emato‐Oncologia Pediatrica)

The management of congenital and acquired neutropenias presents some differences according to the type of the disease. Treatment with recombinant human granulocyte-colony stimulating factor (G-CSF) is not standardized and scanty data are available on the best schedule to apply. The frequency and the type of longitudinal controls in patients affected with neutropenias are not usually discussed in the literature. The Neutropenia Committee of the Marrow Failure Syndrome Group (MFSG) of the Associazione Italiana di Emato-Oncologia Pediatrica (AIEOP) elaborated this document following design and methodology formerly approved by the AIEOP board. The panel of experts reviewed the literature on the topic and participated in a conference producing a document that includes recommendations on neutropenia treatment and timing of follow-up.

Infectious complications in children with severe congenital, autoimmune or idiopathic neutropenia: a retrospective study from the Italian Neutropenia Registry.

We describe the incidence and characteristics of infections in children with severe congenital neutropenia (SCN), autoimmune neutropenia (AN) and idiopathic neutropenia (IN). Data extracted from the Italian Neutropenia Registry on 73 patients with 108 episodes of infections were collected from 2000 to 2009. All SCN patients with SCN and one third of AN and IN experienced at least 1 infectious episode, equating to 5.7 infections/patient in SCN and approximately 0.6 in AN and IN. The rate of infections before diagnosis of neutropenia was 6.35/1000 patient-days at risk in SCN, 0.48 in AN and 0.71 in IN (P < 0.001) and significantly decreased after diagnosis. Skin and subcutaneous abscesses and cellulitis were the most frequent types of infection encountered, followed by pneumonia. Infections are an important clinical issue in the management of neutropenic patients, even in those considered at lower risk.

Effectiveness of cyclosporine and mycophenolate mofetil in a child with refractory evans syndrome

Evans Syndrome is a rare autoimmune disease consisting of hemolytic anemia, thrombocytopenia and/or neutropenia. It may be associated with other autoimmune or lymphoproliferative diseases. Its course can be extremely serious and, rarely, even life-threatening; thus it represents a excellent treatment challenge for the pediatric hematologist. First line treatment consists of steroids and/or immunoglobulin; further therapy with rituximab, vincristine, cyclophosphamide and other immunosuppressive drugs can be considered in unresponsive patients. We describe a baby with refractory Evans Syndrome that was cured by prolonged administration of mycophenolate mofetil and remained disease-free for 4 years after the discontinuation of treatment.

Somatic, hematologic phenotype, long-term outcome, and effect of hematopoietic stem cell transplantation. An analysis of 97 Fanconi anemia patients from the Italian national database on behalf of the Marrow Failure Study Group of the AIEOP (Italian Association of Pediatric Hematology–Oncology)

We analyzed 97 Fanconi anemia patients from a clinic/biological database for genotype, somatic, and hematologic phenotype, adverse hematological events, solid tumors, and treatment. Seventy‐two patients belonged to complementation group A. Eighty percent of patients presented with mild/moderate somatic phenotype and most with cytopenia. No correlation was seen between somatic/hematologic phenotype and number of missense mutations of FANCA alleles. Over follow‐up, 33% of patients improved or maintained mild/moderate cytopenia or normal blood count, whereas remaining worsened cytopenia. Eleven patients developed a hematological adverse event (MDS, AML, pathological cytogenetics) and three developed solid tumors. 10 years cumulative risk of death of the whole cohort was 25.6% with median follow‐up 5.8 years. In patients eligible to hematopoietic stem cell transplantation because of moderate cytopenia, mortality was significantly higher in subjects transplanted from matched unrelated donor over nontransplanted subjects, whereas there was no significant difference between matched sibling donor transplants and nontransplanted patients. In patients eligible to transplant because of severe cytopenia and clonal disease, mortality risk was not significantly different in transplanted from matched unrelated versus matched sibling donor versus nontransplanted subjects. The decision to transplant should rely on various elements including, type of donor, HLA matching, patient comorbidities, impairment, and clonal evolution of hematopoiesis. Am. J. Hematol. 91:666–671, 2016.

Diagnosis and management of primary autoimmune neutropenia in children: insights for clinicians

Autoimmune neutropenia of infancy (AIN), also called primary autoimmune neutropenia, is a disease in which antibodies recognize membrane antigens of neutrophils, mostly located on immunoglobulin G (IgG) Fc receptor type 3b (FcγIIIb receptor), causing their peripheral destruction. It is the most frequent type of neutropenia in children under 3–4 years of age and in most cases shows a benign, self-limited course. The diagnosis is based on evidence of indirect antineutrophil antibodies, whose detection frequently remains difficult. In this review we have analyzed the literature regarding AIN and present our personal experience in diagnosis and management.

Autoimmune neutropenia of infancy: Data from the Italian neutropenia registry

ing these with HFE genetic profiles. 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* (P5 0.001). However, this was not true in patients with H63D in heterozygosis or absence of mutation (P5 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 to 500 ng/mL. Serum TS was obtained from 94 patients, with a median of 42% (31–57) and elevated results in 32 (34%) of the tests. Considering MRI findings as standard, SF was the most sensitive test (sensitivity 94.7%, specificity 11.8%), whereas TS was the most specific (sensitivity 34%, specificity 65.4%), indicating that they might be complementary. Sensitivity and specificity values were similar in patients with and without HFE mutation. Iron overload prevalence was different according to the affected organ or the type of HFE mutation; over 50% of patients with liver iron overload carried the H63D mutation, and two out of three patients who had cardiac iron overload were also H63D carriers. A total of 38% of the H63D carriers presented with iron overload in the liver and spleen and 22% in the pancreas, showing that this mutation alone might correlate with iron overload. It is worth noticing, however, that the absence of HFE mutations does not rule out the presence of other mutations associated with hereditary hemochromatosis. Our study demonstrates, in a large sample of Brazilian patients, that MRI-T2* is a non-invasive, accurate, and sensitive technique for the detection of low levels of iron overload in patients with HH type 1. Excessive iron stores in the liver were detected in 39% of patients, showing that iron accumulation begins in the liver [6]. Given the observation that MRI is an accurate and safe tool to measure iron stores in these organs, we believe that this technology should be incorporated in the investigation of suspected cases of hemochromatosis and contribute to guide therapeutic decisions such as phlebotomy.