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Hematologists are frequently involved in the diagnostic pathway of Gaucher disease type 1 (GD1) patients since they present several hematological signs. However, GD1 is mainly underdiagnosed because of a lack of awareness. In this multicenter study, we combine the use of a diagnostic algorithm with a simple test (β-glucosidase activity on Dried Blood Spot) in order to facilitate the diagnosis in a population presenting to the hematologist with splenomegaly and/or thrombocytopenia associated with other hematological signs. In this high-risk population, the prevalence of GD1 is 3.3%. We propose an equation that predicts the probability of having GD1 according to three parameters that are routinely evaluated: platelet count, ferritin, and transferrin saturation.

Iron overload-related heart failure is the principal cause of death in transfusion dependent patients, including those with Thalassemia Major. Linking cardiac siderosis measured by T2* to therapy improves outcomes. T1 mapping can also measure iron; preliminary data suggests it may have higher sensitivity for iron, particularly for early overload (the conventional cut-point for no iron by T2* is 20ms, but this is believed insensitive). We compared T1 mapping to T2* in cardiac iron overload. In a prospectively large single centre study of 138 Thalassemia Major patients and 32 healthy controls, we compared T1 mapping to dark blood and bright blood T2* acquired at 1.5T. Linear regression analysis was used to assess the association of T2* and T1. A \"moving window\" approach was taken to understand the strength of the association at different levels of iron overload. The relationship between T2* (here dark blood) and T1 is described by a log-log linear regression, which can be split in three different slopes: 1) T2* low, <20ms, r2 = 0.92; 2) T2* = 20-30ms, r2 = 0.48; 3) T2*>30ms, weak relationship. All subjects with T2*<20ms had low T1; among those with T2*>20ms, 38% had low T1 with most of the subjects in the T2* range 20-30ms having a low T1. In established cardiac iron overload, T1 and T2* are concordant. However, in the 20-30ms T2* range, T1 mapping appears to detect iron. These data support previous suggestions that T1 detects missed iron in 1 out of 3 subjects with normal T2*, and that T1 mapping is complementary to T2*. The clinical significance of a low T1 with normal T2* should be further investigated.

Fabry disease is a rare X-linked lysosomal storage disorder caused by mutations in the GLA gene, leading to deficient α-galactosidase A activity and, consequently, to glycosphingolipid accumulation in a wide variety of cells. Fabry disease due to N215S (c.644A>G, p.Asn215Ser) missense mutation usually results in a late-onset phenotype presenting with isolated cardiac involvement. We herein present the case of a patient with N215S mutation with cardiac involvement, namely left ventricular hypertrophy and ventricular arrhythmias, and end-stage renal disease requiring kidney transplantation. To the best of our knowledge, this is the first report of a kidney-transplanted Fabry patient treated with oral pharmacologic chaperone migalastat.

Anemia and hyperferritinemia are frequent findings at diagnosis of Gaucher disease (GD). Macrophage-independent dyserythropoiesis and abnormal iron metabolism have been shown. We evaluated hematological and iron status at diagnosis (T0) and the effect of enzyme replacement therapy (ERT) on erythropoiesis and iron utilization over 5-year follow-up in type 1 GD patients and in an ex vivo model of erythropoiesis from CD34 + peripheral blood cells. At T0, 41% of patients had anemia and 51% hyperferritinemia. Hemoglobin increased from 12.6 (T0) to 13.9 g/dL (T6), GFD15, a marker of ineffective erythropoiesis, decreased from 5401 to 710 pg/ml, and serum ferritin decreased from 614 to 140 mcg/L (p < 0.001). In parallel, transferrin saturation (TSAT) increased. Hepcidin, although in the normal range, decreased from T0 to T6. Ex vivo studies showed that ERT restores the erythroid cells derived from CD34 + impaired ability to differentiate. During ERT, an increase in TFRC expression, consistent with the ability of erythroid precursors to uptake iron, and a reduction in HAMP and concomitant increase in SLC40A1 were observed. This is the largest study with a longitudinal follow-up evaluating erythropoiesis and iron metabolism, combining clinical and ex vivo data in GD. Iron dysregulation likely contributes to anemia, and ERT, by improving iron distribution, improves erythropoiesis.

Purposeβ-thalassemia major (βTM) frequently leads to endocrinological complications of chronic transfusion-induced iron overload, including growth hormone deficiency (GHD). With contrasting data on GHD in adult βTM populations, our study aimed to reevaluate the diagnosis of GHD using multiple tests and its progression over time.MethodsTwo experimental studies were conducted in adult βTM patients to assess GH secretory status. The first study reevaluated GH secretion after two years using a GHRH plus arginine test performed initially and during follow-up. The second study applied a glucagon stimulation test to those initially diagnosed with severe GHD, comparing the results with those of a GHRH plus arginine test.ResultsThe first study involved 80 patients: 67 patients had normal GH secretion at the first test, confirmed in 57 of them. Of the 13 initially diagnosed with GHD, only 3 were confirmed at the second test. The second study included 91 patients: 18 of the initially identified as having severe GHD, were tested with another challenge, but only 6 confirmed severe GHD, suggesting a possible risk of overdiagnosis in initial evaluations.ConclusionsThe marked variability in GHD diagnoses among adult patients with βTM highlights the need for multiple diagnostic tests to improve accuracy and avoid unnecessary interventions. Our findings highlight the importance of reassessing GH secretory reserves with multiple tests at multiple time points, supporting a cautious approach to hormone replacement therapy, suggesting to start it only when clearly indicated.

Non-transfusion-dependent (NTD) thalassaemia is characterised by ineffective erythropoiesis and haemolytic anaemia, leading to long-term complications, poor quality of life, and early mortality. No oral disease-modifying therapies are approved for β-thalassaemia and no agents are approved for α-thalassaemia. The objective of this study was to evaluate the efficacy and safety of mitapivat, an oral activator of pyruvate kinase, in adults with NTD α-thalassaemia or NTD β-thalassaemia. ENERGIZE is a phase 3, double-blind, randomised, placebo-controlled trial followed by an open-label extension conducted at 70 hospitals in 18 countries globally. Participants had to be aged 18 years or older with NTD α-thalassaemia or NTD β-thalassaemia and haemoglobin concentrations of 10 g/dL or lower. Participants were randomly assigned 2:1 to mitapivat or placebo (100 mg orally twice a day for 24 weeks) via a central interactive response technology system using block randomisation, stratified by baseline haemoglobin concentration and thalassaemia genotype. Everyone was masked to the patients' treatment assignment until the study was unblinded for the analysis of the primary endpoint. The primary endpoint was haemoglobin response (≥1·0 g/dL increase from baseline in mean haemoglobin concentration from week 12 through week 24), analysed in all patients who were randomly assigned. Safety was analysed in all patients who received at least one dose of study treatment. This study is registered with ClinicalTrials.gov, number NCT04770753, and is active but not recruiting. Between Nov 8, 2021, and March 31, 2023, 235 patients were screened, of whom 194 were enrolled (123 [63%] were female and 71 [37%] were male). 130 patients were randomly assigned to mitapivat and 64 patients to placebo and formed the full analysis set. One patient in each group was randomly assigned but not given treatment and was therefore excluded from the safety analysis set (mitapivat 129 patients and placebo 63 patients). Seven patients in the mitapivat group and one patient in the placebo group discontinued treatment before the end of the 24-week double-blind period. 55 (42%) of 130 patients in the mitapivat group had a haemoglobin response versus one (2%) of 64 in the placebo group (least-squares mean difference 41% [95% CI 32–50], two-sided p<0·0001). Adverse events were reported in 107 (83%) of 129 patients who received mitapivat and 50 (79%) of 63 patients who received placebo. The most commonly reported adverse events with mitapivat were headache (29 [22%] of 129 patients in the mitapivat group vs six [10%] of 63 in the placebo group), initial insomnia (18 [14%] vs three [5%]), nausea (15 [12%] vs five [8%]), and upper respiratory tract infection (14 [11%] vs four [6%]). No deaths were reported. Mitapivat could be a new oral treatment for adults with NTD α-thalassaemia or NTD β-thalassaemia by increasing haemoglobin concentration and improving fatigue. Agios Pharmaceuticals.

Background: Hereditary hemoglobin disorders are the most common globally distributed monogenic red cell diseases. The rights of women with thalassemia or sickle cell disease (SCD) to motherhood need to be protected by creating a roadmap to guide her, and her family network, along all the phases of the event. In fact, pregnancy in these vulnerable patients requires special attention and guidelines from the counseling stage (giving information about the special requirement and risks posed by their pregnancy with respect to the general population) the pre-conception stage, the early and mid-late pregnancy stage, to labor and lactation. The biocomplexity of these diseases requires a multidisciplinary team synergizing with gynecologists and obstetricians. In addition, the presence of a multicultural scenario requires healthcare workers to overcome stereotypes and adopt appropriate anthropological tools that might help them integrate the different cultural models of disease and motherhood. Methods: The Management Committee of the Society for Thalassemia and Hemoglobinopathies (SITE) selected and brought together a multidisciplinary and multiprofessional group made up of experts in hemoglobinopathies and experts in anthropology, flanked along with by experts with methodological and organizational expertise in order to create recommendations based on the integration of available scientific evidence together with expert opinion. Results: The panelists critically analyzed the literature, combining in a single document practices developed over several years of managing young women with hemoglobinopathies in a sensitive phase of their lives. Conclusions: This good practice document is the result of a collegial effort by Italian experts on hemoglobinopathies who are members of SITE. (SITE).

Traditional echocardiography is unable to detect neither the early stages of iron overload cardiomyopathy nor myocardial iron deposition. The aim of the study is to determine myocardial systolic strain indices in thalassemia major (TM), and assess their relationship with T2*, a cardiac magnetic resonance index of the severity of cardiac iron overload. 55 TM cases with recent cardiac magnetic resonance (CMR-T2*) underwent speckle tracking analysis to assess regional myocardial strains and rotation. The results were compared with a normal control group ( n  = 20), and were subsequently analyzed on the basis of the CMR-T2* values. Two TM groups were studied: TM with significant cardiac iron overload (“low” T2*, ≤20 ms; n  = 21), and TM with normal T2* values (“normal” T2*, >20 ms; n  = 34). TM patients show significant, uniform decrease in circumferential and radial strain ( P  < 0.05), and a remarkable reduction in end-systolic rotation, both global, and for all segments ( P  < 0.001). No significant differences were found between the low- and the normal T2* group either in regional strains and rotation or in standard echocardiographic and CMR parameters. Spearman’s correlation coefficient shows no significant correlation between myocardial strains, rotation and cardiac T2* values. In conclusion, our results are in accordance with recent evidence that myocardial iron overload is not the only mechanism underlying iron cardiomyopathy in TM. Strain imaging can predict subclinical myocardial dysfunction irrespective of CMR-T2* values, although it cannot replace CMR-T2* in assessing cardiac iron overload. Finally, it might be useful to appropriately time cardioactive treatment.