Objectives ⁄ methods: This 1-yr prospective phase II trial evaluated the efficacy of deferasirox in regularly transfused patients aged 3-81 yrs with myelodysplastic syndromes (MDS; n = 47), Diamond-Blackfan anaemia (DBA; n = 30), other rare anaemias (n = 22) or b-thalassaemia (n = 85). Dosage was determined by baseline liver iron concentration (LIC). Results: In patients with baseline LIC ‡7 mg Fe ⁄ g dry weight, deferasirox initiated at 20 or 30 mg ⁄ kg ⁄ d produced statistically significant decreases in LIC (P < 0.001); these decreases were greatest in MDS and least in DBA. As chelation efficiency and iron excretion did not differ significantly between disease groups, the differences in LIC changes are consistent with mean transfusional iron intake (least in MDS: 0.28 ± 0.14 mg ⁄ kg ⁄ d; greatest in DBA: 0.4 ± 0.11 mg ⁄ kg ⁄ d). Overall, LIC changes were dependent on dose (P < 0.001) and transfusional iron intake (P < 0.01), but not statistically different between disease groups. Changes in serum ferritin and LIC were correlated irrespective of disease group (r = 0.59), supporting the potential use of serum ferritin for monitoring deferasirox therapy. Deferasirox had a safety profile compatible with long-term use. There were no disease-specific safety ⁄ tolerability effects: the most common adverse events were gastrointestinal disturbances, skin rash and non-progressive serum creatinine increases. Conclusions: Deferasirox is effective for reducing iron burden with a defined, clinically manageable safety profile in patients with various transfusion-dependent anaemias. There were no disease-specific adverse events. Once differences in transfusional iron intake are accounted for, dose-dependent changes in LIC or serum ferritin are similar in MDS and other disease groups.
Mutations resulting in charge reversal in the y-domain of PSTPIP1 (E→K) and increased interaction with pyrin cause a distinct autoinflammatory disorder defined by clinical and biochemical features not found in patients with PAPA syndrome, indicating a unique genotype-phenotype correlation for mutations in the PSTPIP1 gene. This is the first inborn autoinflammatory syndrome in which inflammation is driven by uncontrolled release of members of the alarmin family.
Summary
Iron‐overload associated endocrinopathy is the most frequently reported complication of chronic transfusion therapy in patients with thalassaemia (Thal). This study compared iron‐overloaded subjects with Thal (n = 142; 54%M; age 25·8 ± 8·1 years) and transfused sickle‐cell disease (Tx‐SCD; n = 199; 43%M, 24·9 ± 13·2 years) to non‐transfused SCD subjects (non‐Tx‐SCD; n = 64, 50%M, 25·3 ± 11·3 years), to explore whether the underlying haemoglobinopathy influences the development of endocrinopathy. Subjects were recruited from 31 centres in the USA, Canada and the UK. Subjects with Thal had more evidence of diabetes (13% vs. 2%, P < 0·001), hypogonadism (40% vs. 4%, P < 0·001), hypothyroidism (10% vs. 2%, P = <0·001) and growth failure (33% vs. 7%, P < 0·001), versus Tx‐SCD. Fifty‐six per cent of Thal had more than one endocrinopathy compared with only 13% of Tx‐SCD (P < 0·001). In contrast, Tx‐SCD was not different from non‐Tx‐SCD. Multivariate analysis indicated that endocrinopathy was more likely in Thal than SCD [Odds Ratio (OR) = 9·4, P < 0·001], with duration of chronic transfusion a significant predictor (OR = 1·4 per 10 years of transfusion, P = 0·04). Despite iron overload, endocrinopathy was not increased in Tx‐SCD versus non‐Tx‐SCD, suggesting that the underlying disease may modulate iron‐related endocrine injury. However, because transfusion duration remained a significant predictor of endocrinopathy, these data should be confirmed in SCD subjects that have been chronically transfused for longer periods of time.
Purpose:
Kaposiform lymphangiomatosis (KLA) is a rare, frequently aggressive, systemic disorder of the lymphatic vasculature, occurring primarily in children. Even with multimodal treatments, KLA has a poor prognosis and high mortality rate secondary to coagulopathy, effusions and systemic involvement. We hypothesized that, as has recently been found for other vascular anomalies, KLA may be caused by somatic mosaic variants affecting vascular development.
Methods:
We performed exome sequencing of tumor samples from five individuals with KLA, along with samples from uninvolved control tissue in three of the five. We used digital PCR (dPCR) to validate the exome findings and to screen KLA samples from six other individuals.
Results:
We identified a somatic activating
NRAS
variant (c.182A>G, p.Q61R) in lesional tissue from 10/11 individuals, at levels ranging from 1–28%, that was absent from the tested control tissues.
Conclusion:
The activating
NRAS
p.Q61R variant is a known ‘hotspot’ variant, frequently identified in several types of human cancer, especially melanoma. KLA, therefore, joins a growing group of vascular malformations and tumors caused by somatic activating variants in the RAS/PI3K/mTOR signalling pathways. This discovery will expand treatment options for these high risk patients as there is potential for use of targeted RAS pathway inhibitors.
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