1.
Beyond transfusion therapy: new therapies in thalassemia including drugs, alternate donor transplant, and gene therapy.
Porter, J
Hematology. American Society of Hematology. Education Program. 2018;(1):361-370
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Abstract
Transfusion combined with chelation therapy for severe β thalassemia syndromes (transfusion-dependent thalassemia [TDT]) has been successful in extending life expectancy, decreasing comorbidities and improving quality of life. However, this puts lifelong demands not only on the patients but also on the health care systems that are tasked with delivering long-term treatment and comprehensive support. Prevention programs and curative approaches are therefore an important part of overall strategy. Curative treatments alter the dynamic of a patient's health care costs, from financial commitment over 50 years, into a potential "one-off" investment. Since the 1980s, this has usually been available only to the 30% or so of young children with matched sibling donors. By improving the safety of matched related donors and haploidentical hematopoietic stem cell transplants, the potential size of the donor pool for curative therapies may be increased. Recent advances in gene therapy demonstrate that even patients lacking a matched donor can be rendered transfusion independent with an autograft of genetically modified autologous stem cells, with a low short-term risk. Noncurative treatments are also of potential value by decreasing use of blood and chelators and decreasing hospital visits. An example is luspatercept, an activin-receptor trap that modifies transforming growth factor-β signaling, thereby increasing the efficiency of erythropoiesis. This has entered phase 3 clinical trials for TDT and non-TDT and, usefully increases in both Hb and quality of life in non-TDT as well as decreasing transfusion requirements in TDT. Other novel noncurative treatments are entering clinical trials such improvement of erythropoiesis through pharmacological manipulation of hepcidin and iron metabolism.
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Recent advances in congenital ichthyoses.
Hernández-Martín, A, González-Sarmiento, R
Current opinion in pediatrics. 2015;(4):473-9
Abstract
PURPOSE OF REVIEW In 2010, a new classification of the congenital ichthyoses was published. At the time, the causative genes were known in many but not all instances. The goal of this review is to provide an update on molecular and clinical findings in congenital ichthyosis and to revise evidence-based and emerging treatments. RECENT FINDINGS Mutations in genes encoding for desmosomal components have recently been shown to cause three clinically overlapping entities: peeling skin disease; severe dermatitis, multiple allergies and metabolic wasting syndrome; and Netherton syndrome. Mutations in keratin 10 have been identified as the cause of ichthyosis with confetti, a rare form of ichthyosis characterized by severe erythroderma in which healthy spots gradually develop since childhood. There is no curative treatment for the congenital ichthyoses. A recent systematic review of randomized clinical trials of ichthyosis treatments revealed that research evidence of therapy is poor. SUMMARY The expanding phenotype and genotype of the ichthyoses facilitates accurate clinical diagnosis and permits a deeper knowledge of the epidermal pathophysiology. Although curative treatment is yet to come, N-acetylcysteine has recently been added to the therapeutic armamentarium and topical enzyme replacement therapy has emerged as a promising alternative in TG1-deficient individuals.