Key Points KLF1 mutations cause severe congenital hemolytic anemia associated with a deficiency of red cell pyruvate kinase. A severe KLF1 deficiency causes hereditary persistence of embryonic globin synthesis.
We present a versatile, mass-producible, paper-based microchip electrophoresis platform that enables rapid, affordable, decentralized hemoglobin testing at the point-of-care.
Alpha thalassemia is the most common genetic disease in the world with the prevalence of carriers ranging from 5-50% in several populations. Coinheritance of two defective α-globin genes usually gives rise to a symptomatic condition, hemoglobin (Hb) H disease. Previously, it has been suggested from several studies in different populations that nondeletional Hb H disease (--/αTα or --/ααT) is generally more severe than the deletional type (--/-α). In this report, we describe four rare nondeletional α-thalassemia mutations in Thai individuals, including initiation codon mutation (HBA2:c.1delA), donor splice site mutation (IVSI-1, HBA1:c.95 + 1G>A), Hb Queens Park (HBA1:c.98T>A) [α32(B13)Met>Lys], and Hb Westmead (HBA2:c.369C>G) [α122(H5)His>Gln]. Interactions of the first three mutations with the α⁰-thalassemia resulted in nondeletional Hb H disease; however, their clinical presentations were rather mild and some were detected accidentally. This suggests that a genotype-phenotype correlation of α-thalassemia syndrome might be more heterogeneous and so the type of mutation does not simply imply the prediction of the resulting phenotype. Our data will be of use in future genetic counseling of such conditions that are increasingly identified thanks to the improvement of molecular analysis in routine laboratories.
Background: Neonatal screening for haemoglobin (Hb) disorders is a standard of care in several developed countries with the main objective to detect Hb S. Such practice has not been established in Thailand where a-thalassaemia and haemoglobin E (Hb E) are highly prevalent. Early identification of thalassaemias could be helpful and strengthen the programme for prevention and control for severe thalassaemias. Methods: Data from isoelectric focusing (IEF) and IsoscanÕ for detecting types and amount (%) of each haemoglobin in 350 newborn's dried blood spots were analysed and compared with the comprehensive genotype analysis by DNA studies as a gold standard. Results: Based on genetic profiles, there were 10 different categories: (1) normal (n ¼ 227), (2) a þ -thalassaemia trait (n ¼ 14), (3) a 0 -thalassaemia trait (n ¼ 13), (4) 0 -thalassaemia trait (n ¼ 7), (5) Hb E trait (n ¼ 72), (6) Hb E trait with a 0 -thalassaemia or homozygous a þ -thalassaemia (n ¼ 5), (7) Hb E trait with a þ -thalassaemia trait (n ¼ 5), (8) homozygous Hb E (n ¼ 3), (9) homozygous Hb E with a 0 -thalassaemia trait (n ¼ 1) and (10) Hb H disease (n ¼ 3). The presence of Hb Bart's and Hb E were used to identify cases with a-thalassaemia and Hb E, respectively. We set 0.25% of Hb Bart's and 1.5% of Hb E as a cut-off level to detect a þ -thalassaemia trait (sensitivity 92.86% and specificity 74.0%) and Hb E trait with 100% of both sensitivity and specificity for IEF diagnosis. Conclusion: Although molecular diagnosis seems to be better for definitive diagnosis of thalassaemia syndromes at birth, however, using our reference range described herein, IEF can be applied in a resource-limiting setting with acceptable reliability.
Introduction: Nearly 24% of the world's population carry hemoglobin (Hb) gene variants, with the large majority of affected births occurring in low-income countries. The most prevalent structural Hb variants are the recessive β-globin gene mutations, βS or S, βC or C, and βE or E1. Hb S mutation is prevalent in sub-Saharan Africa and in Central India. Hb C is common in West Africa, and Hb E is common in Southeast Asia and in India. Homozygotes or compound heterozygotes with βS (e.g., Hb SS or SC) have sickle cell disease (SCD), a chronic sickling disorder associated with pain, chronic multi-organ damage, and high mortality. While Hb EE causes only a mild microcytic anemia, Hb E in combination with β-thalassemia can lead to transfusion dependent thalassemia. Though carriers are typically asymptomatic, they may pass the mutations to their offspring. Screening is needed so that these disorders can be diagnosed early and managed in a timely manner2. For example, in low-income countries, due to lack of nationwide screening and comprehensive care programs, up to 80% of babies born with SCD are undiagnosed and less than half of them survive beyond 5 years of age2. The unmet need for affordable, portable, accurate point-of-care tests to facilitate decentralized hemoglobin testing in resource-constrained countries is well-recognized 2,3. Here, we present international multi-site clinical validation results and high diagnostic accuracy of the 'HemeChip' (Fig. 1), an affordable, 10-minute point-of-care microchip electrophoresis test for identifying common Hb variants S, C, and E. Methods: Institutional Review Board approvals were obtained at each study site, and blood samples were collected as part of the standard clinical care. Tests were performed by local users, including healthcare workers and clinical laboratory personnel. 315 children (6 weeks to 5 years of age) were tested in Kano, Nigeria. Study participants were enrolled at three hospitals, Amino Kano Teaching Hospital, Murtala Mohammed Specialist Hospital, and Hasiya Bayero Pediatric Hospital. 124 subjects (7 weeks to 63 years old) were included in the study at Siriraj Thalassemia Center in Bangkok, Thailand. 298 subjects (8 months to 65 years old) were tested at a referral testing facility of ICMR-National Institute of Research in Tribal Health, located at Late Baliram Kashayap Memorial Medical College, Jagdalpur, Chhattisgarh, India. Blood samples were tested with both HemeChip and the standard reference methods, high performance liquid chromatography or cellulose acetate electrophoresis. Reference test results were not available to the HemeChip users. Similarly, HemeChip test results were not available to the users of the standard reference tests. Clinical validation studies presented here were performed with a fully functional, portable HemeChip prototype developed at Case Western Reserve University (Fig. 1A). A commercial product has been developed based on this technology by Hemex Health Inc. under the product name, GazelleTM(Fig. 1B). Results and Discussion: Among the total 768 tests performed with HemeChip in all test sites, 732 were valid tests, as defined by the Standards for Reporting Diagnostic Accuracy (STARD)4. HemeChip correctly identified all subjects with Hb SS, Hb SC, Hb AS, Hb AE, and Hb EE with 100% accuracy (Table 1). Nine subjects with normal Hb (Hb AA) were identified as HbSS in Nigeria. No subjects with disease were identified as normal or trait by HemeChip. Three subjects with compound heterozygous Hb Sβ-thalassemia (2 subjects with Hb Sβ+-thalassemia, 1 subject with Hb Sβ0-thalassemia) were identified as Hb SS. Sensitivity was 100% for all Hb types tested. Specificity was 98.7% for Hb SS versus other Hb types, and 100% for all other Hb types tested. HemeChip displayed an overall diagnostic accuracy of 98.4% in comparison to standard reference methods for the Hb variants tested in all clinical testing sites (Table 1). HemeChip is a versatile point-of-care system that enables affordable, accurate, decentralized hemoglobin testing in resource-limited settings. References: 1. Weatherall DJ, Clegg JB. Bull World Health Organ. 2001;79(8):704-712. 2. Mburu J, Odame I. International Journal of Laboratory Hematology. 2019;41(S1):82-88. 3. Alapan Y, Fraiwan A, Kucukal E, et al. Expert Review of Medical Devices. 2016;13(12):1073-1093. 4. Bossuyt PM, Reitsma JB, Bruns DE, et al. BMJ : British Medical Journal. 2015;351:h5527. Disclosures Fraiwan: Hemex Health, Inc.: Equity Ownership, Patents & Royalties. Hasan:Hemex Health, Inc.: Equity Ownership, Patents & Royalties. An:Hemex Health, Inc.: Patents & Royalties. Thota:Hemex Health, Inc.: Employment. Piccone:Hemex Health, Inc.: Patents & Royalties. Little:Hemex Health, Inc.: Patents & Royalties; GBT: Research Funding. Gurkan:Hemex Health, Inc.: Consultancy, Employment, Equity Ownership, Patents & Royalties, Research Funding.
Background and Objectives. To explore the role of cis-regulatory sequences within the β globin gene cluster at chromosome 11 on human γ globin gene expression related to Hb E allele, we analyze baseline hematological data and Hb F values together with β globin haplotypes in homozygous Hb E. Patients and Methods. 80 individuals with molecularly confirmed homozygous Hb E were analyzed for the β globin haplotypes and Xmn I polymorphism using PCR-RFLPs. 74 individuals with complete laboratory data were further studied for association analyses. Results. Eight different β globin haplotypes were found linked to Hb E alleles; three major haplotypes were (a) (III), (b) (V), and (c) (IV) accounting for 94% of Hb E chromosomes. A new haplotype (Th-1) was identified and most likely converted from the major ones. The majority of individuals had Hb F < 5%; only 10.8% of homozygous Hb E had high Hb F (average 10.5%, range 5.8–14.3%). No association was found on a specific haplotype or Xmn I in these individuals with high Hb F, measured by alkaline denaturation. Conclusion. The cis-regulation of γ globin gene expression might not be apparent under a milder condition with lesser globin imbalance such as homozygous Hb E.
Two 21-year old dizygotic twin men of Iraqi descent were homozygous for HBB codon 8, deletion of two nucleotides (-AA) frame-shift β(0) -thalassaemia mutation (FSC8; HBB:c25_26delAA). Both were clinically well, had splenomegaly, and were never transfused. They had mild microcytic anaemia (Hb 120-130 g/l) and 98% of their haemoglobin was fetal haemoglobin (HbF). Both were carriers of Hph α-thalassaemia mutation. On the three major HbF quantitative trait loci (QTL), the twins were homozygous for G>A HBG2 Xmn1 site at single nucleotide polymorphism (SNP) rs7482144, homozygous for 3-bp deletion HBS1L-MYB intergenic polymorphism (HMIP) at rs66650371, and heterozygous for the A>C BCL11A intron 2 polymorphism at rs766432. These findings were compared with those found in 22 other FSC8 homozygote patients: four presented with thalassaemia intermedia phenotype, and 18 were transfusion dependent. The inheritance of homozygosity for HMIP 3-bp deletion at rs66650371 and heterozygosity for Hph α-thalassaemia mutation was found in the twins and not found in any of the other 22 patients. Further studies are needed to uncover likely additional genetic variants that could contribute to the exceptionally high HbF levels and mild phenotype in these twins.
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