Search Results (60)

Haemoglobinopathies remain a major public health challenge, predominantly in endemic regions. Increasing migration has extended their prevalence in previously non-endemic areas, complicating early detection and prevention. As part of the HELIOS CA22119 COST Action Working Group 1, this narrative review critically examines established and emerging laboratory techniques for haemoglobinopathy carrier detection. It also explores diagnostic limitations, regional disparities, and opportunities for global harmonisation to support early detection, prevention, and equitable care. A literature search of MEDLINE, PubMed, Scopus, and EMBASE (2014–2024) identified studies on the screening, diagnosis, and prevention of haemoglobinopathies. Findings were synthesised across three domains: (1) preventive strategies, (2) carrier screening methods, and (3) prenatal diagnostic approaches. Advances in molecular technologies have improved diagnostic sensitivity and specificity. However, conventional haematological approaches, particularly complete blood count and haemoglobin typing, remain essential and cost-effective first-line tools. Key challenges include unequal access to advanced diagnostics and the lack of standardised protocols across regions. Strengthening prevention requires coordinated global efforts to promote accessible, accurate, and standardised diagnostic approaches tailored to regional genomic, economic, and healthcare contexts. Early and equitable carrier detection, combined with effective prenatal diagnosis, is critical to reducing the global burden and improving health outcomes in both endemic and emerging regions. Full article

Background: Haemoglobinopathies are the most common monogenic disorders both in Greece and worldwide. The most effective strategies against them are carrier detection and prenatal testing following genetic risk assessment consultation for couples on the likelihood of their offspring being affected. Case Presentation: A novel alpha globin chain variant, named Hb Thessaloniki, was detected in Northern Greece. The underlying point variation HBA1:c.260T>C (ref. seq. NM_000558.5) was detected in the HBA1 gene, in heterozygosity, during a routinely performed population screening for haemoglobinopathies. The amino-acid residue Leu86 was replaced by a structure disrupting Pro residue, resulting in a hyperunstable product as shown by the isopropanol test and predicted by the Dynamut2 and Alphafold3 algorithms. The haematological phenotype, due to which genetic analysis was performed, presented with mild microcytosis and hypochromia and was also indicative of the presence of an unstable haemoglobin produced in small quantities (variant encoded by HBA1). Since the proband’s partner presented with a normal haematological phenotype, there is no risk of the couple giving birth to an affected offspring. Expanded analysis of the proband’s relatives identified biallelic variants (α^Parmaα/αα^{Τhessaloniki}) in the proband’s mother, who presented with no apparent clinical findings, expect for slightly reduced haematological indices. Conclusions: The novel Hb Thessaloniki identified, although theoretically hyperunstable, seems to have minor effects on erythrocyte function, as indicated by haematological findings on the proband and his close relatives. Future identification of co-inheritance with HBA pathogenic point variations or deletions may provide further information regarding genetic counselling. In parallel, the usage of structure–function relation-calculating algorithms may enhance our prediction capability for novel variants. Full article

Background: Haemoglobinopathies such as beta-thalassemia (β-thal), alpha-thalassemia (α-thal) and sickle cell disease (SCD) are characterised by pathogenic gene variations (mutations) in the globin genes. Patients with haemoglobinopathies have the same disease-causing coding variations with very different disease phenotypes, from requiring blood transfusions to being non-symptomatic. The gap between the expected clinical outcomes based on primary coding mutations (the genotype) and the actual observed symptoms (the phenotype) often remains unexplained. We refer to the contribution of secondary genetic modifiers—specifically, non-coding variants of the genome that alter globin gene expression and pathophysiology—as the “missing heritability” of the clinical presentation [Primary Mutation + Missing Heritability (Non-Coding Variants) = Actual Clinical Phenotype]. Objectives: This systematic review aims to find evidence connecting genetic differences outside of the protein-coding region, as in promoters, enhancers or untranslated regions (UTRs), to the clinical severity (phenotype) of beta-thalassemia, alpha-thalassaemia and SCD. We summarise the molecular basis of phenotypic variation among haemoglobinopathy patients with identical variations to reveal their missing heritability and to enhance our understanding of prognostic strategies. Methods: This systematic review was performed in accordance with the PRISMA 2020 guidelines. We used search terms related to haemoglobinopathies, non-coding variation, SNP, promoters, enhancers and clinical severity to search major databases (PubMed and Google Scholar) as of October 2025. A total of 527 (out of 572) abstracts were fit for initial screening to identify the eligible reports. Due to heterogeneity in study designs and reported outcomes, findings were synthesised descriptively and grouped by variant mechanism (cis-acting and trans-acting). The final analysis included 89 articles that demonstrated a direct association between a non-coding genomic variant and a quantitative measure of clinical severity. Results: Two main groups of non-coding variants (NCVs) that modulate foetal haemoglobin (HbF) induction were identified. The first major group comprises cis-acting variants within globin gene clusters (HBG2 promoter XmnI polymorphism, HBB promoter mutations and α-globin enhancer variants), while the second major group comprises trans-acting quantitative trait loci (QTLs) (BCL11A and HBS1L-MYB loci). Non-globin NCVs in the UGT1A1 promoter were also found to influence the severity measures in β-thal and SCD. NCVs primarily alter the binding of transcription factors and the looping dynamics of chromatin, modulating the α/β chain balance ratio and γ-globin repression. The XmnI polymorphism is the most prominent cis-acting modifier associated with β-thal intermedia. The promoter polymorphisms in TNF-α and VCAM1 are associated with vascular complications in SCD. Conclusions: NCVs are fundamental when determining the clinical measures of haemoglobinopathies, in addition to coding variants. NCV screening should be integrated for clinical prognosis for the accurate prediction of haemoglobinopathy severity and associated high-risk complications. NCVs may represent promising targets for next-generation gene editing and therapeutic intervention strategies aimed at modifying the severity of β-thal, α-thal and SCD. Full article

Haemoglobinopathies, including β-thalassaemia and sickle cell disease (SCD), are among the most common monogenic disorders worldwide and remain major causes of morbidity and early mortality. Historically, management of these life-altering diseases has relied on supportive treatment and symptom management and, although these treatments reduce symptoms and ease disease burden, they do not correct the underlying genetic defect. Allogenic haematopoietic stem cell transplantation (HSCT) has been the only established curative option; however, it comes with substantial risks that significantly restrict its applicability. Over the past two decades, haematopoietic stem cell (HSC) gene therapy for haemoglobinopathies has rapidly progressed from experimental proof-of-concept to approved therapies. Lentiviral gene addition approaches have demonstrated durable expression of functional β-like globin transgenes, achieving transfusion independence in β-thalassaemia patients and significant reductions in vaso-occlusive events in SCD patients. Alternative therapeutic approaches to promote HbF expression have proved to be highly successful. Gene silencing strategies targeting BCL11A have been successful clinically and, more recently, gene editing technologies such as CRISPR/Cas9 have enabled precise disruption of regulatory elements controlling γ-globin repression, leading to the approval of the first CRISPR-based therapy for SCD and β-thalassaemia. Emerging base editing technologies promise even more precise genetic modification and are advancing through clinical evaluation. Despite these advances, access to gene therapy remains restricted due to the need for highly specialised manufacturing, toxic myeloablative conditioning regimens, and high treatment costs. Ongoing improvements and adaptations in these areas are essential to ensure that gene therapies fulfil their potential as accessible, curative treatments for patients suffering from haemoglobinopathies worldwide. Full article

Background: Glucose-6-phosphate dehydrogenase (G6PD) deficiency is the world’s most prevalent X-linked enzymopathy, yet public literacy regarding its inheritance, haemolytic triggers, and preventive actions remains inadequate in many high-risk populations. This study assessed public knowledge, attitudes, and preventive practices toward G6PD deficiency among adults in Al-Kharj, Saudi Arabia, a region reporting haemoglobinopathy burden and a recent expansion of national newborn screening. Materials and Methods: A community-based cross-sectional survey was administered between May and September 2025 using a bilingual, self-administered questionnaire. A total of 1104 adults (≥18 years) were recruited through convenience and snowball sampling. Knowledge was scored using 13 dichotomous factual items, and findings are reported as proportions with corresponding 95% confidence intervals. Results: Participants were predominantly female (57%) and university-educated (34.2%). Although 58.5% had heard of “fava bean anaemia”, only 38% recognised the X-linked mode of inheritance and 36.1% identified medication-induced haemolysis, despite 61.8% correctly linking fava beans to haemolytic risk. The mean knowledge score across items was 34.4%. Preventive practices were limited: 41.5% reported premarital medical consultation, and only 21.6% had undergone genetic assessment. Conclusions: Despite national advances in newborn screening, substantial public knowledge deficits and low engagement with preventive practices persist. Strengthened community-level education, particularly regarding inheritance, medication safety, and proactive screening, may reduce preventable haemolysis events. Integrating G6PD-targeted messaging within premarital, antenatal, and primary-care services may support long-term preventive health objectives. Full article

Background: Haemoglobinopathies are among the most common monogenic disorders worldwide. Early identification of asymptomatic carriers through reliable screening and molecular diagnostics is crucial for prevention programmes, especially in high-prevalence regions such as Southern Italy. Methods: A total of 5243 individuals were analysed between 2013 and 2024 using both biochemical and genetic parameters. First-level screening included full blood count, iron status, and high-performance liquid chromatography (HPLC) for haemoglobin variant quantification. Molecular analyses were performed using next-generation sequencing (NGS) for the HBA1, HBA2, and HBB genes. Results: We identified 267 individuals (11.2%) as carriers of α-thalassaemia and 473 individuals (16.7%) as carriers of β-thalassaemia. Among them, 5 were compound heterozygotes and 3 homozygous for the α-3.7 deletion. A rare case of HbG Philadelphia in association with a triplicated α-gene was also observed. The most common β-globin mutations included c.118C>T (β⁰39, 44%), IVS-I-110 (17.7%), IVS-I-6 (12.7%), and IVS-I-1 (12.3%). Among α-globin mutations, the most prevalent were -α^3.7 (48%), α2 IVS1 -5nt (15.4%), -20.5 Kb (14.2%), and triplicated α (11%). In total, 18.7% of individuals were found to carry either α- or β-thalassaemia traits. Conclusion: Our findings highlight the limitations of traditional diagnostic methods—such as the osmotic fragility test—and the importance of integrating haematological, biochemical, and molecular data to accurately identify thalassaemia carriers. The variability of genotype–phenotype correlations, especially in the context of immigration and genetic diversity, underscores the need for comprehensive molecular analysis. We propose a three-step diagnostic algorithm combining first-level screening, iron status assessment, and NGS-based sequencing for inconclusive cases. Full article

Iron overload-driven liver fibrosis is a major concern in β-thalassaemia patients, but non-invasive or minimally invasive biomarkers for fibrosis staging remain limited. This study evaluated five plasma microRNAs (let-7a, miR-21, miR-29a, miR-34a, and miR-122) as potential markers for distinguishing liver fibrosis stages in β-thalassaemia. Plasma samples from 40 patients with fibrosis stages F0–F1 to F4 were analysed using RT-qPCR, normalised against the arithmetic mean of reference miRNAs miR-16 and miR-221. Expression levels of candidate miRNAs showed no statistically significant variation across stages, and logistic regression and ROC analyses revealed fair discriminatory performance for individual miRNAs and their combinations in selected stage comparisons. Notably, while for the discrimination of different fibrosis stages all five candidate miRNAs tested showed fair area-under-the-curve values between 0.7 and 0.8 individually and up to 0.917 in combination, none of these findings reached statistical significance. These results suggest that while the selected set of miRNAs reflects liver injury, its performance for precise fibrosis staging in β-thalassaemia is limited. A key cause for the low discriminatory power of these miRNAs may be the overall change of the blood miRNA transcriptome in haemoglobinopathies. The results indicate the need for validation in larger cohorts based on larger miRNA panels or the use of alternative source materials to improve diagnostic performance. Full article

Background/Objectives: In haematology, a wide range of blood disorders are hereditary. The thalassaemias are hereditary anaemias characterised by a high burden of disease at the public health level, challenging the resources of many health systems. This review focuses on thalassaemias for which many countries have developed screening and prevention programmes. To manage this heavy burden, two approaches were introduced over the years. The first one focused on reducing the annual affected births consequent to appropriate non-directive genetic counselling, offering to the parents the chance to make an informed choice concerning their reproductive lives. The second approach was related to the development of curative treatments such as haematopoietic stem cell transplantation (HSCT) in the early years, with continued ongoing efforts for improvements, followed by successful advances in gene-based holistic cures in more recent years. Genetic counselling is a vital component in successful prevention, aiming at informing individuals who are found to be carriers and couples who are both carriers with a 25% risk at every pregnancy of having an affected child in the case of recessive, Mendelian inheritance. The issues are many, and that may have to be discussed, highlighting the level of skills which a genetic counsellor is expected to possess and utilise appropriately in every counselling session. The concern is that such trained and skilled professionals are few in number and not well integrated into the multidisciplinary groups addressing the control of these complex disorders. It is our experience that for blood disorders, counselling is rarely in the hands of qualified scientists. It is our firm belief that it is necessary to incorporate genetic counselling as an integral part of haematology services. Methods: To investigate current practices we have drawn on the experience of existing programmes, as well as published literature. Results: Currently, in almost all haemoglobinopathy prevention programmes, counselling is offered by the clinicians in charge of clinical care or, in some settings, by the nurse of the clinic or the screening laboratory scientist. Conclusions: The Thalassaemia International Federation suggests and is in the process of developing special training in counselling as part of haematology training, as well as professional development modules for those already in practice. Considering the complexity of the issues that must be discussed, a multidisciplinary approach to counselling should be considered where possible. Full article

Background: Hydroxyurea is approved for the treatment of paediatric and adult sickle cell disease patients. It causes the synthesis of foetal haemoglobin and decreases platelets and granulocytes, but with a high interindividual variability, requiring higher dosages and escalating toxicity. Hereditary variables should be investigated to personalise treatment. We evaluated the possible influences of OCT1 and MAP3K5 gene polymorphisms on hydroxyurea pharmacokinetics. Methods: We conducted a retrospective analysis on 79 treated patients. The polymorphisms of OCT1 (rs683369 G > C) and MAP3K5 (rs9376230 C > A and rs9483947 C > T) were genotyped. Results: Sub-Saharan patients with the OCT1 rs683369 GG genotype showed a lower drug half-life, compared to those with the GC genotype. In sub-Saharan paediatric female patients, the OCT1 rs683369 GG genotype was associated with a lower t1/2 than the GC genotype. Conclusions: The findings demonstrate for the first time how crucial it is to assess the pharmacogenetics of hydroxyurea by taking into account the two sexes in different groups. Additionally, the data were evaluated with consideration for ethnic groups and individually for adults and children. Pharmacogenetic studies could improve the clinical management of hydroxyurea. Full article

Haemoglobinopathies are among the most prevalent genetic disorders globally. In the context of these conditions, preimplantation genetic testing (PGT) plays a pivotal role in preventing genetic diseases in the offspring of carrier parents, reducing the need for pregnancy termination and enabling the selection of compatible sibling donors for potential stem cell transplantation in cases of thalassemia or sickle cell disease. This review explores the evolving role of PGT as a reproductive option for haemoglobinopathy carriers, tracing the development of PGT protocols from patient-specific to comprehensive testing enabled by advanced technologies like next-generation sequencing (NGS). We discuss key technical, biological, and practical limitations of PGT, as well as the ethical considerations specific to haemoglobinopathies, such as the complexity of interpreting genotypes. Emerging technologies, such as whole-genome sequencing, non-invasive PGT, and gene editing, hold significant promise for expanding applications but also raise new challenges that must be addressed. It will be interesting to explore how advancements in technology, along with the changing management of haemoglobinopathies, will impact reproductive choices. It is anticipated that continued research will improve genetic counseling for PGT for haemoglobinopathies, while a careful evaluation of ethical and societal implications is also required. Responsible and equitable implementation of PGT is essential for ensuring that all families at risk can make informed reproductive choices. Full article

Background: Sickle cell disease (SCD) is consequently associated with increased rates of infant and childhood morbidity and mortality. Therefore, early detection is a crucial aspect of managing SCD to mitigate complications and improve health outcomes for SCD children. Neonatal screening is the primary method for identifying newborns with SCD, enabling early diagnosis, family screening, and comprehensive medical care. The protocol presented in this paper describes a study aimed at screening newborns for SCD in high-prevalence SCD states of India to understand the magnitude of the problem and the benefits of early comprehensive care along with the genotypic and phenotypic correlation. Methods: A prospective cohort study will be conducted across seven sites in six states of India (Rajasthan, Odisha, Tamil Nadu, Maharashtra, Madhya Pradesh, and Gujarat), having a high prevalence of SCD. The cord blood or heel prick samples of all the live-born babies delivered within the facilities of selected regions will be collected for screening SCD by HPLC (High-Performance Liquid Chromatography). All the sickle cell homozygous (SS) babies will be confirmed at 6 weeks for Sickle genotype along with cascade screening. Further, SS babies will be followed up from six weeks up to five years of life with initiation of folic acid, antibiotic prophylaxis, and hydroxyurea treatment at appropriate times. Results: The protocol aims to lay the groundwork for the smooth implementation of newborn screening programs and effective follow-up strategies. Conclusions: It will pave the way for developing a strategic framework for implementing newborn screening programs for haemoglobinopathies in India. Full article

Background: FGF23 is a phosphate homeostasis regulator; the literature suggests a link between FGF23, iron homeostasis and erythropoiesis. Little is known about the FGF23 level variations in β-thalassemia (βT), which is characterized by ineffective erythropoiesis and iron overload. Our cross-sectional study aims to evaluate the iFGF23 level variations in a large cohort of βT patients considering their bone mineral densities (BMDs) and iron loads. Methods: Clinical, biochemical and radiological data were collected from 213 transfusion-dependent βT (TDT) adults referring to the Regional HUB Centre for Thalassaemia and Haemoglobinopathies in Ferrara, Italy. The iFGF23 levels in the TDT patients were compared to the general population’s reference range. The BMDs and hearth and liver iron deposits were assessed with DEXA scans and MRI, respectively. Results: The iFGF23 distribution in the TDT subjects is significantly different from that of the general population. The iFGF23 levels are positively correlated with the age at transfusion initiation and calcium and phosphate levels and are negatively correlated with the osteocalcin plasma levels. Patients treated with deferasirox had lower iFGF23 levels than those treated with other chelators. The iFGF23 levels are not correlated with the BMD or iron status. Conclusions: These findings provide insights into the relationship between the iFGF23 and bone and iron metabolism in TDT patients. Further studies are needed to explore its potential clinical relevance. Full article

Non-invasive prenatal testing (NIPT) has been widely adopted for the screening of chromosomal abnormalities; however, its adoption for monogenic disorders, such as β-thalassaemia, has proven challenging. Haemoglobinopathies are the most common monogenic disorders globally, with β-thalassaemia being particularly prevalent in Cyprus. This study introduces a non-invasive prenatal haplotyping (NIPH) assay for β-thalassaemia, utilizing cell-free DNA (cfDNA) from maternal plasma. The assay determines paternal inheritance by analyzing highly heterozygous single-nucleotide variants (SNVs) in the β-globin gene cluster. To identify highly heterozygous SNVs in the population, 96 randomly selected samples were processed using Illumina DNA-prep NGS chemistry. A custom, high-density NGS genotyping panel, named HAPLONID, was designed with 169 SNVs, including 15 common pathogenic ones. The AmpliSeq for Illumina assay was then applied to cfDNA to evaluate the panel’s efficiency in performing NIPT for β-thalassaemia. Analysis revealed 219 highly polymorphic SNVs, and the sequencing of 17 families confirmed successful paternal allele determination. The NIPH assay demonstrated 100% success in diagnostic interpretation. This study achieved the advancement of an integrated NGS-NIPT assay for β-thalassaemia, bringing it one step closer to being a diagnostic assay and thereby enabling a reduction in the number of risky invasive prenatal sampling procedures in Cyprus and elsewhere. Full article

Influenza vaccination is the main method of preventing influenza. Vaccination is recommended for certain individuals with diseases that could cause complications in the case of flu infection. The objective of this retrospective observational study was to examine influenza vaccination coverage in patients with risk factors, to describe the characteristics of those vaccinated and to study the influence of COVID-19. The study population was children under 14 years old with risk factors between 2018/19 and 2022/23 in Central Catalonia, sourced through the electronic database of the Catalan Institute of Health. The association of influenza vaccination data with sociodemographic data and risk factors was performed by bivariate and multivariate analysis. A total of 13,137 children were studied. Of those, 4623 had received the influenza vaccine in at least one season. The average influenza vaccination rate was 28.8%. The statistically significant factors associated with vaccination were age and having certain risk factors: asthma, diabetes, haemoglobinopathies and clotting disorders. In all seasons, the immigrant population was vaccinated more than the native population p < 0.05, except for the COVID-19 season (2020/21), where no differences were observed. Of those vaccinated, 7.1% had been vaccinated for 5 consecutive years. Influenza vaccination coverage in the paediatric age group was low. Vaccination promotion measures must be implemented. COVID-19 meant an increase in vaccination of the native population to the same level as that of the immigrant population. Full article

Sickle cell disease (SCD) and transfusion-dependent β-thalassemia (TDT) are hereditary haemoglobinopathies characterized by a reduction in functional β-globin chains. Both conditions cause tiredness and increase susceptibility to infection, which can lead organ failure, significantly reducing life expectancy and typically requiring those affected to undergo regular erythrocyte transfusion. Recently, a novel therapeutic treatment for SCD and TDT was approved by the UK regulatory body (Medicines and Healthcare products Regulatory Agency; MHRA). Exagamglogene autotemcel (Casgevy) is the first licensed therapy globally to utilize CRIPSR/Cas9 technology and induces an increase in expression of γ-globin chains to compensate for the reduction in functional β-globin. Casgevy represents a first-in-class therapeutic, and numerous considerations were made by the MHRA throughout its assessment of the medicine. These include, but are not limited to, the risk of tumorigenicity and off-target editing, a limited cohort size, the validity of proposed dosing and the conduction of only single-arm studies. The MHRA’s analyses of the data to support the proposed indications are presented and discussed throughout this manuscript. Overall, the sponsors claims were considered well supported by their data, and Casgevy was licensed for the treatment of TDT or SCD in patients 12 years of age and older for whom hematopoietic stem cell (HSC) transplantation is appropriate, but a human leukocyte antigen-matched related HSC donor is not available. Full article