Molecular Characterization of α‐ and β‐Thalassemia Among Children Less Than 18 Years Old in Guizhou, China
Yan Li, Jiao Jin, Yuanyuan Tuo, Pei Huang, Jing Huang, Honglan Yang, Zhixu He- Microbiology (medical)
- Biochemistry (medical)
- Medical Laboratory Technology
- Clinical Biochemistry
- Public Health, Environmental and Occupational Health
- Hematology
- Immunology and Allergy
ABSTRACT
Background
Thalassemia is an inherited hemolytic disease, the complications and sequelae of which have posed a huge impact on both patients and society. But limited studies have investigated the molecular characterization of α‐ and β‐thalassemia in children from Guizhou, China.
Methods
Between January 2019 and December 2022, a total of 3301 children, aged 6 months to 18 years, suspected of having thalassemia underwent molecular analysis.
Results
Out of the total sample, 824 (25%) children were found to carry thalassemia mutations. The carrier rates of α‐thalassemia, β‐thalassemia, and α + β‐thalassemia were determined as 8.1%, 15.6%, and 1.3%, respectively. Approximately 96.5% of the α‐thalassemia gene mutations were ‐‐SEA (51%), ααCS (20.9%), ‐α3.7 (19.6%), and ‐α4.2 (5.0%). The most prevalent mutations of β‐thalassemia were βCD17(A>T) (41.5%), βCD41‐42(‐TTCT) (37.7%), and βIVS‐II‐654(C>T) (11.3%). Additionally, we identified rare cases, including one case with ααHb Nunobiki/αα, two cases with triplicated α‐thalassemia (one case with ααα/ααα and βCD41‐42/βN and the other with ααα‐3.7/αα and βE CD26/βN), and also one case with α Q‐Thailandα/‐α4.2 and βCD41‐42/βN.
Conclusions
Our study findings provide important insights into the heterogeneity of thalassemia carrier rates and molecular profiles among children in the Guizhou region. The findings support the development of prevention strategies to reduce the incidence of severe thalassemia in the future.