Comparison of Third-Generation Sequencing and Routine Polymerase Chain Reaction in Genetic Analysis of Thalassemia

Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention. To compare the clinical utility of a third-generation sequencing-based approach termed comprehensive analysis of thalassemia...

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Published inArchives of pathology & laboratory medicine (1976) Vol. 148; no. 3; pp. 336 - 344
Main Authors Xu, Zhen, Hu, Lanping, Liu, Yinyin, Peng, Can, Zeng, Guo, Zeng, Li, Yang, Mengyue, Linpeng, Siyuan, Bu, Xiufen, Jiang, Xuanyu, Xie, Tiantian, Chen, Libao, Zhou, Shihao, He, Jun
Format Journal Article
LanguageEnglish
Published United States College of American Pathologists 01.03.2024
Subjects
Analysis
Anemia
Blood
Blood diseases
Blood transfusion
Blood transfusions
Diagnosis
DNA sequencing
Early experience
Genes
Genetic analysis
Genetic aspects
Genetic screening
Genomics
Hemoglobin
Medical examination
Methods
Nucleotide sequencing
Patients
Phenotypes
Polymerase chain reaction
Provinces
Thalassemia
China
Hunan China
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Abstract Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention. To compare the clinical utility of a third-generation sequencing-based approach termed comprehensive analysis of thalassemia alleles with routine polymerase chain reaction (PCR) in genetic analysis of thalassemia and explore the molecular spectrum of thalassemia in Hunan Province. Subjects in Hunan Province were recruited, and hematologic testing was performed. Five hundred four subjects positive on hemoglobin testing were then used as the cohort, and third-generation sequencing and routine PCR were used for genetic analysis. Of the 504 subjects, 462 (91.67%) had the same results, whereas 42 (8.33%) exhibited discordant results between the 2 methods. Sanger sequencing and PCR testing confirmed the results of third-generation sequencing. In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of 20.49%. Moreover, α triplications were identified in 1.98% (10 of 504) hemoglobin testing-positive subjects in Hunan Province. Seven hemoglobin variants with potential pathogenicity were detected in 9 hemoglobin testing-positive subjects. Third-generation sequencing is a more comprehensive, reliable, and efficient approach for genetic analysis of thalassemia than PCR, and allowed for a characterization of the thalassemia spectrum in Hunan Province.
AbstractList * Context.--Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention. Objective.--To compare the clinical utility of a third-generation sequencing-based approach termed comprehensive analysis of thalassemia alleles with routine polymerase chain reaction (PCR) in genetic analysis of thalassemia and explore the molecular spectrum of thalassemia in Hunan Province. Design.--Subjects in Hunan Province were recruited, and hematologic testing was performed. Five hundred four subjects positive on hemoglobin testing were then used as the cohort, and third-generation sequencing and routine PCR were used for genetic analysis. Results.--Of the 504 subjects, 462 (91.67%) had the same results, whereas 42 (8.33%) exhibited discordant results between the 2 methods. Sanger sequencing and PCR testing confirmed the results of third-generation sequencing. In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of 20.49%. Moreover, [alpha] triplications were identified in 1.98% (10 of 504) hemoglobin testing-positive subjects in Hunan Province. Seven hemoglobin variants with potential pathogenicity were detected in 9 hemoglobin testing-positive subjects. Conclusions.--Third-generation sequencing is a more comprehensive, reliable, and efficient approach for genetic analysis of thalassemia than PCR, and allowed for a characterization of the thalassemia spectrum in Hunan Province.
* Context.--Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention.
Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention. To compare the clinical utility of a third-generation sequencing-based approach termed comprehensive analysis of thalassemia alleles with routine polymerase chain reaction (PCR) in genetic analysis of thalassemia and explore the molecular spectrum of thalassemia in Hunan Province. Subjects in Hunan Province were recruited, and hematologic testing was performed. Five hundred four subjects positive on hemoglobin testing were then used as the cohort, and third-generation sequencing and routine PCR were used for genetic analysis. Of the 504 subjects, 462 (91.67%) had the same results, whereas 42 (8.33%) exhibited discordant results between the 2 methods. Sanger sequencing and PCR testing confirmed the results of third-generation sequencing. In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of 20.49%. Moreover, α triplications were identified in 1.98% (10 of 504) hemoglobin testing-positive subjects in Hunan Province. Seven hemoglobin variants with potential pathogenicity were detected in 9 hemoglobin testing-positive subjects. Third-generation sequencing is a more comprehensive, reliable, and efficient approach for genetic analysis of thalassemia than PCR, and allowed for a characterization of the thalassemia spectrum in Hunan Province.
Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention.CONTEXT.—Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for thalassemia prevention.To compare the clinical utility of a third-generation sequencing-based approach termed comprehensive analysis of thalassemia alleles with routine polymerase chain reaction (PCR) in genetic analysis of thalassemia and explore the molecular spectrum of thalassemia in Hunan Province.OBJECTIVE.—To compare the clinical utility of a third-generation sequencing-based approach termed comprehensive analysis of thalassemia alleles with routine polymerase chain reaction (PCR) in genetic analysis of thalassemia and explore the molecular spectrum of thalassemia in Hunan Province.Subjects in Hunan Province were recruited, and hematologic testing was performed. Five hundred four subjects positive on hemoglobin testing were then used as the cohort, and third-generation sequencing and routine PCR were used for genetic analysis.DESIGN.—Subjects in Hunan Province were recruited, and hematologic testing was performed. Five hundred four subjects positive on hemoglobin testing were then used as the cohort, and third-generation sequencing and routine PCR were used for genetic analysis.Of the 504 subjects, 462 (91.67%) had the same results, whereas 42 (8.33%) exhibited discordant results between the 2 methods. Sanger sequencing and PCR testing confirmed the results of third-generation sequencing. In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of 20.49%. Moreover, α triplications were identified in 1.98% (10 of 504) hemoglobin testing-positive subjects in Hunan Province. Seven hemoglobin variants with potential pathogenicity were detected in 9 hemoglobin testing-positive subjects.RESULTS.—Of the 504 subjects, 462 (91.67%) had the same results, whereas 42 (8.33%) exhibited discordant results between the 2 methods. Sanger sequencing and PCR testing confirmed the results of third-generation sequencing. In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of 20.49%. Moreover, α triplications were identified in 1.98% (10 of 504) hemoglobin testing-positive subjects in Hunan Province. Seven hemoglobin variants with potential pathogenicity were detected in 9 hemoglobin testing-positive subjects.Third-generation sequencing is a more comprehensive, reliable, and efficient approach for genetic analysis of thalassemia than PCR, and allowed for a characterization of the thalassemia spectrum in Hunan Province.CONCLUSIONS.—Third-generation sequencing is a more comprehensive, reliable, and efficient approach for genetic analysis of thalassemia than PCR, and allowed for a characterization of the thalassemia spectrum in Hunan Province.
In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of 20.49%. [...]a triplications were identified in 1.98% (10 of 504) hemoglobin testing-positive subjects in Hunan Province. The reported ot-globin duplications in Guangxi and Guizhou provinces include otototant13-7 and otototant14-2, and Guangdong, Hainan, and Yunnan provinces additionally identified otototot121-2, otototot20-9, and otototot69-4, respectively.13 Phenotypes of thalassemia range from asymptomatic to severe anemia, with disease severity well correlated with the imbalance of ot/ß-globins.15 Patients with ot-thalassemia major (ot°/ot°) experience in utero or early postnatal death, and patients with ot-thalassemia intermedia (ot°/ot+) may TCS Versus Routine PCR for Genetic Analysis of Thalassemia-Xu et al develop transfusion-dependent anemia, ß-thalassemia major and some of the ß-thalassemia intermedia patients (ß+/ ß+, ß°/ß+, or ß°/ß°) require frequent blood transfusions.8 In addition, triplications of ot-globin genes can aggravate the symptoms of ß-thalassemia because of the increased imbalance of ос/ß-globin chains. [...]oc-globin triplications combined with heterozygous ß° or ß+ can cause relatively severe symptoms, such as hepatosplenomegaly and a need for blood transfusions, and lead to thalassemia intermedia.16,17 There is no effective way to cure thalassemia. [...]it is extremely important to conduct carrier screening for thalassemia prevention.18 The detection of the thalassemia variants is included in premarital examination in areas endemic for thalassemia in China.14 Screening begins with hemoglobin (Hb) testing, followed by PCR for one of the HBA or HBB genes. MATERIALS AND METHODS Study Participants Subjects from Hunan Province were recruited at Changsha Hospital for Maternal & Child Health Care Affiliated to Hunan Normal University (Changsha, China).
Audience Professional
Academic
Author Zeng, Li
Xie, Tiantian
Hu, Lanping
He, Jun
Zhou, Shihao
Jiang, Xuanyu
Xu, Zhen
Peng, Can
Bu, Xiufen
Liu, Yinyin
Yang, Mengyue
Chen, Libao
Zeng, Guo
Linpeng, Siyuan
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/37270807$$D View this record in MEDLINE/PubMed
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Snippet Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial for...
* Context.--Thalassemia is the most widely distributed monogenic autosomal recessive disorder in the world. Accurate genetic analysis of thalassemia is crucial...
In total, third-generation sequencing correctly detected 247 subjects with variants, whereas PCR identified 205, which showed an increase in detection of...
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SubjectTerms Analysis
Anemia
Blood
Blood diseases
Blood transfusion
Blood transfusions
Diagnosis
DNA sequencing
Early experience
Genes
Genetic analysis
Genetic aspects
Genetic screening
Genomics
Hemoglobin
Medical examination
Methods
Nucleotide sequencing
Patients
Phenotypes
Polymerase chain reaction
Provinces
Thalassemia
Title Comparison of Third-Generation Sequencing and Routine Polymerase Chain Reaction in Genetic Analysis of Thalassemia
URI https://www.ncbi.nlm.nih.gov/pubmed/37270807
https://www.proquest.com/docview/2957758280
https://www.proquest.com/docview/2822709308
Volume 148
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