RESUMO
BACKGROUND: Patients carrying the HongKongαα (HKαα) allele and -α/ααα could be misdiagnosed as -α/αα by the current conventional thalassemia detection methods, leading to inaccurate genetic counseling and an incorrect prenatal diagnosis. This study was aimed to accurately analyze the genotypes of HKαα carriers and -α/ααα. METHODS: Samples were collected in our hospital from July 2017 to October 2019. Twenty-four common types of Chinese thalassemia were screened by gap-polymerase chain reaction (Gap-PCR) and reverse dot blot (RDB). Anti-4.2 multiplex-PCR was used to confirm carriers of the ααα duplication with -α deletion. Two-round nested PCR and multiplex ligation-dependent probe amplification (MLPA) were applied to accurately identify and confirm their genotypes. For data analysis, we used descriptive statistics and Fisher's exact tests. RESULTS: Two thousand five hundred and forty-four cases were identified as thalassemia in 5488 peripheral blood samples. The results showed that α, ß, and αß compound thalassemia were identified in 1190 (46.78%), 1286 (50.55%), and 68 (2.67%) cases, respectively. A total of 227 samples from thalassemia patients were identified as -α/αα by Gap-PCR, and the genotypes of two samples were uncertain. There was a difference between Gap-PCR and combined groups (Gap-PCR combined with nested PCR and MLPA) in detecting HKαα (Pâ<â0.05). Among the 229 patients, 20 patients were identified as HKαα carriers and one was identified as -α/ααα by two-round nested PCR and MLPA, including 15 patients with HKαα/αα, three with HKαα/αα and ß-thalassemia coinheritance, one with HKαα/--, one with HKαα/-α and ß-thalassemia coinheritance, and one with -α/ααα and ß-thalassemia coinheritance. CONCLUSIONS: ααα and HKαα genotypes of patients carrying -α need to be detected to reduce the misdiagnosis rate of patients carrying HKαα and -α3.7/ααα alleles. More accurate genetic counseling can be provided in the clinic using nested PCR combined with MLPA.