Genetic mutation screening of glucose-6-phosphate dehydrogenase deficiency in Dongguan district / 中华医学遗传学杂志

OBJECTIVE@#To determine the incidence and genotypes of glucose-6-phosphate dehydrogenase (G6PD) deficiency in Dongguan region of Guangdong Province and assess the efficacy and feasibility of flow-through hybridization.@*METHODS@#Peripheral blood samples were randomly selected and detected by modified G6PD/6PGD ratio method. Flow-through hybridization was used to detect 14 G6PD mutations among all samples.@*RESULTS@#In total 1005 samples were collected, the detection rate for modified G6PD/6PGD ratio method and flow-through hybridization were 2.79% and 20.90%, respectively. The consistency of the two methods was poor(Kappa=0.187). When c.1311C>T mutation is excluded, the consistency of the two methods was good for males (Kappa=0.952) but still poor for females (Kappa=0.194). The most common mutations were c.1376G>T, c.1388G>A and c.95A>G. No G6PD deficiency was found among those only carrying the c.1311C>T mutation.@*CONCLUSION@#Flow-through hybridization can simultaneously detect 14 loci, covering over 90% of common mutations in Chinese population, and can be easily expanded. The routine method may miss many females carrying homozygous, compound heterozygous and heterozygous mutations, but the detection rate for male hemizygous mutation was much higher.

Clinical application of semiconductor gene sequencing in screening thalassemia / 实用医学杂志

Objective To investigate the feasibility of semiconductor gene sequencing technology for thalassemia clinical screening and evaluate its application as compared with the results of PCR technology.Methods 197 visiting patients were randomly selected as prospective samples and200 patients ever diagnosed with thalassemia as previous samples.All the samples were detected by semiconductor technology gene sequencing and PCR technology at the same time and then evaluation of the advantage of semiconductor gene sequencing technology.Results 22 cases of 197 prospective samples were detected as thalassemia mutations by PCR technology,including 18 cases of α-thalassemia,3 cases of β-thalassemia,1 case of oα merge β thalassemia mutations.Semiconductor technology gene sequencing detected another 6 cases of rare type of thalassemia.By semiconductor gene sequencing technology on previous samples,118 cases of α-thalassemia,65 cases of β-thalassemia,17 case of α merge β thalassemia mutations,1 case of thalassemia mutations (HBA 1:c.223G ＞ C) were detected.By statistical analysis,the total coincidence rate of PCR technology and semiconductor gene sequencing was 98.5％,withthe Kappa =0.97(≥ 0.8).Conclusion Semiconductor gene sequencing technology for thalassemia clinical screening is feasible,for it can detect both thalassemia gene type,and new mutation.The results of semiconductor gene sequencing technology are accurate and the technology could be popularized in clinical application.