ABSTRACT
Objective To evaluate the effects combining in situ amniotic fluid culture with chromosomal microarray analysis(CMA)in prenatal diagnosis of fetal chromosomal abnormalities.Methods A retrospective analysis was conducted on 3 133 pregnant women who underwent amniocentesis at Huaihua Maternal and Child Health Hospital from October 2018 to February 2023 due to different indica-tions for prenatal diagnosis.The detection rates and differences of in situ amniotic fluid culture and CMA in detecting fetal chromosomal abnormalities were compared.Results Among the 3 133 samples,the detection rates increased by 0.95%(in situ culture)and 2.36%(CMA)in the double-indication group compared with the single-indication group.The combined testing detected 796 abnormal cases(25.41%),including 300 cases(9.58%)by in situ culture and 706 cases(22.53%)by CMA.Both techniques detected 145 aneu-ploidies and 31 large segmental structural abnormalities,while CMA additionally detected 169 copy number variants(CNV),loss of heterozygosity(LOH),absence of heterozygosity(AOH)/region of homozygosity(ROH)and uniparental disomy(UPD),and in si-tu culture additionally detected 11 balanced rearrangements.They jointly detected 23 cases of mosaicism(0.73%).Conclusion In si-tu amniotic fluid culture and CMA complement each other.Their combined application can significantly improve the detection rate of fe-tal chromosomal abnormalities and provide more detailed and accurate information for prenatal genetic counseling,thus facilitating preg-nant women to decide continuing or terminating the pregnancy.
ABSTRACT
Spinal fusion is a standard operation for treating moderate and severe intervertebral disc diseases. In recent years, the proportion of three-dimensional printing interbody fusion cage in spinal fusion surgery has gradually increased. In this paper, the research progress of molding technology and materials used in three-dimensional printing interbody fusion cage at present is summarized. Then, according to structure layout, three-dimensional printing interbody fusion cages are classified into five types: solid-porous-solid (SPS) type, solid-porous-frame (SPF) type, frame-porous-frame (FPF) type, whole porous cage (WPC) type and others. The optimization process of three-dimensional printing interbody fusion cage and the advantages and disadvantages of each type are analyzed and summarized in depth. The clinical application of various types of 3D printed interbody fusion cage was introduced and summarized later. Lastly, combined with the latest research progress and achievements, the future research direction of three-dimensional printing interbody fusion cage in molding technology, application materials and coating materials is prospected in order to provide some reference for scholars engaged in interbody fusion cage research and application.