ObjectiveTo analyze the prenatal screening data of Longquanyi district, and evaluate the effect of prenatal screening technology in birth defects prevention. MethodsA total of 10230 serum samples in Chengdu Longquanyi District Prenatal Screening Center from November 2010 to December 2012 were tested and analyzed, and the risk rates of Down's Syndrome, Trisomy 18 Syndrome and Open Neural Tube Defects (ONTDs) were obtained by Risk2T risk calculation software. The results of prenatal screening were verified and evaluated by high risk referral, pregnancy tracing and pregnancy outcome follow-up. ResultsIn the 10 230 pregnant women, the positive rate of Down's Syndrome was 6.02%, Trisomy 18 Syndrome was 0.42% and Open Neural Tube Defects was 0.57%, and compliance rate of prenatal diagnosis was 51.56%. In the 57 high risk pregnant women of ONTDs, 53 women selected system color doppler ultrasound with a proportion of 92.98%, but in the 647 high risk pregnant women of Down's or Trisomy 18 Syndrome, only 47.30% of them chose amniocentesis for diagnosis. The χ2 analysis showed that the difference was significant compared between system color doppler ultrasound and amniocentesis group (P<0.05). By diagnosis, 3 Down's Syndrome patients were found. ConclusionSecond trimester maternal serum prenatal screening plays an important role in birth defects prevention in Longquanyi district. However, there is a great need to improve compliance rate of prenatal diagnosis of Down's and Trisomy 18 Syndrome.
This study aims to detect early changes of kidney in patients with primary hypertension by 3.0 T functional magnetic resonance imaging (fMRI). 26 patients with primary hypertension (hypertension group) and 33 healthy volunteers (control group) underwent conventional and functional magnetic resonance scans, which included blood oxygen level-dependent (BOLD) MRI, diffusion weighted imaging (DWI) and diffusion tensor imaging (DTI). We measured renal cortical thickness (CT), parenchymal thickness (PT), and functional values of renal cortex and medulla including R2* value, apparent diffusion coefficient (ADC) value and fractional anisotropy (FA) value in each group, and then calculated the cortical/parenchymal thickness ratio (CPR). Compared with those in the control group, CT and CPR in hypertension group were larger (P<0.01), cortical and medullar R2* values increased (P<0.01) whereas medullar FA values decreased (P<0.05). It could be well concluded that noninvasive 3.0 T functional MRI would have important clinical significance in identifying early abnormalities of kidney in hypertension patients.