ABSTRACT
Objective:To analyze the molecular epidemiological characteristics of the Corona virus disease 2019 (COVID-19) cases in Shijiazhuang, which can reveal the origin of the outbreak and provide a scientific basis for COVID-19 prevention and control.Methods:From January 2 to January 8, 2021, a total of 404 samples from 170 COVID-19 cases were collected from the Shijiazhuang Fifth Hospital. The consensus sequence of 2019 novel Coronavirus(2019-nCoV) was obtained through multiplex polymerase chain reaction-based sequencing. The sequences of 170 COVID-19 cases were analyzed by the PANGOLIN, and the data were statistically analyzed by T-test.Results:Among the 404 COVID-19 samples, a total of 356 samples obtained high quality genome sequences (>95%,100×sequencing depth). The whole genome sequences of 170 COVID-19 cases were obtained by eliminating repeated samples. All 170 sequences were recognized as lineage B1.1 using PANGOLIN. The number of single nucleotide polymorphism arrange from 18-22 and most of the single nucleotide polymorphism were synonymous variants. All of 170 genomes could be classified into 48 sub-groups and most of the genomes were classified into 2 sub-groups (66 and 31, respectively).Conclusions:All cases in this study are likely originated from one imported case. The viruses have spread in the community for a long time and have mutated during the community transmission.
ABSTRACT
BACKGROUND:For treatment of central nervous system diseases, neural stem cel s (NSCs) or bone marrow stromal stem cel s (BMSCs) can be transplanted into the brain, but there are less reports to compare the effects of two kinds of stem cel transplantation. OBJECTIVE:To explore the effect of midbrain NSCs and BMSCs on the behavior and brain morphology of rats with Parkinson’s disease. METHODS:Fifty-eight Sprague-Dawley rats were enrol ed to establish Parkinson’s disease models, and then randomly divided into three groups, which were treated with 5μL midbrain NSCs (n=20), 5μL BMSCs (n=20) and 5μL normal saline (n=18) via two coordinate points of the right striatum at 3 weeks after modeling, respectively. At 5 months after transplantation, the rats underwent intraperitoneal injection of apomorphine to observe behavioral changes, and then, the striatum was taken for immunohistochemistry staining. RESULTS AND CONCLUSION:The number of rotations was reduced significantly in the BMSCs and midbrain NSCs groups at 5 months after transplantation (P0.05). In the BMSCs group, BrdU/Nestin positive cel s were seen in the brain stratium at 1 week after transplantation;BrdU/GFAP and BrdU/NSE positive cel s as wel as TH positive cel s rather than BrdU/TH positive cel s were found in the brain stratium at 1 month after transplantation;after that, the number of BrdU/Nestin positive cel s was reduced gradual y and disappeared ultimately, but there were stil a certain number of BrdU/GFAP and BrdU/NSE positive cel s, especial y the former ones. Meanwhile, the NSCs group also had a similar situation, but no double-labeled cel s were in the normal saline group. These findings indicate that midbrain NSCs and BMSCs transplantation can both improve the behavior of Parkinson’s disease rats, and differentiate into neurons, astrocytes and dopaminergic neurons.