Taxillus chinensis,belonging to hemiparasitic herbal medicine and featuring its wild host range,is used for relief from rheumatic conditions,reinforcement of liver and kidney,strengthening of tendon and bone,and prevention of abortion.It showed that host trees presented significant impacts on the quality of Taxillus chinensis in the modern researches.In this study,both domestic and foreign published articles over Taxillus chinensis from various host trees were reviewed to summarized its herbalogy,chemical constituents,toxicity,and pharmacological action.In regard to the influences on the quality of medicinal materials,ideas and references for the quality control of Taxillus chinensis were provided by analyzing the quality of Taxillus chinensis impacted by hosts.

[Abstract ] Objective To explore the effective method of induction of Schwann cell-like differentiation in bone mesenchymal stem cell (BMSC)of adult rat in vitro.Methods Primary culture of Schwann cell and isolated culture of BMSC were separately conducted.According to different induction methods,the cells were divided into chemical induction group and co-culture induction group.The growth of Schwann cell and BMSC was observed under light microscope.These two kinds of cells were identified by immunofluorescence staining [detecting Schwann cell marker proteins:glial fibrillary acidic protein (GFAP) antibody and S-100 antibody] and flow cytometry.The shape and growth of cells in two groups were dynamically observed by light microscope.The induced differentiation was evaluated with immunofluorescence staining at 3 rd day after co-culture induction in the co-culture induction group and at 4 h and 1 st day after chemical induction in the chemical induction group.Results In the chemical induction group,the BMSC appeared typical Schwann cell-like morphology.The positive expression of GFAP antibody appeared at 4 h after preliminary induction.Meanwhile,the positive expression rate of GFAP and S-100 antibody was (80.9 ± 3.5)% and (59.0 ±1.1 )% at 1 st day after induction.The induced BMSC began to die at 2nd day after chemical induction and most of the induced BMSC had died at 3 rd day after chemical induction.At 3 rd day after co-culture induction,few induced BMSC showed obvious morphological changes like those in chemical induction group.The positive expression rate of GFAP and S-100 antibody was (89.8 ±2.4)% and (80.9 ±1.7)%. The positive expression rate of GFAP and S-100 antibody in the co-culture induction group was higher than those in the chemical induction group and the difference had statistical significance (all in P <0.01).Conclusions The co-culture induction not only has obvious effect on Schwann cell-like differentiation in BMSC,but also promotes the survival and proliferation of BMSC.Thus,co-culture induction is more safe and effective than chemical induction.

Objective To discuss the effect of bone marrow mesenchymal stem cell (BMSC)as the seed cell transplantation of tissue-engineered artificial nerve in the treatment of peripheral nerve injury. Methods BMSC was obtained from the bone marrow of adult rat through isolation and culture and combined with acellular nerve scaffold to construct ‘tissue-engineered artificial nerve’.After transplantation,rats were divided into two groups,the BMSC +acellular nerve conduit group(BMSC treatment group)and the empty cell conduit group(negative control group)with 5 rats in each group.Sciatic functional index (SFI)of the affected side of rats was compared between two groups at 2 weeks,4 weeks and 8 weeks after the surgery.Moreover,the sciatic conduction,recovery rate of tricipital muscle wet weight and other repair effects of the affected side were compared between two groups at 8 weeks after the surgery.Results The indicators of BMSC treatment group, including SFI assessed at 2 weeks,4 weeks and 8 weeks after the surgery as well as the sciatic conduction and recovery rate of tricipital muscle wet weight assessed at 8 weeks after the surgery,were better than those of the negative control group(all in P <0.05).Conclusions BMSC combined with tissue-engineered artificial nerve of acellular nerve scaffold can effectively promote nerve regeneration and function recovery.

Objective To investigate clinical efficacy of tissue-engineered artificial nerve grafts constructed by acellular nerve grafts combined with adult rat Schwann cell (SC)in the treatment of peripheral nerve injury.Methods SCs were isolated and cultured from the distal nerves of adult Sprague Dawley (SD) rats with 1-week Wallerian degeneration and then combined with acellular nerve grafts to construct tissue-engineered artificial nerve.All rats were divided into acellular nerve graft containing SCs (SC group)and nerve graft containing no cells groups (control group),five animals in each group.At 2-,4-and 8-week after surgery,sciatic function index (SFI)of the affected side was compared between two groups.At postoperative 8 weeks,nerve conduction of sciatic nerve of the injured side,recovery rate of triceps surae wet weight and other relevant parameters were equally compared between two groups.Results In the SC group,SFI of the affected side at 2-,4-and 8-week after surgery,nerve conduction of sciatic nerve at the injured side and recovery rate of triceps surae wet weight at postoperative 8 weeks were significantly better compared with those in the control group (all in P <0.05).Conclusions Combined use of adult rat SCs and acellular nerve grafts effectively repairs peripheral nerve defects and accelerates functional recovery of injured nerves.

Pseudogenes were initially thought to have no function and were called by aliases, such as "junk genes." With the emergence of large-scale genomics projects and more and more experimental studies, pseudogenes have been shown to play an important role in the occurrence and development of solid tumors, especially playing an important regulatory role in the occurrence and develepment of liver cancer, such as regulating the proliferation, apoptosis, invasion, metastasis, and immunity of liver cancer cells. Recent studies showed that pseudogenes can act as regulators of oncogenes and tumor suppressors in hepatocellular carcinoma (HCC) and can thus serve as prognostic markers and even therapeutic targets for this cancer type. In this review, we systematically summarize the mechanisms and functions of different pseudogenes in HCC and present their future prospects as therapeutic targets.

Objective: In order to master the epidemic trend of corona virus disease 2019 (COVID-19) and evaluate the effect of prevention and control, we evaluate the epidemic dynamics of COVID-19 in mainland China, Hubei province, Wuhan city and other provinces outside Hubei from January 16 to February 14, 2020. Methods: We collected the daily number of new confirmed COVID-19 cases by nucleic acid detection reported by the National Health Commission from January 16, 2020 to February 14, 2020. The analysis includes the epidemic curve of the new confirmed cases, multiple of the new confirmed cases for period-over-period, multiple of the new confirmed cases for fixed-base, and the period-over-period growth rate of the new confirmed cases. Results: From January 16 to February 14, 2020, the cumulative number of new confirmed cases of COVID-19 in mainland China was 50 031, including 37 930 in Hubei province, 22 883 in Wuhan city and 12 101 in other provinces outside Hubei. The peak of the number of new confirmed cases in other provinces outside Hubei was from January 31 to February 4, 2020, and the peak of new confirmed cases in Wuhan city and Hubei province was from February 5 to February 9, 2020. The number of new confirmed cases in other provinces outside Hubei showed a significant decline (23% compared with the peak) from February 5 to February 9, 2020, while the number of new confirmed cases in Wuhan city (30% compared with the peak) and Hubei Province (37% compared with the peak) decreased significantly from February 10 to February 14, 2020. Conclusion The epidemic prevention and control measures taken by the state and governments at all levels have shown very significant effects, effectively curbing the spread of the COVID-19 epidemic in China.

Objective: To propose the concept of a novel regional control and prevention (RCP) system for the outbreak of COVID-19 infectious disease, design an emergency epidemic prevention information system based on the existing network architecture and information system in the region, and a remote intelligent medical consultation and remote office platform, research and develop the technology of risk assessment and early warning for people in the region, and improve the regions’prevention and control ability facing emergency of major infectious diseases. Methods: Taking colleges, affiliated (teaching) hospitals, and cloud applications as typical RCP regional units, the existing local area network interaction methods between the cloud and universities and affiliated (teaching) hospitals are established to realize remote work in the network environment, remote medical imaging, psychological and ethical consultation and interaction; applying multi-agent propagation model based on complex network, combining Global Positioning System (GPS), Radio Frequency Identification (RFID), and electronic fence technology, to realize the risk classification and early warning of units and personnel in the area. Results: In the RCP, a system architecture combining campus network, affiliated (teaching) hospital intranet, and the Internet is used. Dynamic connection is made using distributed technology and cloud storage. The data buffer mechanism of the intermediary database in the network realized telemedicine consultation and telecommuting. Relying on the platform, multi-agent propagation model based on complex network and cellular automaton model are used to realize the score and early warning of population exposure risk in the region by using GPS, RFID and electronic fence technology. Conclusions In the epidemic phase of major infectious diseases, the construction of RCP can improve the response speed of wartime epidemic prevention, provide reasonable data-based warnings and risk ratings, and reduce the exposure risk of susceptible people. The design and development of RCP is a systematic project that needs to combine regional structural and functional characteristics, and the foundation of the early informatization work in the region and the level of the emergency development team determine the development progress, maintenance, and actual application effects. It is recommended to establish a peacetime and wartime combined RCP mode and incorporate it into the government's disease control system to improve the national and regional level of prevention and control of major infectious diseases.