摘要
Covalently closed circular DNA (cccDNA) of hepatitis B virus (HBV) is the template for HBV replication. Currently, there is a lack of therapeutic drugs that directly target cccDNA. Therefore, blocking cccDNA supplements as fast as possible and reducing the existing cccDNA is the key to achieving a complete cure of chronic hepatitis B. Previous studies have suggested that cccDNA had a long half-life, but a recent study showed that it only took a few months to update cycle of cccDNA pool, and its number was much less than previously predicted. In the future, with the advent of new antiviral drugs that can completely inhibit HBV replication, it is expected that the cccDNA pool will be completely cleared due to its supplement complete blockade, so as to achieve virological cure of chronic hepatitis B.
Subject(s)
Humans , Antiviral Agents/therapeutic use , DNA, Circular/genetics , DNA, Viral , Half-Life , Hepatitis B/drug therapy , Hepatitis B virus/genetics , Hepatitis B, Chronic/drug therapy , Virus Replication摘要
Objective: To prepare osthole foaming microemulsion and study its foaming force. Methods: In this paper, the overall desirability of drug loading rate, half foam life period, and foaming force was taken as index. Based on the result of solubility test and pseudo-ternary phase diagram, the formula for the osthole foaming microemulsion was optimized by D-optimal mixture optimization design test. Results: The optimal ratio of the prescription was as follows: ethyl oleate-Cremophor EL-40-transcutol P-water (8.13: 14.81: 6.58: 71.44); Average particle size was (43.54 ± 3.43) nm (n=3), average polydispersity factor was (0.839 ± 0.092) % (n=3), average potential was (-2.32 ± 0.78) mV (n=3), frothing volume was (8.57 ± 0.28) cm, half foam life period was (6.79 ± 0.32) min. At 37℃, the maximum drug loading of foaming microemulsion was 13.62 mg/g, and the solubility in water was 0.42 mg/mL. Conclusion: Osthole foaming microemulsion was stable, which could greatly increase the solubility of osthole and remarkably enhance the bioavailability of osthole.
摘要
The thermostability of the inulinase was studied in this resea rc h. Some alcoholic materials and thickening agent could enhance the thermostabli lity of the inulinase. Using glycerol、xanthic pastern and though orthogonal ex periments of three elements and three levels, a satisfying protective agent, whi ch included glycerin(6%), xanthan gum(0.6%) and CaCl_2 (100mmol/mL) and ha d a significant effect on the enhancement of the inulinase thermostability, was acquired.