Objective: To observe the recurrence and prognosis of hepatocellular carcinoma (HCC) patients coexisting with chronic hepatitis B infection with active virus replication after receiving antivirus therapy using lami...Objective: To observe the recurrence and prognosis of hepatocellular carcinoma (HCC) patients coexisting with chronic hepatitis B infection with active virus replication after receiving antivirus therapy using lamivudine and thymosin α1 (Tα1) postoperatively. Methods: From Jan. 2000 to Dec. 2003, 70 patients with HCC coexisting chronic hepatitis B infection with active virus replication were prospectively divided into two groups: control group (n=35) received hepatectomy only; treatment group (n=35) received hepatectomy and lamivudine plus Tα1 therapy postoperatively. The suppression of HBV-DNA, HBeAg seroconverted rate, tumor recurrent rate and the median survival for the two groups were observed and calculated. Results: In treatment group and control group, the 2-year HBV-DNA suppression rate was 100% vs. 4% (P=0.0000); HBeAg seroconverted rate was 73.0% vs. 7.5% (P〈0.05); the recurrent rate was 10.0 vs 6.5 months (P=0.0032); the median survival time was 12.5 vs. 6.0 months (P=0.0023), respectively. Conclusion: Antivirus therapy using lamivudine and Tα1 postoperatively may suppress the HBV reaction, delay the recurrent time and prolong the survival for HCC patients coexisting chronic HBV infection with active virus replication.展开更多
Due to the coronavirus disease 2019(COVID‐19)pandemic,the development of antiviral drugs has attracted increasing attention.Clinical antiviral drugs show weak solubility,low bioavailability,adverse side effects,or on...Due to the coronavirus disease 2019(COVID‐19)pandemic,the development of antiviral drugs has attracted increasing attention.Clinical antiviral drugs show weak solubility,low bioavailability,adverse side effects,or only limited targets.With the advancement of nanotechnology and material science,biosafety nanomaterials have been constructed for drug delivery systems of antiviral disease therapy,such as liposomes,polymers,gold nanoparticles,and graphene.These nanodrug systems can either deliver synthesized antiviral drugs siRNA/miRNA and small molecular compounds,deliver bioactive large molecular drug proteins and mRNA,or show antiviral activity by themselves.Nanodelivery systems could effectively enhance the efficiency of antiviral drugs by increasing drug loading and host cell uptake with a small size and high specific surface area.This review focused on the biosafety nanomaterials used for antiviral therapy and discussed the options for the design of antiviral drugs in the future.展开更多
基金Supported in part by Shanghai Science and Technology Committee (Project No: 04QMH1408) and Shanghai Hospital NewStar Plan (2002)
文摘Objective: To observe the recurrence and prognosis of hepatocellular carcinoma (HCC) patients coexisting with chronic hepatitis B infection with active virus replication after receiving antivirus therapy using lamivudine and thymosin α1 (Tα1) postoperatively. Methods: From Jan. 2000 to Dec. 2003, 70 patients with HCC coexisting chronic hepatitis B infection with active virus replication were prospectively divided into two groups: control group (n=35) received hepatectomy only; treatment group (n=35) received hepatectomy and lamivudine plus Tα1 therapy postoperatively. The suppression of HBV-DNA, HBeAg seroconverted rate, tumor recurrent rate and the median survival for the two groups were observed and calculated. Results: In treatment group and control group, the 2-year HBV-DNA suppression rate was 100% vs. 4% (P=0.0000); HBeAg seroconverted rate was 73.0% vs. 7.5% (P〈0.05); the recurrent rate was 10.0 vs 6.5 months (P=0.0032); the median survival time was 12.5 vs. 6.0 months (P=0.0023), respectively. Conclusion: Antivirus therapy using lamivudine and Tα1 postoperatively may suppress the HBV reaction, delay the recurrent time and prolong the survival for HCC patients coexisting chronic HBV infection with active virus replication.
基金supported by the National Key Research&Development Program of China(No.2021YFA1201000)the Government Guided Local Science and Technology Development Fund Projects of Hebei Province(No.216Z2403G)+2 种基金Natural Science Foundation of Hebei Province(No.B2019201449,H2019201466)the Priority Strategy Project of the Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of the Ministry of Education(ts2020003)the Hebei Province“Three Three Three Talents Program”(A202003001).
文摘Due to the coronavirus disease 2019(COVID‐19)pandemic,the development of antiviral drugs has attracted increasing attention.Clinical antiviral drugs show weak solubility,low bioavailability,adverse side effects,or only limited targets.With the advancement of nanotechnology and material science,biosafety nanomaterials have been constructed for drug delivery systems of antiviral disease therapy,such as liposomes,polymers,gold nanoparticles,and graphene.These nanodrug systems can either deliver synthesized antiviral drugs siRNA/miRNA and small molecular compounds,deliver bioactive large molecular drug proteins and mRNA,or show antiviral activity by themselves.Nanodelivery systems could effectively enhance the efficiency of antiviral drugs by increasing drug loading and host cell uptake with a small size and high specific surface area.This review focused on the biosafety nanomaterials used for antiviral therapy and discussed the options for the design of antiviral drugs in the future.
