ObjectiveTo systematically review the effectiveness and safety of thrombolytics for treating ST-segment elevation myocardial infarction (STEMI) in China by network meta-analysis.MethodsThe PubMed, EMbase, The Cochrane Library, Web of Science, CBM, WanFang Data, and CNKI databases were searched for randomized controlled trials (RCTs) of thrombolytics for Chinese patients with STEMI from inception to October 2016. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies. Statistical analysis was performed by WinBUGS 1.4.3 software and R 3.3.1 software.ResultsA total of 32 RCTs involving 3 164 patients with 7 types of thrombolytics were included. The results of network meta-analysis showed: the urokinase had lower reperfusion rate than tenecteplase (rhTNK-tPA), reteplase, alteplase, and pro-urokinase (all P values <0.05), however, had higher mortality or major adverse cardiovascular events rates than rhTNK-tPA, reteplase, alteplase, and pro-urokinase (all P values <0.05), and higher incidence of non-intracranial hemorrhage than those of alteplase and pro-urokinase (both P values <0.05). The incidence of intracranial hemorrhage had no statistical differences among different thrombolytics (all P values >0.05). The results of area under the cumulative ranking curve which ranked effectiveness of all thrombolytics showed that rhTNK-tPA had the best effectiveness and urokinase had the relative worst effectiveness among different thrombolytics.ConclusionsThe current evidence shows that domestic rhTNK-tPA may be effective in thrombolytic treatment. Due to limited quality and quantity of the included studies, more high-quality studies are needed to verify the above conclusion.
Bioactive glass (BG) has been widely used in the preparation of artificial bone scaffolds due to its excellent biological properties and non-cytotoxicity, which can promote bone and soft tissue regeneration. However, due to the brittleness, poor mechanical strength, easy agglomeration and uncontrollable structure of glass material, its application in various fields is limited. In this regard, most current researches mainly focus on mixing BG with organic or inorganic materials by freeze-drying method, sol-gel method, etc., to improve its mechanical properties and brittleness, so as to increase its clinical application and expand its application field. This review introduces the combination of BG with natural organic materials, metallic materials and non-metallic materials, and demonstrates the latest technology and future prospects of BG composite materials through the development of scaffolds, injectable fillers, membranes, hydrogels and coatings. The previous studies show that the addition of BG improves the mechanical properties, biological activity and regeneration potential of the composites, and broadens the application of BG in the field of bone tissue engineering. By reviewing the recent BG researches on bone regeneration, the research potential of new materials is demonstrated, in order to provide a reference for future related research.