Objective: To fabricate a hydrogel loaded with inositol hexaphosphate-zinc and preliminarily evaluate its performance in self-mineralization and osteoinduction, thereby providing a theoretical basis for the development of bone regeneration materials. Methods: The hydrogel framework (designated DF0) was formed by copolymerizing methacryloyloxyethyltrimethylammonium chloride and four-armed poly(ethylene glycol) acrylate, followed by sequentially loading inositol hexaphosphate anions via electrostatic interaction and zinc ions via chelation. The hydrogel loaded only with inositol hexaphosphate anions was named DF1, while the co-loaded hydrogel was named DF2. The self-mineralization efficacy of the DF0 , DF1 and DF2 hydrogels was characterized using scanning electron microscopy, transmission electron microscopy (TEM), energy dispersive spectroscopy (EDS), and selected area electron diffraction (SAED). The biocompatibility was assessed via live/dead cell staining and a CCK-8 assay. The osteoinductive capacity of the DF0 , DF1 and DF2 hydrogels on MC3T3-E1 cells was assessed via alkaline phosphatase (ALP) and Alizarin Red S (ARS) staining. In the aforementioned cell experiments, cells cultured in standard medium served as the control group Results: The DF0, DF1, and DF2 hydrogels were successfully synthesized. Notably, DF1 and DF2 exhibited distinct self-mineralization within 6 days. Results from TEM, EDS, and SAED confirmed that the mineralization products were amorphous calcium phosphate in group DF1, and amorphous calciumzinc phosphate in group DF2. Biocompatibility tests revealed that none of the hydrogels (DF0, DF1, and DF2) adversely affected cell viability or proliferation. In osteogenic induction experiments, both ALP and ARS staining were intensified in the DF1 and DF2 groups, with the most profound staining observed in the DF2 group. Conclusion The developed inositol hexaphosphate-zinc hydrogel (DF2) demonstrates the dual capacity to generate calcium-phosphate compounds through self-mineralization while exhibiting excellent osteoinductive properties. This biocompatible, dual-promoting osteogenic hydrogel presents a novel strategy for bone regeneration.

Objective To explore the method of atrial septal defect (ASD)occlusion with occluder by minimally invasive chest ways. Methods 34 patients with ASD were anaesthetized and a 2cm～3cm-long incision was made in the 4th intercostal space of right side of sternum and a Dasdo round or elliptic occluder was placed in the heart.The ASD size and edge in various sections were measured by transesophageal echocardiography,and the type and size of occluder were accordingly selected.Two umbrellas were opened on two sides of ASD under monitoring of echocardiography.After confirming the firm of occluder and no evident atrial shunt,occluder was released,and right atrium and chest were sewed. Results 33 patients with ASD were successfully occluded and one case was failed who received extracorporeal circulation operation.The maximum diameter of ASD was 8～32(19 3?6 3)mm.The shortest edge in variant side was 0 mm to posterior wall of aortea,3.5mm to superior vena cava,6.0mm to inferior vena cava and 6.0mm to the base of mitral valve.The time for closing ASD guided by echocardiography was about 2～3 minutes. Conclusions The placement of ASD occluder through minimal incision of the chest is a new method for the treatment of ASD.It might have wider indications for ASD occlusion.

Objective To evaluate the protective effects of stroma-free bovine hemoglobin(SFBHB)on preservation of the donor heart.Methods 24 isolated perfused rabbit hearts were equally divided into two groups.In control group,the cardiac arrest were induced with St Thomas Ⅱ solution and repeated every 30 min.the myocardial temperature remained at 40℃.In experimental group,the isolated rabbit hearts were perfused continuously with St Thomas Ⅱ solution containing stroma-free bovine hemoglobin and the myocardial temperature remained at 37℃.The preservation lasted 6 h.Results There were significant differences between the two groups in the follows:(1)The mean values of the left ventricular developed pressure(LVDP)and coronary flow rate(CFR)were higher in experimental group(P＜0.001);(2)The ATP level and myocardial oxygen uptake were significantly decreased in control group(P＜0.001);(3)The mean values of released creatine phosphate kinase(CPK),lactec dehydrogenase(LDH)and myocardial contents of malondialdehyde(MDA)were higher in control group(P＜0.01);(4)More water was present in the myocardial in control group(P＜0.01);(5)The myocardial ultrastructural injuries were greater in control group.Conclusion The stroma-free bovine hemoglobin could offer great protective effects on preservation of the isolated rabbit hearts.