This study examined the cytotoxicity of a new implant material modified by microarc oxidation technique. Cells on different surfaces of the implant were evaluated 2, 4 and 6 days after treatment. The results showed that cell attachment, cell morphology, and cell proliferation were influenced by the different surface treatments, and a significant increase in the osteoblast cell activity was observed on the porous MAO-Ti coating. Our results suggest that the porous MAO-Ti surface has a better biocompatibility and electrochemical performance than pure titanium surface.

This study examined the cytotoxicity of a new implant material modified by microarc oxidation technique. Cells on different surfaces of the implant were evaluated 2, 4 and 6 days after treatment. The results showed that cell attachment, cell morphology, and cell proliferation were influenced by the different surface treatments, and a significant increase in the osteoblast cell activity was observed on the porous MAO-Ti coating. Our results suggest that the porous MAO-Ti surface has a better biocompatibility and electrochemical performance than pure titanium surface.

Objective The objective of this study was to investigate the underlying causes of catheter rupture in implantable venous assess ports among 4 paediatric patients and to summarise nursing experiences.Methods A total of 319 implantations of venous assess port were admitted in the Department of Paediatric Surgery of our hospital from March 2011 to January 2023,with an incidence rate of catheter fracture at 1.3%(4 cases).The ruptured catheters in all 4 paediatric patients were successfully retrieved via surgery.The reasons for catheter rupture as well as the methods for identification were analysed and summarised.Results In Case 1,a catheter rupture was located at 6 cm from the port and the ruptured catheter was not displaced.In Case 2,a linear crack was observed at 7 cm from the base of port without visible sign of catheter rupture,however,a leakage was observed from the crack when fluid was injected.In Case 3,the location of catheter rupture was identified at 11 cm from the port and again there was no evidence of displacement.However for Case 4,a catheter rupture occurred at just 1 cm away from the base of port,with a displacement along right atrium-right pulmonary artery-right inferior pulmonary artery.The causes of catheter rupture were attributed to frequent and prolonged neck and upper extremity activities in Cases 1,3 and 4,as well as an inappropriate handling of catheter in Case 2.After removal of the catheter,Cases 1,2 and 4 were kept in hospital for treatment of original illnesses,while Case 3 was discharged the day after the removal of catheter.Conclusion Catheter rupture is an extremely serious complication.It is imperative for healthcare personnel to adhere to standardised procedures and maintenance protocols,together with comprehensive health education to both parents and children.Early detection of an abnormality followed by prompt handling is crucial in ensuring the safety usage of an implantable venous assess port in paediatric patients.

Formins are widely distributed in eukaryotes such as fungi, plants and animals. They play crucial roles in regulating the polymerization of actin, coordinating the synergistic interactions between actin and microtubules, and determining cell growth and morphology. Unlike formins from fungi and animals, plant formins have been evolved into two plant-specific types. Generally, type Ⅱ formins are believed to regulate the polarized growth of cells, and type Ⅰ formins may regulate the cell expansion and division processes. Recent studies on the function of plant formins suggest it is inappropriate to classify the function of formins purely based on their structures. This review summarizes the domain organization of formins and their corresponding functions, as well as the underpinning mechanisms. Furthermore, the unsolved or unexplored issues along with future perspectives on plant formins are proposed and discussed.
Actins ; Formins ; Microfilament Proteins ; Plant Cells ; Plant Development ; Plants