Objective To investigate the biocompatibility of diamond-like carbon(DLC) coated NickelTitanium shape memory alloy with osteoblasts cultured invitro. Methods Rabbit’s osteoblasts were incubated with DLCcoated NickelTitanium shape memory alloy disks and uncoated ones of equal size for 5 days. The control group(without shape memory alloy in culture media) was performed simultaneously. The cultured cells were counted and graphed. The samples from culture media were collected and the concentrations of alkaline phosphatase (ALP) and nickel(Ni2+) were measured from the 1st to 5th day respectively. Results The proliferation of osteoblasts and the concentration of ALP in both DLC-coated group and control gruop was higher than uncoated group. The proliferation of osteoblasts on the 3rd, 4th, and 5th day in both DLC-coatedgroup and control group was significantly higher than that in the uncoated group(P<0.05). The concentration of ALP in DLC-coated group on the 2nd, 3rd, and 5th day and in the control group on the 3rd, 4th, and 5th day was significantly higher than that in the uncoated group(P<0.05). The concentration of Ni2+ on the 3rd, 4th, and 5th day was significantly lower than that in the uncoated group(P<0.05). Conclusion DLC- coated NickelTitanium shape memory alloys appears to have better biocompatibility with osteoblast cultured in vitro compared to uncoated ones.
Objective To study the reconstruction method and effectiveness of titanium plate and Teflon patch for the chest wall after resection of sternal tumors. Methods Between October 2006 and November 2009, 4 patients with sternal tumors were treated and the thoracic cages were reconstructed. There were 2 males and 2 females, aged 30-55 years. The patientswere admitted because of chest lump or pain. The sizes of palpable lump ranged from 4 cm × 3 cm to 10 cm × 8 cm. CT examination showed bone destruction. After sternal tumor resection, defect size ranged from 10 cm × 8 cm to 18 cm × 14 cm, and titanium plate and Teflon patch were used to repair and reconstruct the chest wall defect. Results The operations of the tumor resection and reconstruction of chest wall defect were successfully performed in 4 cases. Incisions healed by first intention with no abnormal breath, subcutaneous emphysema, pneumothorax, and infection. One case failed to be followed up after 6 months; 1 case died of intracranial hemorrhage; and 2 cases were followed up 1 and 4 years respectively without tumor recurrence. The chest wall had good remodel ing. No loosening and exposure of titanium plate, difficulty in breathing, chest distress, and chest pain were observed during followup. Conclusion Surgical resection of sternal tumors will cause large chest wall defect which can be repaired by titanium plate and Teflon patch because it had the advantages of easy operation, satisfactory remodel ing, and less compl ication.
Objective To systematically review the efficacy of poly-L-lactide (PLLA) material treatment versus titanium plates treatment for mandibular fractures. Methods We searched the Cochrane Library, PubMed, Embase, Chinese Journal Full-text Database, VIP Database, and Wanfang Database to collect literatures about randomized or non-randomized controlled trials using PLLA treatment (the trial group) versus titanium plates treatment (the control group) for mandibular fractures in the last ten years (from January 2007 to March 2017). The quality evaluation and data extraction were carried out by 2 reviewers independently and analyzed by Review Manager 5.3 software. Results A total of 8 literatures including 453 patients with mandibular fractures were included in this Meta-analysis. There was no significant difference in total complications between the two groups [odds ratio (OR)=0.98, 95% confidence interval (CI) (0.55, 1.75), P=0.95], including dislocation healing [OR= 0.96, 95%CI (0.46, 2.01), P=0.90], occlusal disturbance [OR=1.53, 95%CI (0.61, 3.87), P=0.37], infection [OR=0.63, 95%CI (0.23, 1.74), P=0.37], and secondary operation [OR=0.46, 95%CI (0.17, 1.27), P=0.14]. Conclusion There is no significant difference between PLLA and titanium plate in the treatment of mandibular fractures.
OBJECTIVE To investigate the feasibility of prefabricating a specified shape autograft capable of transfer using coral and type I collagen as a carrier for recombinant human bone morphogenetic protein-2 (rhBMP-2). METHODS In this study, the composite of rhBMP-2, coral and type I collagen was made certain shape to prefabricate vascularized osteomuscular autograft capable of microvascular free tissue transfer and autogenous bone graft with certain shape and titanium implant in it. The composite was implanted in the iliac area in dog with the titanium implant at the same time. After 3 months and 4 and a half months of implantation, the composites were studied with gross measurement, X-ray, and histological examinations. RESULTS After 3 months, composited bone was turned to bone tissue, and the shape of iliac bone was changed with implant in it, bone interface was seen between new bone and implant. And new bone was matured after 4 and a half months. CONCLUSION Coral and type I collagen are effective carrier for rhBMP-2 to prefabricate vascular osteomuscular autograft with certain shape. The use of rhBMP-2 for tissue engineered microvascular free bone flaps has an unlimited potential and adds a new dimension to maxillofacial reconstruction.
This paper aims to explore the effect of electrical stimulation of triboelectric nanogenerators (TENGs) on the osteogenic and other biological behaviors of mouse embryonic osteoblast precursor cells (MC3T3-E1 cells) on titanium surfaces. First, an origami-type TENG was fabricated, and its electrical output performance was tested. The optimal current of the generator and the feasibility of the experiment were verified by the CCK-8 assay and scratch assay. At the optimal current, the osteogenic conditions of the cells in each group were determined by quantitative analysis of the total protein content, alkaline phosphatase (ALP) activity, and alizarin red staining (ARS) on the titanium surface. Finally, the adhesion and spreading of cells on the titanium surface after electrical stimulation were observed. The results showed that the TENG had good electrical output performance, with an open-circuit voltage of 65 V and a short-circuit current of 42 μA. Compared with the rest of the current, a current strength of 30 μA significantly improved cell proliferation and migration, osteogenesis, and adhesion and spreading capabilities. The above results confirm the safety and operability of TENG in biomedical applications, laying the foundation for future TENG applications in reducing the time of bone integration around titanium implants after surgery.
In order to study the Titanium-bone interaction and integration mechanism, the titanium implant was implanted in the tibia of 9 Newzealand rabbits, and the Ti-bone interface performed for 1, 3, and 6 months were examined and analyzed by fluorescence microscope and advanced TOF-SIMS techniques. The results showed that Ti-bone tissue was integrated closely in a very reactive manner. Both physical and chemical integration occurred in the Ti-bone interface. The Ti-bone could diffuse into the bone tissue though the diffusion was very limited. It was up to 100 microns in depth during the early period. The diffusion density was high, and later in a smooth distribution. Furthermore, while Ti+ diffused into the bone tissue, other elements such as Ca+, OH-, O-, etc, could also diffuse into titanium in exchange. The growth pattern around the bone tissue was in two fashions, one was implantefugal and the other was implantopetal. In this study, based on the ionic distribution, osmosis and impurity elements distribution, the Ti-bone integration mechanism was discussed at molecular and atomic level.
ObjectiveTo study the efficacy of anterior cervical Vectra-t dynamic plate and titanium mesh for cervical spondylosis. MethodsA retrospectively analysis involving 20 cases (44 sections) from June 2010 to October 2012 was performed in the department of orthopaedic in the West China Hospital of Sichuan University. All patients received the operation of anterior cervical vertebral resection decompression, titanium mesh and bone graft, and Vectra-T plate. The data of the JOA scores, cervical curvature, the conditions of vertebral body fusion after bone graft and the situation of titanium mesh subsidence were all collected. Statistical analysis were performed using SPSS 19.0 software. Resultsa) All the 20 cases received a 12-to 30-month follow-up. The results of statistical analysis showed that:the JOA scores were as follows:7.68±1.66 for preoperative, 10.91±1.97 for after surgery and 12.74±1.27 for the endpoint of follow-up, and significant differences were found between these scores (P < 0.05). b) There was no loose of screw or plate. The local cervical angle and regional cervical angle were improved after surgery. In the 44 segments of fusion, 43 segments fused within 6 months, one of the segment delayed to fuse 12 months after surgery. c) The subsidence of titanium mesh were 2.7±2.7 mm on average in 3 months after surgery, 3.6±1.0 mm on average in 6 months after surgery, 3.9±1.2 mm on average in 12 months after surgery and 4.0±1.2 mm on average in last follow-up. Titanium mesh subsidence mainly concentrated in the postoperative period of 6 months. After six months of titanium mesh subsidence was no longer apparent. ConclusionThe application of Vectra-T dynamic plate can effectively improve the curvature of the cerical sagittal position, prevent protrusion deformity, reduce the related complications after bone graft, effectively avoid the stress shelter in the static plate, andspromote the fusion between the cervical vertebral bodies. However, the long-term curative effects are still needed to be assessed by large sample randomized controlled trials with long-term follow-up.
In recent years, bone implant materials such as titanium and titanium alloys have been widely used in the biomedical field due to their excellent mechanical properties and good biocompatibility. However, in clinical practice, bacterial adhesion to the material surface and postoperative infection issues may lead to implantation failure. Based on the antibacterial mechanism, this review elaborated on the antibacterial surface design of titanium implants from the aspects of anti-bacterial adhesion, contact sterilization and photocontrol sterilization. Surface modification of titanium or titanium-based alloy implants with different techniques can inhibit bacteria and promote osseointegration. Thus, the application range of multifunctional titanium-based implants in the field of orthopedics will be expanded.
Objective To investigate the clinical effect of free forearm flap and titanium mesh in repairing maxillary defects. Methods From January 2002 to November 2002,partial maxillectomy or maxillectomy wereperformed in 3 patients with maxillary gingival carcinoma, in 1 patient with palatine mucoepicermoid carcinoma and in 1 patient with maxillary sinus carcinoma. Maxillary defects were reconstructed withfree forearm flaps ranging from 4 cm×5 cm to 6 cm×7 cm and titanium mesh.The effect was estimated by clinical examination, CT and nasopharyngoscope. Results Five cases were followed up 515 months. All the flaps were alive. Facial, alveolar process and palatal contours were restored well. Epithelium was found on the nostril surface of the titanium mesh. The functions of speech and chew were restored well. Conclusion A combination of the free forearm flap and titanium mesh is an ideal method in reconstruction of maxillary defects.
ObjectiveTo investigate the effects of micro/nano-structure and antimicrobial peptides (AMPs) on antibacterial properties of titanium (Ti) metallic surface.MethodsTi disks were treated via sandblasted large-grit acid-etched (SLA) and alkali-heat treatment (AHT) to build the micro/nano-structure, on which AMPs were spin-coated with a certain amount (10, 30, 50, 70, and 90 μg). Scanning electron microscope (SEM) and energy dispersive spectroscopy (EDS) were used to observe the surface structure and characterize the surface elements (i.e. contents of C, N, O, and Ti). Ti disks loaded with AMPs of difference amounts were co-cultured with Staphylococcus aureus (S. aureus) for 24 hours. After that, the formation and dimension of antibacterial circle were measured. Furthermore, the Ti disks treated with different approaches (untreated, SLA treatment, SLA+THA treatment, and 90 μg AMPs-loaded samples) were co-cultured with S. aureus and Escherichia coli (E.coli) for 3 hours, bacterial adhesion on the disks were evaluated by using SEM. The antibacterial performances in solution were quantitatively evaluated by immersing the Ti disks in bacterial solutions and measuring the absorbance (A) values.ResultsIt was found that the nanoporous structure could be easily constructed by SLA+AHT approach. After spin-coating AMPs, the nanopores with the diameter less than 200 nm were almost covered. According to the element analysis, with the increase of AMPs, the C content gradually increased; the N content was not detected until AMPs amount reached 70 μg on the disks. The diameter of antibacterial circle clearly depended on the AMPs amount. The Ti disks loaded with 90 μg AMPs had significantly larger antibacterial circles than the other Ti disks (P<0.05). Based on the SEM observation, the Ti disks loaded with 90 μg AMPs has the least bacterial attachment compared with the other Ti disks (P<0.05). TheA value of bacterial solution immersed with the Ti disks loaded with 90 μg AMPs was much lower than the other Ti disks (P<0.05).ConclusionThe approach of micro/nano-structure and AMPs can improve the antibacterial properties of Ti metallic surface.