Objective To observe the effect of cationic liposomal ceftazidime (CLC) combined with nano-hydroxyapatite/β-tricalcium phosphate (n-HA/β-TCP) in the treatment of chronic osteomyelitis of rabbits. Methods Thirty healthy New Zealand white rabbits (4-6 months old; weighing, 2-3 kg) were selected to prepare the chronic osteomyelitis models. After 4 weeks, the gross observation, X-ray examination, and bacteriological and histopathological examinations were done; the models were made successfully in 27 rabbits. Of 27 rabbits, 24 were randomly divided into 4 groups (n=6): only debridement was performed in group A; ceftazidime was given (90 mg/kg), twice a day for 8 weeks after debridement in group B; ceftazidime and n-HA/β-TC were implanted after debridement in group C; and CLC and n-HA/β-TCP were implanted after debridement in group D. Before and after treatments, X-ray examination was done, and Norden score was recorded. At 8 weeks after treatment, the specimens were harvested for gross observation and for gross bone pathological score (GBPS) using Rissing standard; half of the specimens was used for histological observation and Smeltzer scoring, the other half for bacteriological examination and calculation of the positive rate of bacteria culture. Results At 8 weeks after treatment, Norden score of group D was significantly lower than that of groups A, B, and C (P lt; 0.05), but no significant difference was found among groups A, B, and C (P gt; 0.05). At 8 weeks after treatment, sinus healed in groups C and D, but sinus was observed in groups A and B; the GBPS scores of groups C and D were significantly lower than those of groups A and B (P lt; 0.05). The Smeltzer scores of groups C and D were significantly lower than those of groups A and B (P lt; 0.05). The positive rates of bacteria culture of groups C (0) and D (0) were significantly lower than those of group A (25.0%) and group B (16.7%) (P lt; 0.05). Conclusion CLC combined with n-HA/β-TCP has good effect in treating chronic osteomyelitis of rabbits, and it has better effect in treating chronic osteomyelitis of rabbits than ceftazidime with n-HA/β-TCP.
Objective To explore a novel nanometer biomaterial which could induce the regeneration of tooth tissues intell igently, and to evaluate the feasibil ity of using this kind of biomaterial as the scaffold for tooth tissue engineering by investigating the role it plays in tooth tissue engineering. Methods The scaffold for tooth tissue engineering containing recombinant human bone morphogenetic protein 2 (rhBMP-2) was prepared by mixing nanoscale β tricalcium phosphate (β-TCP)/collagen particles. Forty-six 8-10 weeks old specific pathogen free Sprague Dawley (SD)rats, including 34 females and 12 males, weighing 250-300 g, were involved in this study. Tooth germs were removed under a stereomicroscope from the mandible of newborn SD rat, then digested and suspended. Scanning electronic microscope (SEM), adhesion rate of cells, and MTT assay were used to evaluate the effects of the scaffold on the tooth germ cells cultured in vitro. The tissue engineered tooth germ which was constructed by tooth germ cells and scaffold was transplanted under SD rat’s kidney capsule as the experimental group (n=12); the tooth germ cells (cell-control group, n=12) or scaffold without cells (material-control group, n=4) were transplanted separately as control groups Specimens were harvested to perform general and histological observations at 4 and 8 weeks after transplantation. Results β-TCP/collagen showed a loose and porous appearance with soft texture and excellent hydrophil icity. Tooth germ cells grew well and could attach to the scaffold tightly 3 days after coculture. The adhesion rates of tooth germ cells were 27.20% ± 2.37%, 44.52% ± 1.87%, and 73.81% ± 4.15% when cocultured with scaffold for 4, 8, and 12 hours, respectively. MTT assay showed that the cell prol iferation status of experimental group was similar to that of the control group, showing no significant difference (P gt; 0.05). Some white calcified specimens could be harvested at 4-8 weeks after transplantation. At 4 weeks after transplantation some typical structures of dental cusp and enamel-dentin l ike tissues could be seen in the experimental group. Enamel-dentin l ike tissues also formed in some specimens of cell-control group, but they arranged irregularly. At 8 weeks after transplantation the enamel-dentin l ike tissue of experimental group exhibited a mature appearance and organized structure in comparison with that at 4 weeks. And mature enamel or dentin l ike tissue also could be seen in cell-control group. In contrast, there was no enamel or dentin l ike tissue in material-control group at 4 or 8 weeks after transplantation. Conclusion rhBMP-2 decorated β-TCP/collagen scaffold has good biocompatibil ity and can be used as a novel nanometer biomaterial, so it is a good choice in scaffolds for tooth tissue engineering.
Objective To investigate the ability of plateletrich plasma(PRP) combined with cells and artificial bone in accelerating the repair of bone defect. Methods The marrow stromal stem cells (MSCs) of rabbit were cultured and induced into the osteoblast-like cells in vitro. PRP was produced with low-density twice centrifugations. Forty-eight New Zealand rabbits were made 1.2 cm bilateral radius defect models and divided into 4 groups averagely at random: group A(left:PRP/MSCs/β-tricalcium phosphate(β-TCP), right: MSCs/β-TCP), group B (left:autoradius, right: PRP/MSCs/β-TCP); group C (left:autoradius,right: MSCs/β-TCP), and group D(left:PRP/β-TCP; right:β-TCP). At 2, 6 and 12 weeks after operation, the repair of bone defect was evaluated by the generalobservation, histology, biomechanics and histomorphology. Results There was a stable platelet concentration in PRP and it was about 5.45±0.23 times of whole blood. In the aspect of bone bridge and conture of the defects, at 2 and 6 weeks, PRP/MSCs/β-TCP and MSCs/β-TCP displayed asimilar outcome and were less than auto in general sample and X-ray;at12 weeks,PRP/MSCs/β-TCP was similar to autoradius and better than MSCs/β-TCP.in the aspect of quantity and quality of bone formation,histology showed that PRP/MSCs/β-TCP and autoradius were better than MSCs/β-TCP(P<0.05),and there was nosignificantdifference between PRP/MSCs/β-TCP and autoradius(P>0.05). At 2 and 6 weeks,there was no significant difference between PRP/β-TCP and β-TCP(P>0.05)。At 12 weeks,PRP/β-TCP was better than β-TCP(P<0.05). In the aspect of intensity f bone formation,at 6 and 12 weeks,PRP/MSCs/β-TCP and autoradiuswere better than MSCs/β-TCP(P<0.05). At 6 weeks,autoradius was better than PRP/MSCs/β-TCP(P<0.05). At 12 weeks,there was no significant difference between PRP/MSCs/β-TCP and auto(P>0.05). PRP/TCP and β-TCP had no significant difference at 12 weeks(P>0.05). Conclusion PRP/MSCs/β-TCP demonstrated excellent ability of forming bone in experiment. PRP was most likely to accelerate the repair of bone defect through increasing the activity of proliferation and differentiationof MSCs and osteoblasts.
Objective To investigate the feasibility of a new kind of porous β tricalcium phosphate (β-TCP) as a scaffold for the bone tissue engineering Methods The inverted phase contrast microscope was used to observe the growth of the marrow mesenchymal stem cells (MSCs) in the experimentalgroup and the control group at 10 days.In the experimental group, the MSCs were cultured with β-TCP(3 mm×3 mm×3 mm) in the 24-hole cultivation board, and in the control to control group, only MSCs were cultivated. The scanning electron microscope was used to observe growth of MSCs at 6 days. Cultivated with β-TCP at 3, 6, 9, 12 days, the MTT assay was used to judge the biocompatibility. The cytotoxicity was analyzed with the method that used the different density(100%, 50%, 10%, 1%,0%) leaching liquor gained from β-TCP to raise MSCs. MSCs were induced into the osteoblasts and were mixed with β-TCP, and the composite was used to repair a large radius bone defect in the rabbit. The specimens were made at 2,6,12 weeks. The histology imageology, and the radionuclide bone scan were used to analyze the bone formation. Results Some MSCs had a good adherence 4 hours after MSCs were inoculated and had a complete adherence at 12 hours. The cells were shaped like polyangle, spindle or converge monolayer after 8-10 days. The cells in the two groups had no difference. The cell adhesion was good, when observed by the inverted phase contrast microscope and the scanning electron microscope at 6 days. MTT showed that the absorbance (A)was not statistically different between the experimental group and the control group (P>0.05); the different density leaching liquor had no cytotoxicity at the different time points. Histology, X-ray, and CT tomograph showed that itcould repair the large radius bone defect in the rabbit and its in vivo degradationrate was the same as the bone formation rate. Conclusion The new porous β-TCP has a unique three dimensional (3D) stereochemical structure and superordinary physicochemical property, and so it is a good scaffold for the bone tissue engineering.
Objective To study an optimal ratio of small intestinal submucosa (SIS) and (hydroxyapatite-tricalcium phosphate,HA-TCP,SIS/HA-TCP) compositions according to the effect of SIS/HA-TCP compositions with different ratios on repairing rabbit femoral condyle defect. Methods Thirty-six rabbits were made into bone defect models of 6 mm in diameter and 10 mm in depth in both sides of femoral condyles. Three different ratios of SIS/HA-TCP compositions (w/w: 1, 0.5, 0.25) were implanted into rabbit femoral condyle defect. After 2, 4, 8 and 12 weeks of operation, the repair effect wasobserved grossly. The histological evaluations were performed by histological scoring system and computer imaging analysis system. Results The amount of new bone formation in SIS/HA-TCP(0.5) group was more than that in SIS/HA-TCP(1) and SIS/HA-TCP(0.25) groups. Histological observation: In SIS/HA-TCP(1) group, few new bone formation was seen and bone defect was repaired in the 12th week. In SIS/HA-TCP(0.5) group, immature woven bone was found in the defect in the 2nd week; more immature woven bone appeared and formed trabeculae in the 4th week; the regenerated bone was vigorously growing into the interspaces of the implanted materials in the 8th week; the implanted materials was basically replaced by bony structure and the lamellar bone appeared in the 12thweek. The results of SIS/HA-TCP (0.25) group were similar to that of SIS/HA-TCP(0.5) group. The histological scoring was higher in SIS/HA-TCP(0.5) and SIS/HA-TCP(0.25) groups than that in SIS/HA-TCP(1) group (Plt;0.05) in the 2nd, 4th, 8th, and 12th weeks. The scoring was higher in SIS/HA-TCP(0.5) roup than that in SIS/HA-TCP(0.25) group in the 2nd and 12th weeks(P<0.05). In new bone formation and the degradation of HA-TCP, SIS/HA-TCP(0.5) and SIS/HA-TCPC(0.25) groups were superior to SIS/HA-TCP(1) group(Plt;0.05), SIS/HA-TCP(0.5) group was superior to SIS/HA-TCP(0.25) group (Plt;0.05). Conclusion SIS/HA-TCP(0.5) has better effects of repairing bone defect and it can be used as a reference ratio in constructing bone scaffolds.
Objective To investigate the influence of different dose levels of hydroxyapatite/tricalcium phosphate (HA/TCP) on the proliferation and alkalinephosphatase (ALP) activity of rabbit osteoblasts. Methods Three different doselevels of HA/TCP (10%, 40%, 70%) were co-cultivated with rabbit osteoblasts respectively. The proliferation and ALP expression capacity of osteoblasts were examined with MTT method and enzyme histochemistry once every 24 hours until 5 days. Three control groups of other materials were treated and examined in the sameway: rabbit osteoblasts as normal control; polyvinylchloride as positive control; titanium alloy as negative control. Results There was remarkable timeeffect relationship in the proliferation of osteoblasts. Ten percent HA/TCP did not affect osteoblasts growth while 40% HA/TCP could slow the cell growth rate down though time-effect relationship still existed. The proliferation of osteoblasts stagnated when co-cultivated with 70% HA/TCP. On the other hand, 10% HA/TCP could cause reversible damage on ALP activity of osteoblasts, whereas when the dose was40%, and the cultivation lasted 6 days the damage was irreversible. Three different dose levels of titanium alloy (10%, 40%, 70%) had no effect on the proliferation or ALP activity of osteoblasts. Conclusion Dosage is an important factor affecting the biocompatibility evaluation of biomaterial. It suggests that dose choosing should be more specified upon each individual biomaterial. It also indicates that ALP may be a good supplementary index of the cell compatibility of material.
OBJECTIVE To manufacture adriamycin-porous tricalcium phosphate (A-PTCP) ceramic drug delivery system (DDS) as a possible method for bone defect treatment after bone tumor operation. METHODS A-PTCP DDS was made from putting adriamycin into PTCP. Thirty rabbits were divided randomly into group A(24 rabbits) and group B(6 rabbits). A-PTCP was implanted in the greater trochanter of the right femur in group A. Adriamycin were injected into veins in group B. Muscle around A-PTCP and plasma were taken out at different period. Adriamycin concentrations in muscle and plasma were measured by high performance liquid chromatography (HPLC). RESULTS A-PTCP could gradually release adriamycin over 10 weeks. Adriamycin concentrations in the muscle were higher than that in plasma. CONCLUSION A-PTCP may be a new method for repairing bone defects after bone tumor operation.
ObjectiveTo improve the poor mechanical strength of porous ceramic scaffold, an integrated method based on three-dimensional (3-D) printing technique is developed to incorporate the controlled double-channel porous structure into the polylactic acid/β-tricalcium phosphate (PLA/β-TCP) reinforced composite scaffolds (double-channel composite scaffold) to improve their tissue regeneration capability and the mechanical properties. MethodsThe designed double-channel structure inside the ceramic scaffold consisted of both primary and secondary micropipes, which parallel but un-connected. The set of primary channels was used for cell ingrowth, while the set of secondary channels was used for the PLA perfusion. Integration technology of 3-D printing technique and gel-casting was firstly used to fabricate the double-channel ceramic scaffolds. PLA/β-TCP composite scaffolds were obtained by the polymer gravity perfusion process to pour PLA solution into the double-channel ceramic scaffolds through the secondary channel set. Microscope, porosity, and mechanical experiments for the standard samples were used to evaluate the composite properties. The ceramic scaffold with only the primary channel (single-channel scaffold) was also prepared as a control. ResultsMorphology observation results showed that there was no PLA inside the primary channels of the double-channel composite scaffolds but a dense interface layer between PLA and β-TCP obviously formed on the inner wall of the secondary channels by the PLA penetration during the perfusion process. Finite element simulation found that the compressive strength of the double-channel composite scaffold was less than that of the single-channel scaffold; however, mechanical tests found that the maximum compressive strength of the double-channel composite scaffold[(21.25±1.15) MPa] was higher than that of the single-channel scaffold[(9.76±0.64) MPa]. ConclusionThe double-channel composite scaffolds fabricated by 3-D printing technique have controlled complex micropipes and can significantly enhance mechanical properties, which is a promising strategy to solve the contradiction of strength and high-porosity of the ceramic scaffolds for the bone tissue engineering application.
This study aims to explore the vascularization of hydroxyapatite/tricalcium phosphate (HA/TCP) biomaterials implanted in mice during osteoinduction. The HA/TCP biomaterials were implanted in muscle of mice, and 2, 4, 6, 8, 10 and 12 weeks after the implantation, the materials were harvested to prepare serial sections and hematoxylin-eosin (HE) staining. The process of vascularization was dynamically described, and the area percentage of neovascularization was quantitatively analyzed. The results showed that neovascularization formation was a continuous and dynamic process. The neovascularization appeared largely in the first two weeks, with a rising trend in week 4, reached peak in week 6, and gradually reduced in week 8. The results provide ideas for improving the success rate of bone tissue engineering, and indicate the mechanism of osteoinduction.
ObjectiveTo study the effect of three-dimensional (3D) printed β-tricalcium phosphate (β-TCP) scaffold loaded poly (lactide-co-glycolide) (PLGA) anti-tuberculosis drug sustained release microspheres on osteogenic differentiation of bone marrow mesenchymal stem cells (BMSCs) and its cytotoxicity.MethodsIsoniazid and rifampicin/PLGA sustained release microspheres were prepared by W/O/W multiple emulsion method. The β-TCP scaffolds were prepared by 3D printing technique. The microspheres were loaded on the scaffolds by centrifugal oscillation method to prepare composite materials. The BMSCs of Sprague Dawley rat were isolated and cultured by whole bone marrow adherent method, and the third generation cells were used for the following experiments. BMSCs were co-cultured with osteogenic induction medium (group A), PLGA anti-tuberculosis drug sustained release microsphere extract (group B), 3D printed β-TCP scaffold extract (group C), and 3D printed β-TCP scaffold loaded PLGA anti-tuberculosis drug sustained release microsphere composite extract (group D), respectively. Cytotoxicity was detected by cell counting kit 8 (CCK-8) method; the calcium deposition was observed by alizarin red staining; and the mRNA expressions of alkaline phosphatase (ALP), osteocalcin (OCN), and bone sialoprotein (BSP) were detected by real-time fluorescence quantitative PCR (RT-qPCR).ResultsCCK-8 assay showed that the absorbance (A) value of groups A, B, C, and D increased gradually with the culture time prolonging. After cultured for 24, 48, and 72 hours, the A value decreased in the order of groups A, C, B, and D. There was no significant difference between groups B and D (P>0.05), but there were significant differences between other groups (P<0.05). The cytotoxicity was evaluated as grade 0-2, and the toxicity test was qualified. Alizarin red staining showed that red mineralized nodules were formed in all groups at 21 days after osteogenic induction, but the number of mineralized nodules decreased sequentially in groups C, D, A, and B. RT-qPCR test results showed that the relative expressions of OCN and BSP genes in groups A, B, C, and D increased gradually with the culture time prolonging. The relative expression of ALP gene increased at 7 and 14 days, and decreased at 21 days. After cultured for 7, 14, and 21 days, the relative expressions of ALP, OCN, and BSP genes decreased sequentially in groups C, D, A, and B; the differences were significant between groups at different time points (P<0.05).Conclusion3D printed β-TCP loaded PLGA anti-tuberculosis drug sustained release microsphere composites have no obvious cytotoxicity to BMSCs, and can promote BMSCs to differentiate into osteoblasts to a certain extent.