碳/碳材料含硅羟基磷灰石涂层体外成骨细胞相容性研究

目的:成骨细胞在碳/碳复合材料表面羟基磷灰石涂层上有良好的长入,该实验在羟基磷灰石(hydroxyapatite HA)涂层中掺入硅后,研究成骨细胞对该涂层的生物活性,为临床骨科应用提供实验基础。方法:本研究采用化学液相气化沉积/水热法在碳/碳材料表面制备了含硅羟基磷灰石(silicon-hydroxyapatite Si-HA)涂层。在体外成骨细胞相容性的研究中,以HA涂层为对照,通过甲基噻唑基四唑(methylthiazolyl tetrazolium MTT)法测定细胞增殖反应和对细胞毒性反应,碱性磷酸酶(alkaline phosphatase ALP)测定细胞的分化,扫描电镜观察细胞生长形态,免疫荧光显影技术测定细胞的长入。结果:在HA涂层中引入硅后,Si-HA涂层和HA涂层在第2天、第4天的成骨细胞增殖实验表明前者的细胞长入数较后者多,两者的差异有统计学意义,而Si-HA涂层浸泡液中的ALP活性下降较HA涂层而言更明显,两者的差异有统计学意义,电镜扫描及荧光染色均提示在Si-HA涂层中成骨细胞的增值数更多。结论:在HA涂层中引入硅后,改变了涂层自身的晶体结构及表面电荷,同时诱导成骨细胞分泌胶原,使得成骨细胞更好的贴壁生长和增殖,成骨能力增加。在临床骨科植入物表面涂层改性上有很好的应用前景。     

异补骨脂素加锌对大鼠成骨细胞增殖与分化的影响

为探讨异补骨脂素加锌对体外培养新生大鼠颅骨成骨细胞增殖与分化作用的影响,用改良的组织块培养法分离培养新生大鼠颅骨成骨细胞,在成骨细胞体系中以不同浓度加入异补骨脂素与锌,MTT法检测加药后不同时间成骨细胞的增殖情况;用对硝基苯二钠基质动力学法(PNPP)测定细胞内碱性磷酸酶的活性,用改良的Lowry法测蛋白含量.结果显示:异补骨脂素加锌较单纯应用异补骨脂素或硫酸锌在24和48 h时促体外大鼠成骨细胞增殖的作用更加明显;在48和72 h时能促进成骨细胞碱性磷酸酶活性(ALP),其中ALP的测定在72h的活性更为显著.与单纯应用异补骨脂素或者锌相比,异补骨脂素与锌联合应用能够协同增效,对体外培养的成骨细胞的增殖与分化作用更加显著.     

甲氧补骨脂素对大鼠成骨细胞生物活性影响的实验研究

为探讨甲氧补骨脂素对体外培养新生大鼠颅骨成骨细胞增殖与分化作用的影响,用改良的组织块培养法分离培养新生大鼠颅骨成骨细胞,在成骨细胞体系中以不同浓度加入甲氧补骨脂素,MTT法检测加药后不同时间细胞的增殖情况;用对硝基苯二钠基质动力学法(PNPP)测定细胞内碱性磷酸酶的活性,用改良的Lowry法测蛋白含量;用放射免疫法测定细胞内骨钙素含量。结果显示:与对照组相比,甲氧补骨脂素组在24 h和36 h时促进体外大鼠成骨细胞增殖的作用更明显;在24、48 h和72 h时均能提高成骨细胞碱性磷酸酶活性(ALP)和骨钙素(BGP)的分泌。甲氧补骨脂素对体外培养的大鼠成骨细胞的增殖与分化均有明显的促进作用。     

补骨脂素加锌对大鼠成骨细胞增殖与分化影响的实验研究

为探讨补骨脂素加锌对体外培养新生大鼠颅骨成骨细胞增殖、分化作用的影响及其量效关系,用改良的组织块培养法分离培养新生大鼠颅骨成骨细胞,在成骨细胞体系中以不同浓度加入补骨脂素与锌,MTT法检测加药后不同时间成骨细胞的增殖情况;用对硝基苯二钠基质动力学法(PNPP)测定细胞内碱性磷酸酶的活性;用放射免疫法(RIA)测定细胞外骨钙素(BGP)的含量,用改良的Lowry法测蛋白含量。补骨脂素加锌较单独应用补骨脂素或硫酸锌在48 h和72 h时促体外大鼠成骨细胞增殖的作用更加明显;在24、48 h和72 h时能提高成骨细胞碱性磷酸酶(ALP)活性,其中在48 h时的效果更为显著;在24 h和72 h时能提高细胞外液中的骨钙素含量;补骨脂素浓度为1×10-9mol/L和锌浓度为1×10-5mol/L两者联合用药较为合适。与单独应用补骨脂素或者锌相比,补骨脂素与锌联合应用能够协同增效,对体外培养的大鼠成骨细胞的增殖与分化作用更加显著。     

50Hz 1．8mT电磁场对成骨细胞增殖与分化成熟影响的波形比较研究

在50 Hz 1.8 mT的4种不同波形电磁场(electromagnetic fields,EMFs)中筛选促进体外培养大鼠成骨细胞(rat osteoblasts,ROB)增殖与分化成熟的最佳波形.体外分离培养大鼠颅骨成骨细胞,传代后随机分为5组,分别用频率50 Hz,EMFs强度为0 mT(对照组)和1.8 mT的正弦波、三角波、方波和锯齿波处理ROB,30 min/(次.天).在磁场处理后4～8天细胞呈现特征样分布.方波促进成骨细胞增殖,正弦波抑制成骨细胞增殖.三角波和正弦波增加ALP活性,其中ALP染色、茜素红钙化结节染色和胶原Ⅰ(collagen-Ⅰ)免疫组织化学检测结果与ALP活性一致.在EMFs处理后的24 h、96 h和72 h后EMFs分别提高Runx-2、Opg和Igf基因表达水平,其中尤以正弦波和三角波作用最为显著.上述结果表明:50 Hz 1.8 mT方波促进成骨细胞增殖,正弦波抑制成骨细胞增殖.50 Hz 1.8 mT EMFs能促进体外培养成骨细胞分化成熟,其中尤以正弦波和三角波促进成骨细胞分化成熟作用最为显著.     

染料木黄酮对成骨细胞增殖分化的影响

目的：研究染料木黄酮对体外培养乳鼠颅盖骨成骨细胞增殖分化的影响。方法：取乳鼠颅盖骨,采用胶原-胰蛋白酶消化法,进行颅骨成骨细胞培养,取第二代成骨细胞,添加10^-5～10^-7mol／L染料木黄酮,在CO2孵箱中培养48h和72h后MTT比色法测定细胞增殖,培养72h采用^3H-TdR和^H-Pro掺入实验测定DNA和胶原合成。用试剂盒检测细胞裂解液碱性磷酸酶(ALP)活性。结果：染料木黄酮明显增加成骨细胞MTT的吸光度值、^3H-TdR和^3H-Pro的掺入,增加成骨细胞碱性磷酸酶活性。结论：染料木黄酮促进体外培养的乳鼠颅盖骨成骨细胞DNA和胶原的合成,促进增殖和分化。     

珍珠质自然涂层钛种植体表面对MC3T3E1成骨样细胞的作用

为了研究珍珠质自然涂层钛种植体表面的体外生物相容性,将珍珠质自然涂层的钛片与MC3T3E1成骨样细胞复合培养以观察细胞的生长、增殖和分化.分别以羟基磷灰石涂层钛片和没有涂层的纯钛片作为对照组,以MC3T3E1细胞单纯培养作为空白组,分别培养3天,5天和7天,通过倒置相差显微镜和扫描电镜观察细胞生长情况,流式细胞技术检测细胞增殖活性,金氏比色法检测碱性磷酸酶(ALP)活性以及蛋白质印迹(Western blotting)法测定转化生长因子-β1(TGF-β1)表达水平.结果发现,细胞在珍珠质周围能形成良好附着,在其表面生长丰满.细胞培养第3天,第5天和第7天时,珍珠质表面的细胞增殖指数分别为(35.9±2.5)%、(69.7±3.3)%和(58.2±2.6)%,ALP活性分别为(6.123±2.917)U/g、(17.486±1.986)U/g和(23.987±1.372)U/g.第5天和7天时,实验组的细胞增殖指数、ALP活性和TGF-β1表达水平显著高于对照组和空白组(P<0.05).珍珠质自然涂层钛表面有利于MC3T3E1细胞的生长、增殖和分化,表明了珍珠质涂层能提高种植体表面的生物相容性,有可能会促进种植后的骨整合.     

乳鼠成骨细胞体外培养

目的建立乳鼠成骨细胞体外培养方法,探讨该方法的可行性和应用价值。方法用出生1~3 d乳鼠颅骨,采用多次胶原酶消化法进行细胞体外培养。倒置显微镜观察细胞形态,对其碱性磷酸酶(ALP)活性及矿化能力进行鉴定,并测定细胞生长曲线。结果原代培养24 h后,大量细胞贴壁生长,细胞呈圆形,48 h后,贴壁细胞呈长梭形、三角形或不规则多边形,并且贴壁细胞伸出2~3个突起,胞质透亮、饱满,7 d后细胞铺满整个平皿底面。经鉴定,培养细胞具有体内成骨细胞的生物学特性。细胞接种后第1与第2个24 h为细胞的潜伏适应期,第3与第7个24 h生长曲线基本为线性曲线,是细胞的对数生长期。结论采用胶原酶消化法分离培养成骨细胞的方法切实可行。     

尼古丁对兔成骨细胞生物学性能的影响及维生素C的拮抗作用

为了探究不同浓度尼古丁对体外细胞增殖分化的影响以及维生素C对尼古丁的生物学作用的影响,该文以兔成骨细胞为实验材料,对细胞增殖和各项分化指标进行了检测。MTT结果显示：与空白对照组相比,1×10-6,1×10-5mmol/L尼古丁组有促细胞增殖的作用,但是高浓度尼古丁（1 mmol/L）组对细胞增殖有明显的抑制作用。RT-PCR检测发现：用低浓度尼古丁处理细胞,ALP、COLI和OCN的基因表达上调;相反,高浓度尼古丁下调了细胞ALP、COLI和OCN的表达。ALP染色和Von Kossa钙结节染色也显示出高浓度尼古丁对成骨细胞的毒性作用。加入维生素C后,1 mmol/L尼古丁组对成骨细胞增殖和各基因表达的影响有所改善,类似的结果也见于ALP染色和Von Kossa染色。由此证实,极低浓度尼古丁对成骨细胞确有促进增殖、增强ALP活性和上调ALP、COLI、OCN基因表达的作用;但是,高浓度尼古丁却有相反的作用,抑制成骨细胞的增殖和分化。同时,维生素C具有部分拮抗高浓度尼古丁对成骨细胞毒性作用的能力。     

五味子乙素对大鼠成骨细胞增殖分化的影响

目的:探讨五味子乙素体外对大鼠成骨细胞增殖与分化的影响。方法:用改良的组织块法分离培养新生大鼠颅骨成骨细胞,五味子乙素以不同浓度加入细胞培养体系,作用不同时间后,用MTT法检测成骨细胞的增殖情况;用对硝基苯二钠基质动力学法(PNPP)测定细胞内碱性磷酸酶的活性,用改良的Lowry法测蛋白含量。结果:五味子乙素在0.75×10-4 mol/L 24 h,48 h及72 h,及0.75×10-5mol/L 24 h促进成骨细胞的增殖,在0.75×10-6mol/L24 h提高成骨细胞内碱性磷酸酶的活性。结论:五味子乙素体外能促进成骨细胞的增殖与分化。     

Standardized tests of bone implant surfaces with an osteoblast cell culture system. I. Orthopedic standard materials]

The effect of standard orthopaedic materials on proliferation and differentiation of osteoblasts was examined using a standardised cell culture system. Osteoblasts hFOB 1.19 were cultured on stainless steel (SS), a chromium-cobalt-molybdenum alloy (CrCoMb) and commercially pure titanium (cpTi) for 12 days. Cell culture polystyrene (PS) was used as a reference. Cell numbers and cell viability were used as parameters of proliferation. Cell differentiation was assessed using alkaline phosphatase activity, collagen I and osteocalcin production. The parameters of proliferation showed earlier maximum values on PS and cpTi, while proliferation was delayed on SS and CrCoMb. The highest values of differentiation were found on cpTi. The development of alkaline phosphatase activity showed two peaks reflecting apoptosis and redifferentiation. The cell culture system hFOB 1.19 is thus suitable for revealing differences in proliferation and differentiation of osteoblasts on standard orthopaedic materials. The results correlate with previous in vivo findings. Using this system, the dynamic effect of the material surface on the differentiation process of osteoblasts can be demonstrated.     

The utility of human dedifferentiated fat cells in bone tissue engineering in vitro

We compared the osteoblastic differentiation abilities of dedifferentiated fat cells (DFATs) and human bone marrow mesenchymal stem cells (hMSCs) as a cell source for bone regeneration therapies. In addition, the utility of DFATs in bone tissue engineering in vitro was assessed by an alpha-tricalcium phosphate (α-TCP)/collagen sponge (CS). Human DFATs were isolated from the submandibular of a patient by ceiling culture. DFATs and hMSCs at passage 3 were cultured in control medium or osteogenic medium (OM) for 14 days. Runx2 gene expression, alkaline phosphatase (ALP) activity, as well as osteocalcin (OCN) and calcium contents were analyzed to evaluate the osteoblastic differentiation ability of both cell types. DFATs seeded in a α-TCP/CS and cultured in OM for 14 days were analyzed by scanning electron microscopy (SEM) and histologically. Compared with hMSCs, DFATs cultured in OM generally underwent superior osteoblastogenesis by higher Runx2 gene expression at all days tested, as well as higher ALP activity at day 3 and 7, OCN expression at day 14, and calcium content at day 7. In SEM analyses, DFATs seeded in a α-TCP/CS were well spread and covered the α-TCP/CS by day 7. In addition, numerous spherical deposits were found to almost completely cover the α-TCP/CS on day 14. Von Kossa staining showed that DFATs differentiated into osteoblasts in the α-TCP/CS and formed cultured bone by deposition of a mineralized extracellular matrix. The combined use of DFATs and an α-TCP/CS may be an attractive option for bone tissue engineering.     

<Emphasis Type="Italic">In vitro</Emphasis> behaviour of osteoblast cells seeded into a COL/β-TCP composite scaffold

The purpose of the present study was to investigate the effect of a collagen/β-tricalcium phosphate (COL/β-TCP) composite on osteoblast growth and proliferation. The COL/β-TCP composite was prepared by mixing COL type I with β-TCP, in 1:1 (w/w) ratio and conditioned as sponge by freeze-drying. The osteoblast culture was obtained from rat calvaria bones by enzymatic digestion and cells were seeded in the COL/β-TCP composite. The cell morphology and viability, alkaline phosphatase and osteocalcin, as markers of osteoblast proliferation were evaluated at 3, 7 and 25 days of culture. Histological sections revealed that cell colonization progressively increased inside the COL/β-TCP scaffold, and osteoblasts had a random distribution throughout the scaffold. Cells cultured into the COL/β-TCP scaffold presented osteoblast phenotype, intense staining of alkaline phosphatase and increased production of osteocalcin. Transmission electron micrographs revealed intimate contacts between osteoblasts and the scaffold. MTT test indicated that the viability of the cells cultivated in the presence of COL/β-TCP scaffold was similar to that of the control. All these results show that our COL/β-TCP composite act as a good substrate for rat osteoblast proliferation and migration and could be a promising substitute for bone repair.     

Beta-tricalcium phosphate exerts osteoconductivity through α2β1 integrin and down-stream MAPK/ERK signaling pathway

Beta-tricalcium phosphate (β-TCP) has been clinically used as a bone graft substitute for decades because of its excellent osteoconductivity. However, the exact mechanism(s) by which β-TCP exerts osteoconductivity are not fully documented. This study was aimed to investigate the molecular mechanism(s) by which β-TCP modulates the biological response of primary human osteoblasts (HOBs). It was showed that HOBs seeded into the β-TCP scaffolds expressed significantly higher levels of osteogenic genes, compared to those cultured on tissue culture plastic; meanwhile these cells showed 7-fold increase in α2 integrin subunit gene expression and the activation of the mitogen-activated protein kinase (MAPK)/extracellular related kinase (ERK) signaling pathway. In addition, the osteogenic conduction by β-TCP scaffolds was attenuated directly by inhibiting MAPK/ERK or indirectly by blocking the α2β1 integrin signaling pathway. We concluded that β-TCP scaffold exerts osteoconductivity through α2β1 integrin and down-stream MAPK/ERK signaling pathway, suggesting a feasible approach to consider when designing or fabricating the scaffolds for bone tissue engineering.     

Standardized testing of skeletal implant surfaces with an osteoblast cell culture system. IV. Specific gene expression during differentiation]

Successful osseointegration of an implant depends on the properties of the material of which it is made. A standardized cell culture system for the assessment of the biological effect of material surfaces has already been described. In the present study, this system has been extended to include the quantitative analysis of the material-dependent osteoblast gene expression. Human foetal osteoblasts (hFOB 1.19) were cultured for 3 weeks on titanium surfaces of varying roughness, and on surfaces of chromium-cobalt-molybdenum alloy (CrCoMo). Using a real time RT-PCR technique, expressions of alkaline phosphatase, collagen 1 and osteocalcin were determined as parameters of osteoblast differentiation. In comparison with CrCoMo, differentiation was accelerated on titanium. While the smooth titanium surface leads to earlier cell growth, the rough surface induces more prolonged and stronger cell proliferation. Our results confirm at the molecular level the excellent clinical biocompatibility of titanium surfaces. The real-time RT-PCR provides a new method for the quantitative assessment of material-dependent osteoblastic differentiation.     

Three-dimensional hierarchical composite scaffolds consisting of polycaprolactone, β-tricalcium phosphate, and collagen nanofibers: fabrication, physical properties, and in vitro cell activity for bone tissue regeneration

β-Tricalcium phosphate (β-TCP) and collagen have been widely used to regenerate various hard tissues, but although Bioceramics and collagen have various biological advantages with respect to cellular activity, their usage has been limited due to β-TCP's inherent brittleness and low mechanical properties, along with the low shape-ability of the three-dimensional collagen. To overcome these material deficiencies, we fabricated a new hierarchical scaffold that consisted of a melt-plotted polycaprolactone (PCL)/β-TCP composite and embedded collagen nanofibers. The fabrication process was combined with general melt-plotting methods and electrospinning. To evaluate the capability of this hierarchical scaffold to act as a biomaterial for bone tissue regeneration, physical and biological assessments were performed. Scanning electron microscope (SEM) micrographs of the fabricated scaffolds indicated that the β-TCP particles were uniformly embedded in PCL struts and that electrospun collagen nanofibers (diameter = 160 nm) were well layered between the composite struts. By accommodating the β-TCP and collagen nanofibers, the hierarchical composite scaffolds showed dramatic water-absorption ability (100% increase), increased hydrophilic properties (20%), and good mechanical properties similar to PCL/β-TCP composite. MTT assay and SEM images of cell-seeded scaffolds showed that the initial attachment of osteoblast-like cells (MG63) in the hierarchical scaffold was 2.2 times higher than that on the PCL/β-TCP composite scaffold. Additionally, the proliferation rate of the cells was about two times higher than that of the composite scaffold after 7 days of cell culture. Based on these results, we conclude that the collagen nanofibers and β-TCP particles in the scaffold provide good synergistic effects for cell activity.     

Dedifferentiated fat cells differentiate into osteoblasts in titanium fiber mesh

Mature adipocyte-derived dedifferentiated fat (DFAT) cells rapidly differentiate into osteoblasts under three-dimensional culture conditions. However, it has not been demonstrated that DFAT cells can differentiate into osteoblasts in a rigid scaffold consisting of titanium fiber mesh (TFM). We examined the proliferation and osteogenic differentiation ability of DFAT cells using TFM as a scaffold. DFAT cells derived from rabbit subcutaneous fat were seeded into TFM and cultured in osteogenic medium containing dexamethasone, l-ascorbic acid 2-phosphate and β-glycerophosphate for 14 days. In scanning electron microscopy (SEM) analysis, well-spread cells covered the titanium fibers on day 3, and appeared to increase in number from day 3 to 7. Numerous globular accretions were found and almost completely covered the fibers on day 14. Cell proliferation, as measured by DNA content in the TFM, was significantly higher on day 7 compared with that of day 1. Osteocalcin and calcium content in the TFM were significantly higher on day 14 compared to those of days 1, 3, and 7, indicating DFAT cells differentiated into osteoblasts. We theorize that globular accretions observed in SEM analysis may be calcified matrix resulting from osteocalcin secreted by osteoblasts binding calcium contained in fetal bovine serum. In this study, we demonstrated that DFAT cells differentiate into osteoblasts and deposit mineralized matrices in TFM. Therefore, the combination of DFAT cells and TFM may be an attractive option for bone tissue engineering.     

Standardized testing of bone implant surfaces with an osteoblast cell culture cyste. III. PVD hard coatings and Ti6Al4V]

The effect of titanium-based PVD coatings and a titanium alloy on the proliferation and differentiation of osteoblasts was investigated using a standardised cell culture system. Human fetal osteoblasts (hFOB 1.19) were cultured on titanium-niobium-nitride ([Ti,Nb]N), titanium-niobium-oxy-nitride coatings ([Ti,Nb]ON) and titanium-aluminium-vanadium alloy (Ti6Al4V) for 17 days. Cell culture polystyrene (PS) was used as reference. For the assessment of proliferation, the numbers and viability of the cells were determined, while alkaline phosphatase activity, collagen I and osteocalcin synthesis served as differentiation parameters. On the basis of the cell culture experiments, a cytotoxic effect of the materials can be excluded. In comparison with the other test surfaces, [Ti,Nb]N showed greater cell proliferation. The [Ti,Nb]N coating was associated with the highest level of osteocalcin production, while all other differentiation parameters were identical on all three surfaces. The test system described reveals the influence of PVD coatings on the osteoblast differentiation cycle. The higher oxygen content of the [Ti,Nb]ON surface does not appear to have any positive impact on cell proliferation. The excellent biocompatibility of the PVD coatings is confirmed by in vivo findings. The possible use of these materials in the fields of osteosynthesis and articular surfaces is still under discussion.