溶液喷纺法制备聚乳酸/锂藻土复合纳米纤维膜及其性能

为改善聚左旋乳酸(PLLA)的亲水性和生物活性,采用溶液喷纺法将具有良好亲水性和生物活性的锂藻土(LAP)复合到PLLA纳米纺丝膜中。采用扫描电镜(SEM)、傅里叶红外光谱(FT-IR)、万能试验机、接触角测量仪对纤维膜的形貌、化学结构、力学性能和亲水性进行了表征,并研究了纤维膜的降解性能和细胞相容性。结果表明,适量LAP可在PLLA纳米纤维中均匀分布,所得PLLA/LAP杂化纳米纤维直径为200～300 nm。LAP的引入有助于改进PLLA的亲水性,并提高其力学性能,同时可在一定程度上调节PLLA的降解速率。体外生物学评估表明,LAP的引入能提高纳米纺丝膜的细胞增殖效应。     

Langmuir-Blodgett方法构建聚合物仿细胞外层膜结构涂层

以盖玻片为基质,采用Langmuir-Blodgett(LB)方法制备含磷酰胆碱基团的两亲性无规共聚物聚(2-甲基丙烯酰氧基乙基磷酰胆碱(MPC)-甲基丙烯酸十八烷基酯(SMA)-γ-甲基丙烯酰氧丙基三甲氧基硅(TSMA)(简称PMST)的单层、双层和三层薄膜.薄膜的表面亲疏水性和表面形貌分别用动态接触角(DCA)和原子力显微镜(AFM)进行测试.结果表明,PMST在盖玻片表面形成了致密的膜层,薄膜的致密程度随层数而增加.在水中前进/后退测试DCA过程中,聚合物薄膜在气相/水相界面存在基团的迁移取向,且膜层内会发生交联.双层膜具有仿细胞外层膜结构,单层和三层膜具有反细胞外层膜结构;双层膜的亲水性比单层和三层膜的要好.     

医用壳聚糖膜的制备和性能研究

研究了壳聚糖膜的制备方法和性能。探讨了壳聚糖浓度、甘油和戊二醛用量对壳聚糖膜性能的影响,并考察了膜的体外降解过程。结果表明w=．02的壳聚糖溶液成膜效果较好;甘油和戊二醛能王著改善壳聚糖膜的力学性能和尺寸稳定性能;溶茼酶-林格氏液中浸泡40d后膜的降解率为41．98％。满足引导组织再生材料的基本要求。该膜作为一种潜在的生物医用材料,将具有较广阔的应用前景。     

纳米纤维增强双层组织引导膜的力学性能及细胞响应

通过热致相分离结合静电纺丝技术,在纳米羟基磷灰石/聚酰胺(n HA/PA)多孔膜基底表面形成不同取向的PA纳米纤维,制备了纤维增强双层组织引导膜.研究了不同转速(0,500,1500 r/min)下,n HA/PA多孔膜表面形成的PA纳米纤维的微观结构及取向情况对力学性能的影响.将双层组织引导膜与MG63细胞共培养,研究细胞在双层组织引导膜周围的生长情况,并通过四甲基偶氮唑盐比色法(MTT)定量研究了细胞的增殖情况.结果表明,热致相分离法制备的n HA/PA多孔膜表面及内部富含多孔结构,n HA晶粒在PA基质中均匀分布.采用静电纺丝法在n HA/PA多孔膜表面构建纳米纤维,随着转速增大,n HA/PA多孔膜表面的PA纳米纤维取向性逐渐增加.引入PA纳米纤维后,双层组织引导膜的力学性能均有增强,在500 r/min转速下,双层组织引导膜中,纳米纤维层与n HA/PA基底应变同时达到最大,拉伸强度达到(39.86±4.73)MPa.细胞实验结果显示,双层组织引导膜周围的细胞生长良好,增殖明显,具有良好的细胞相容性,在牙周组织缺损再生领域有潜在应用前景.     

聚乙丙交酯电纺纳米纤维膜的等离子体改性及性能研究

采用等离子体表面处理的方法, 通过正交实验设计, 以纤维膜表面引入的氮含量为响应变量, 确定了NH3等离子体改性PLGA电纺纤维膜的最佳条件, 并在PLGA纤维膜表面成功地引入了功能性氨基基团. 研究结果表明, 改性后PLGA电纺纤维膜的力学性能有所降低, 但表面亲水性明显增强.     

聚氨酯载体的逐层自组装亲水改性研究

利用自组装技术在聚氨酯载体表面制备超支化重氮盐(HB-DAS)/聚苯乙烯磺酸钠(PSS)多层膜,通过红外和椭偏仪表征膜的组装过程,利用接触角研究改性后载体的亲水性和稳定性,并对载体改性前后的生物学性能进行评价。结果表明,HB-DAS和PSS可在聚氨酯表面形成均匀的薄膜。改性后聚氨酯表面具有良好的亲水性,接触角随组装层数的增加而降低,改性载体具有良好的耐酸碱性。改性后载体对微生物的吸附性能明显优于改性前,明显缩短生化系统的启动周期。     

二氧化硅纳米粒子薄膜的制备及光学性能

以二氧化硅胶体和聚二烯丙基二甲基氯化铵(PDDA)为原料,利用静电自组装技术制备了PDDA/SiO2复合薄膜. TEM图象显示,薄膜中的SiO2纳米粒子为密堆积,薄膜均匀、致密;电子衍射实验结果显示,所组装的薄膜为非晶态膜.载玻片表面组装SiO2纳米粒子薄膜后,透射率随薄膜双层数增加呈现周期变化.薄膜具有增透作用,载玻片双面组装薄膜后在一定波长范围内的透射率可提高5％以上. PDDA/SiO2复合薄膜的光学性质主要由SiO2纳米粒子决定,每一双层的平均物理厚度小于SiO2纳米粒子的粒径,薄膜中存在层间穿插现象,逐层组装的复合薄膜具有单层光学薄膜的特性.     

聚(对氧环己酮-三亚甲基碳酸酯)静电纺膜的制备及其生物学与降解性能研究

通过静电纺丝技术,将二元共聚物聚(对氧环己酮-三亚甲基碳酸酯)(PDT)制成了膜材料,采用扫描电镜(SEM)观察了静电纺膜的形貌,当共聚物中TMC组分含量越高时,纤维丝之间黏结越严重.采用静态接触角仪测定了静电纺膜的接触角,表征了共聚物的亲疏水性,PDT的亲水性介于PPDO与PTMC均聚物静电纺膜之间.对PDT共聚物静电纺膜进行了L929大鼠成纤维细胞培养实验,MTT和荧光染色结果说明PDT膜的细胞相容性良好.通过水解及酶解实验考察了材料的降解过程,PDT静电纺膜在脂肪酶存在下降解速率加快,材料的失重率、分子量损失、材料形貌破坏程度等均高于水解样品,这说明脂肪酶对含有TMC组分的聚合物的降解有促进作用.同时,降解过程中PBS溶液的p H值变化说明TMC组分的加入,减缓了降解过程中酸性物质的产生.     

OTS自组装单层膜诱导定向生长SrTiO3功能陶瓷薄膜

采用自组装单层膜技术,以三氯十八烷基硅烷(octadecyl-trichioro-silane,OTS)为模版,在玻璃基片上成功制备了钛酸锶晶态薄膜.改性基板的亲水性测定与金相显微镜测试表明,紫外光照射使基板由疏水转变为亲水,OTS单分子膜对薄膜的沉积具有诱导作用:X射线衍射(XRD)与扫描电镜(SEM)表征显示,制备成功的钛酸锶薄膜结晶良好,样品表面均匀,在垂直基板表面方向上呈花状生长:EDS能谱测试为钛酸锶薄膜的化学组成提供了有力的证据;同时探讨了白组装单层膜和钛酸锶薄膜的形成机理.     

不同直径改性PAN纳米纤维膜与Fe3+的配位反应及其配合物对有机染料降解的催化性能

使用静电纺丝技术和偕胺肟反应制备了三种不同直径的改性聚丙烯腈(PAN)纳米纤维膜,然后将它们作为配体分别与Fe3+进行配位反应制备改性PAN纳米纤维膜铁配合物,重点研究了三种改性PAN纳米纤维膜与Fe3+配位反应的动力学特性及其温度和Fe3+初始浓度的影响.最后将其作为非均相Fenton反应催化剂应用于染料降解反应中,考察了改性PAN纳米纤维膜直径对其催化活性的影响.结果表明,在所涉及的温度和浓度范围内,改性PAN纳米纤维膜与Fe3+之间配位反应不仅符合Langmuir和Freundlich吸附等温式,而且可理想地使用Lagergren准二级动力学方程进行描述,反应速率常数随着Fe3+初始浓度的增加而逐渐降低.在相同反应条件下,较小直径的纤维膜更容易与Fe3+发生配位反应,且反应速率常数和Fe3+配合量均随着纤维直径的降低而增大.不同直径改性PAN纳米纤维膜铁配合物在暗态条件下对染料的氧化降解反应表现出很好的催化活性,且在辐射光下其催化活性得到加强.改性PAN纳米纤维膜铁配合物的催化作用受到纤维直径的显著影响,由中等直径纳米纤维构成的配合物表现出最高的催化活性.     

L-Arginine/nanofish bone nanocomplex enhances bone regeneration via antioxidant activities and osteoimmunomodulatory properties

In this study,a promising strategy has been developed to promote bone regeneration by combining antioxidant activities and osteoimmunomodulatory properties.Herein,an L-arginine/nanofish bone(Arg/NFB) nanocomplex has been prepared and evaluated in vitro and in vivo.The Arg/NFB nanocomplex possesses good antioxidant activities and could modulate the polarization of non-activated macrophage into different types and induce the secretion of pre-inflammato ry,anti-inflammatory,osteogenic as well as angiogenic cytokines.Additionally,the regulated immune microenvironment can enhance the osteogenic differentiation of mouse embryo osteoblast precursor cells(MC3 T3-E1) and angiogenic capacity of human umbilical vein endothelial cells(HUVECs),leading to the improved formation of mineralized nodules,alkaline phosphatase activity and angiogenic effects.In vivo results with cranial defect models reveal that the treatment of Arg/NFB nanocomplex exhibited significant improvement of new bone formation and angiogenesis.All the results demonstrate Arg/NFB nanocomplex with antioxidant activities and osteoimmunomodulatory properties could be a new idea for developing the next generation of bone regeneration biomaterials.     

Effect of La on heat production by mitochondria isolated from hybrid rice

The effect of lanthanum on mitochondria isolated from hybrid rice Fengyou 559 (Oryza sativa L.) was investigated. Through in vivo culture, low-dose La³⁺ promoted, but higher dose La³⁺, restrained mitochondrial heat production. However, through in vitro incubation, La³⁺ manifested only inhibitory action on mitochondrial energy turnover, the concentration required for 50% and 100% inhibition being 50.9 and 230.2 μM (57.6 nmol/mg protein), respectively. In addition, La³⁺, like Ca²⁺, induced rice mitochondrial swelling and decreased membrane potential (Δψ), which was inhibited by the specific permeability transition inhibitor cyclosporine A (CsA). The induction approached a constant limitation while mitochondrial metabolism was completely prevented by La³⁺, and microscopy observation showed a high disruption of inner mitochondrial membrane in this state. These results demonstrated that lanthanum influenced rice mitochondria in vivo and in vitro via different action pathways, and the latter involved the opening of rice mitochondrial permeability.     

A Polysaccharide-based Hydrogel and PLGA Microspheres for Sustained P24 Peptide Delivery: An In vitro and In vivo Study Based on Osteogenic Capability

A bone morphogenetic protein-2(BMP-2) derived synthetic oligopeptide, S [PO4]KIPKASSVPTELSAISTLYLDDD(P24), has shown great potential for facilitating bone regeneration. However, P24 cannot be directly used onto bone defects, while a continuous sustained delivery of P24 may lead to a better formation of bone tissue. Based on this issue, we have developed a sustained delivery system incorporating P24-loaded poly(lactide-co-glycolide)(PLGA) microspheres and nano-hydroxyapatite(n-HA) into the composite hydrogel. The P24-contained compound material was characterized with NMR, FTIR and SEM to demonstrate the fomiation of compound structure containing P24, PLGA and n-HA. A continuous drug release of P24 was observed for over 60 d that evidently enhanced the efficiency in promoting the proliferation of MC3T3-E1 cells and the secrete of alkaline phosphatase(ALP) in vitro. Moreover, the osteoinduction eflect of the hydrogel system with P24 peptide niicrospheres was demonstrated in vivo and manifested by the result of immunohistochemistry. This novel injectable composite hydrogel is expected to be applied to improving the bone defect treatment in bone tissue engineering.     

长余辉纳米材料的控制合成及在疾病诊断中的应用

长余辉纳米材料具有独特的发光性质, 能在激发光关闭后持续发光. 通过收集激发光关闭后的长余辉发光信号可以有效消除背景信号的干扰. 此外, 长余辉材料在成像时无需原位激发, 可以减少生物体系的组织自发荧光和光散射干扰, 提高生物成像和检测的灵敏度. 由于这种独特的光学特性, 长余辉纳米材料在生物传感/生物成像以及疾病治疗等领域被广泛应用. 近年来, 为满足疾病相关生物标志物的体外检测及体内生物成像的应用要求, 控制合成发光性能优异、 生物相容性好的长余辉纳米材料成为研究热点.     

聚多巴胺包覆的金纳米棒用于大鼠下颌下腺造影成像

用生物相容性好且毒性低的聚多巴胺对金纳米棒进行表面包覆, 利用其造影增强的功能, 将聚多巴胺包覆的金纳米棒应用于大鼠下颌下腺导管, 实现了下颌下腺造影成像.     

Bacteriochlorophyll-a as photosensitizer for photodynamic treatment of transplantable murine tumors.

Bacteriochlorophyll-a (bChla), which absorbs light of 780 nm wavelength, was tested for in vivo photodynamic activity in the SMT-F and RIF transplantable mouse tumor systems. High performance liquid chromatography (HPLC) analysis of tissue extracts showed that bChla was rapidly degraded in vivo to bacteriopheophytin-a (bPheoa) and other breakdown products. These were also photodynamically active, and tumor response could be achieved over a wavelength range of 660 to 780 nm, while tumor cure was restricted to wavelengths of 755 (bPheoa) to 780 nm. A photosensitizing product absorbing at 660 nm was also present in isolated tumor cells. Photodynamic cell kill of tumor cells isolated from tumors after bChla accumulation in vivo, using 755 or 780 nm light _vitro, was exponential up to 20–40 J cm⁻². Above this light dose little or no further damage could be achieved, which is an indication of the rapid photobleaching of these sensitizers. In vivo, vascular occlusion occurred readily if light treatment was delivered shortly after sensitizer administration, but was delayed if light treatment was carried out 24 h after injection. Although up to 70% of tumor cells were lethally damaged after completion of in vivo light treatment, concurrent severe vascular destruction seemed necessary for tumor cure. Normal tissue photosensitivity totally subsided within 5 days after sensitizer administration.     

不同磺化及碱处理聚醚醚酮的表面化学组成及体外生物活性评价

提出一种酸碱结合改性聚醚醚酮（PEEK）方法,并评价其对PEEK表面类骨磷灰石形成的影响.结果表明,通过磺化处理引入-SO₃H,显著改善了样品的亲水性,且磺化程度与H₂SO₄浓度和磺化反应时间成正比,并影响样品的表面形貌.质量分数为85% H₂SO₄处理30 min的PEEK-S具有较好的改性效果.将PEEK-S进一步用NaOH处理,可继续引入Na元素并提高样品的亲水性,但会受处理时间的影响.模拟体液（SBF）浸泡的生物活性评价结果表明,磺化后碱处理24 h的PEEK-Na具有快速的类骨磷灰石沉积能力,浸泡3 d的样品表面即可完全被沉积的类骨磷灰石覆盖,表现出较佳的生物活性.此酸碱双重改性方法操作简单,可大幅度提升PEEK的生物活性,具有较好的应用前景.     

Synthesis and bioactivities of steroid derivatives as antifungal agents

A series of lanosterol and cholesterol derivatives with modified side chain structures, which might interfere with sterol C24-methyltransferase in the ergosterol biosynthesis as substrate analogs, have been synthesized. The in vitro bioassay studies have shown that some of these compounds, in particular with C24-amino- and thio-functionalities, possess potent antifungal activities, in vivo. Bioassays have also been carried out for the leading compounds.     

基于Cy7类菁染料分子探针的设计策略

菁染料是一类经典的荧光染料母核, 具有摩尔消光系数大、 吸收波长可调、 溶解性良好及生物兼容性好等优点, 被广泛用于蛋白标记、 痕量金属离子检测、 生物活性物质检测、 细胞和活体成像及肿瘤靶向治疗等领域. 近年来, 生物医学领域对活体结构及功能成像深度提出更高的需求, 基于优异的长波长染料母核开发近红外荧光分子探针逐渐成为领域的研究重点. 吲哚七甲川菁染料(Cy7)是一类最具代表性的菁染料, 本文重点综合评述了自1992年以来基于Cy7结构开发的分子探针, 并介绍了该类荧光探针的设计策略. 最后, 讨论了该领域研究面临的挑战, 并对未来的发展方向进行了总结和展望.     

Polymeric micelle systems of hydroxycamptothecin based on amphiphilic N-alkyl-N-trimethyl chitosan derivatives

This research investigated the possible utilization of amphiphilic N-octyl-N-trimethyl chitosan (OTMCS) derivatives in solublization and controlled release of 10-hydroxycamptothecin (10-HCPT), a hydrophobic anticancer drug. The release behavior of the 10-HCPT-OTMCS micelles was measured and compared to that of a commercial 10-HCPT lyophilized powder in vitro and in vivo. This research also examined the effects of chemical structure of the chitosan derivatives and the micellar preparation conditions on the encapsulation efficiency, drug loading content, and particle size of the polymeric micelles. The results showed that these chitosan derivatives were able to self-assemble and form spherical shape polymeric micelles with an average particle size range of 24–280 nm and a drug loading content of 4.1–32.5%, depending on the modified structures and loading procedures. The solubility of 10-HCPT in aqueous fluid was increased about 80,000-fold from 2 ng/ml in water to 1.9 mg/ml in OTMCS micellar (degree of octyl and trimethyl substitution is 8% and 54%, respectively) solution. In addition, OTMCS was able to modulate the in vitro release of 10-HCPT and improve its pharmacokinetic properties and lactone ring stability in vivo. These data suggested the possible utilization of the amphiphilic micellar chitosan derivatives as carriers for hydrophobic drugs for improving their delivery and release properties.