Advances in Large Gap Peripheral Nerve Injury Repair and Regeneration with Bridging Nerve Guidance Conduits

Peripheral nerve injury is a common complication of accidents and diseases. The traditional autologous nerve graft approach remains the gold standard for the treatment of nerve injuries. While sources of autologous nerve grafts are very limited and difficult to obtain. Nerve guidance conduits are widely used in the treatment of peripheral nerve injuries as an alternative to nerve autografts and allografts. However, the development of nerve conduits does not meet the needs of large gap peripheral nerve injury. Functional nerve conduits can provide a good microenvironment for axon elongation and myelin regeneration. Herein, the manufacturing methods and different design types of functional bridging nerve conduits for nerve conduits combined with electrical or magnetic stimulation and loaded with Schwann cells, etc., are summarized. It summarizes the literature and finds that the technical solutions of functional nerve conduits with electrical stimulation, magnetic stimulation and nerve conduits combined with Schwann cells can be used as effective strategies for bridging large gap nerve injury and provide an effective way for the study of large gap nerve injury repair. In addition, functional nerve conduits provide a new way to construct delivery systems for drugs and growth factors in vivo.     

Chemical profiling and quantification analysis of flavonoids in different varieties of Euryales Semen by ultra-high-performance liquid chromatography with tandem mass spectrometry

Euryales Semen was a traditional Chinese medicine, which has been commonly used to treat spermatorrhea, enuresis, and frequent urination. Flavonoids were a critical ingredient in determining the function and quality of Euryales Semen. At present, no effective method has been established for the qualitative of Euryales Semen flavonoids. In this study, an ultra-high-performance liquid chromatography-quadrupole-time of flight-mass spectrometry method was established for flavonoids. By comparison with standard or literature data, 32 flavonoid compounds have been identified in Euryales Semen. Based on the qualitative results, an ultra-high-performance liquid chromatography-triple quadrupole tandem mass spectroscopy method was developed for the main components, and the linearity, the limit of detection, limit of quantification, repeatability, precision, stability, and recovery of the method were verified. The principal component analysis and the hierarchical clustering heatmaps analysis showed that the 30 batches of samples were distinctly separated into the North Gordon Euryale and South Gordon Euryale, and the measured contents of the six flavonoids in North Gordon Euryale were more abundant than in South Gordon Euryale, especially isoquercitrin, hesperetin, and quercetin. It provided a scientific basis for the quality control of Euryales Semen and a theoretical basis for the rational utilization of Euryales Semen resources.     

meso-四(2-羟基-5-磺酸苯基)卟啉的合成及其酸碱平衡的研究

本文对 meso-四(2-H-5-SP)P 的提纯方法进行了改进,同时以光度法研究了该试剂在水溶液中的酸碱平衡、测得其 pKa_1、pKa_2、pKa_3、pKa_4分别为2.99,4.21,8.68,10.28。     

手性1-芳基四氢异喹啉类衍生物的合成新方法

以1,2,3,4-四氢异喹啉为原料,先依次与二碳酸二叔丁酯、亚氯酸钠反应得到N-Boc-1,2,3,4-四氢-1-异喹啉酮,再和芳基格氏试剂反应得到分子内不对称还原胺化反应的底物,最后以ax-Josiphos为手性配体,[Ir(COD)Cl]₂为金属前体,在Ti(OⁱPr)₄和40%HBr溶液组成的催化体系中合成了8个手性1-芳基四氢异喹啉类化合物,其结构经¹H NMR和¹³C NMR表征。该路线提供了一种以廉价1,2,3,4-四氢异喹啉为原料高效合成手性1-芳基四氢异喹啉类衍生物的新方法,为索利那新等药物的合成提供了新路径。      

基于新型纳米传感材料的DNA生物传感器的应用

DNA是构建纳米技术和生物传感技术新设备的良好构建体.DNA生物传感器由于具有灵敏度高、选择性好等特点,近年来获得了飞速发展.研究发现,金属纳米粒子(MNPs)、碳基纳米材料等一系列纳米材料在传感器设计中提高了电化学DNA传感器的传感性能.本文侧重介绍了场效应晶体管、石墨烯、碳纳米管等新型纳米传感材料,以及基于这些材料...     

表面接枝法制备磁性邻苯二甲酸二丁酯印迹聚合物及其识别性能研究

采用表面接枝法对四氧化三铁纳米粒子表面进行功能化修饰,以二甲基丙烯酸乙二醇酯(EGDMA)为交联剂,偶氮二异丁腈(AIBN)为引发剂,成功制备了对邻苯二甲酸二丁酯(DBP)具有特异识别性能的磁性表面印迹聚合物(MMIPs).利用扫描电镜、透射电镜、振动样品磁强计、元素分析、红外光谱等对其进行表征.BET测试结果表明,MMIPs的比表面积(380 m2/g)大于MNIPs(324 m2/g).吸附动力学、等温线模型分析显示,MMIPs对DBP的Sips等温线模型相关系数R2=0.999,动力学Pseudo-second-order 模型相关系数(R2)为0.9797.对邻苯二甲酸二烯丙酯(DAP)、DBP和邻苯二甲酸二(2-乙基己基)酯(DEHP)的印迹因子分别为1.53、2.21和1.39,对DBP具有较高的印迹因子和较好的识别性能.磁性分子印迹聚合物经5次再生后,对DBP的吸附能力仅下降了12.3％,表明再生循环效果较好.     

预嵌锂用穿孔集流体对锂离子电容器电化学性能的影响

将石墨涂覆于传统铜箔(CCC)与穿孔铜箔(PCC)集流体表面,通过内部短路的方式进行预嵌锂处理,再以商业化的活性炭及预锂化的石墨分别为正、负极材料组装成锂离子电容器(LIC)。以PCC为集流体的LIC在0.1和2.0 A?g~(-1)的电流密度下,能量密度分别为118.2和51.7 Wh?kg~(-1),并且在0.5 A?g~(-1)的电流密度下循环1000次后的能量密度保持率为90%;以CCC为集流体的LIC在0.1和2.0 A?g~(-1)的电流密度下的能量密度分别为125.5和43.3 Wh?kg~(-1),在同等电流密度下2.0-3.8 V之间循环1000次后的能量密度保持率仅为73.2%。进一步研究表明,石墨采用PCC在预嵌锂的过程中避免了金属锂沉积,生成了均一且稳定的固体电解质膜(SEI),有效防止充放电过程中SEI膨胀,活性物质与集流体间粘结力降低,活性物质脱落等现象发生。因此,LIC通过PCC完成预嵌锂后的自放电及内阻更小,具有更佳的倍率性能和循环性能。     

基于苯基修饰策略的新型可溶液加工红光铱配合物的设计、合成及电致发光性能研究

利用向环金属配体的C-Ir键的对位进行苯基取代这一结构修饰策略,成功合成了两种新型铱（III）配合物（3PhNbt）₂Ir（acac）和（3OMePhNbt）₂Ir（acac）.相较其橙光发射的母体化合物（Nbt）₂Ir（acac）,两个目标化合物的抗结晶性、非晶态热稳定性及溶解性均有显著提高,其磷光发射带也发生了5~10 nm的红移.以（3PhNbt）₂Ir（acac）和（3OMePhNbt）₂Ir（acac）为发光客体材料所制备的单层溶液加工电致红光器件,其最大发光亮度分别为1830 cd·m^-2和6630 cd·m^-2,最大电流效率分别为2.4 cd·A^-1和8.7 cd·A^-1,CIE1931色坐标分别为（0.61,0.39）和（0.62,0.38）.相比之下,以母体化合物（Nbt）₂Ir（acac）为发光客体材料所制备的参比器件,其最大发光亮度则为1620 cd·m^-2,最大电流效率仅为1.5 cd·A^-1,CIE1931色坐标为（0.59,0.41）.上述研究结果表明：向C-Ir键对位进行苯基修饰可以在提高铱（III）配合物的可溶液加工性能的同时,获得更为红移的电致发光波长,是一种简单而有效的红光铱（III）配合物的分子设计策略.     

新型异噁唑拼接3,3'-吡咯螺环双氧化吲哚类化合物的无催化剂合成

以3-异硫氰氧化吲哚与硝基异噁唑缩合的3-烯氧化吲哚,在二氯甲烷中无催化剂条件下于室温发生Michael加成环化反应,获得了8个未见文献报道的异噁唑拼接3,3′ 吡咯螺环双氧化吲哚类化合物（3a~3h）,产率91%~95%,dr值5/3~3/1,其结构经¹H NMR, ¹³C NMR和HR-MS（ESI-TOF）表征。     

流动注射化学发光测定硝苯地平的含量

建立了流动注射化学发光抑制法测定硝苯地平含量的新方法,将硝苯地平与硫酸铈铵的氧化还原反应与Ce(Ⅳ)Na2SO3氟哌酸化学反应相偶合,硝苯地平在10-6～10-4g/mL的范围内呈良好的线性关系,r=0.9992,检测下限为0.6μg/mL,相对标准偏差为3.2%(6×10-5g/mL,n=11),方法简便、快速、结果可靠.