多尺度羟基磷灰石/壳聚糖微管结构人工骨对兔骨缺损修复及成血管的影响

背景:前期研究证实多尺度羟基磷灰石/壳聚糖微管成骨优良,而血管再生在成骨过程中较为关键,探索多尺度微管结构在其成血管中的作用及相关机制意义重大。目的:探索多尺度羟基磷灰石/壳聚糖微管结构对兔骨缺损修复及成血管的影响。方法:构建多尺度羟基磷灰石/壳聚糖微管结构与羟基磷灰石/壳聚糖单体结构,将两种材料分别与骨髓间充质干细胞共培养,21 d后电镜下观察材料对细胞的吸附能力及细胞状态。在48只成年新西兰大白兔桡骨部位制作骨缺损模型,实验组(n=24)植入多尺度羟基磷灰石/壳聚糖微管结构材料,对照组(n=24)植入羟基磷灰石/壳聚糖单体结构材料,术后4,8,12周分别进行放射性核素骨显像、X射线片检查、组织形态学、CD31免疫组化染色及血管内皮生长因子蛋白检测。动物实验得到江西省人民医院伦理委员会批准。结果与结论:(1)电镜下可见,多尺度羟基磷灰石/壳聚糖微管结构材料孔隙相通,具有良好的空间结构,其表面吸附的骨髓间充质干细胞多于羟基磷灰石/壳聚糖单体结构材料。(2)放射性核素骨显像显示,实验组术后各时间点的血池成像均高于对照组(P<0.05)。(3)X射线片显示,实验组各时间点的骨痂形成多于对照组。(4)苏木精-伊红染色显示,实验组术后12周时骨缺损植骨区域内可见大量的新生血管及成骨,对照组术后12周时仅见骨折断端少许再生血管及成骨细胞附着;CD31免疫组化染色显示,实验组各时间点的微血管密度高于对照组(P<0.05)。(5)Western Blot检测显示,实验组各时间点的血管内皮生长因子蛋白表达均高于对照组(P<0.05)。(6)结果表明,多尺度羟基磷灰石/壳聚糖微管结构材料较其单体结构具有更加良好的成骨与成血管能力。

异源四倍体鲫鲤成熟性腺和红细胞超微结构观察

用透射电子显微镜观察了繁殖季节异源四倍体鲫鲤成熟精巢、卵巢和血液中红细胞超微结构。成熟精巢由许多小叶组成,小叶内可观察到精原细胞、精子细胞和大量成熟二倍体精子精原细胞的细胞质内可见核糖体、内质网、线粒体和电子致密物质;支持细胞的细胞质中可见内质网和明显的可能与激素合作有关的颗粒状物质。二倍体精子由头部和尾部组成,头部内充满致密染色质,尾部中央轴丝具有典型“9+2”微管结构。成熟卵巢中Ⅳ和Ⅴ时相卵母细胞外包围着两层滤胞细胞;内层滤胞细胞伸出微绒毛深入透明带和卵黄膜内,并一直延伸到卵细胞的细胞质内,推断微绒毛具有物质和信息交流的功能。Ⅳ时相和Ⅴ时相卵母细胞内的卵黄具有两种形式,一种其外有囊泡包围,另一种外面没有。红细胞中32.43％的细胞核具有独特的哑铃状结构,超微结构显示这种哑铃状结构为细胞核的弯曲变形现象;少数红细胞核有一分为二的分裂现象,红细胞核的这些特征可作为区别四倍体鱼和二倍体鱼的重要标志。在亚显微水平证明四倍体鲫鲤具有正常的成熟精巢和卵巢,它们能够产生正常的二倍体精子和卵子,保证四倍体性能代代相传。

人工催熟日本鳗鲡精子的显微和超微结构

对经人工催产获得的日本鳗鲡（Anguilla japonica）精子的显微和超微结构进行了观察。光镜下观察，日本鳗鲡精子有两种形态结构，一种精子的细胞核为圆形或近似圆形，这精子较小，细胞核长径为（2．57±0．62）μm，短径为（2．11±0．59）μm，鞭毛长度为（38．35±7．71）μm；另外一种精子的细胞核为“眉形”或“新月形”，精子较大，细胞核长径为（7．66±1．09）μm，短径为（2．54±0．46）μm，鞭毛长度为（38．35±9．02）μm。透射电镜观察结果显示：圆形精子头部的顶端无顶体，植入窝位于细胞核底端的中间，由细胞核向内凹陷而成，呈一沟状，其走向与精子的长轴平行。中心粒复合体位于植入窝内。细胞核的下端有2～3个线粒体。基体的头端呈简状，由电子致密物构成。基体的尾端分裂成9束。尾部从袖套腔中伸出且细长，轴丝始端与基体的尾端相连，微管多呈电子致密状，轴丝为典型的“9＋2”结构。圆形精子为日本鳗鲡正常成熟的精子。“眉形”或“新月形”精子头部细胞核弯曲，在弯曲处有一圆形的球状物，球状物内含有线粒体和中心粒复合体，轴丝为“9＋0”结构。这种精子可能存在发育缺陷或没有达到完全正常成熟。

史氏鲟精子超微结构

利用扫描和透射电镜观察了史氏鲟精子形态和超微结构。精子具有顶体、头部、中段和单鞭毛等部分。顶体长0.99±0.06μm,宽0.87±0.09μm。细胞核从后往前逐渐变细,前端宽度为0.88±0.04μm,后端宽度为1.26±0.06μm,细胞核长7.29±0.32μm。核内含有3条核管（E）,核管上行至顶体下行至植入窝而止。中段紧接头后部,长为0.51±0.12μm,宽0.91±0.05μm。中段含有线粒体、中心粒复合体和鞭毛的起始部分。线粒体分2~3层排列,线粒体中可见髓样嵴结构。在细胞核与中段接合部细胞核向内凹陷形成植入窝,纤维体位于植入窝内,其后是中心粒复合体。中段后缘延长为袖套,袖套腔中含有线粒体、脂质空泡。鞭毛从袖套中伸出,由轴丝组成,为典型的“9＋2”微管结构。

采用立体编织工艺构造人工骨仿生微结构

为了实现人工骨植入体内的有效活化,应用立体编织法制作人工骨的微管结构.以CAD设计人工骨的微结构,用三维立体编织技术将可吸收手术缝合线编织成人工骨微结构支架的负型,为控制人工骨的微管尺寸,在缝线上涂敷Ⅰ型胶原蛋白,在编织物内充填自固化磷酸钙骨水泥(CPC),固化后形成含有微孔结构的人工骨.实验表明,缝线的降解速度高于CPC的降解速度,能够早期在人工骨内部形成相互导通的微管道结构,这不仅有利于骨生长,还可以促进人工骨的活化,同时还具有一定的力学强度,可望用于骨缺损的修复.

低温对沙土鼠脑缺血后微管运动蛋白和结构蛋白活性的影响

目的 :研究低温对脑缺血后沙土鼠微管运动蛋白 (Kinesin)和微管结构蛋白 (microtubuleassociatedprotein 2 ,MAP2 )活性的影响 ,并探讨二者活性变化与延迟性神经元死亡 (delayedneuronaldeath ,DND)的关系。方法 :Kinesin和MAP2的活性应用免疫组织化学染色结合计算机图象分析的方法测定 ,DND应用病理检查方法判断。结果 :低温明显减少脑缺血后的DND。前脑缺血再灌注后MAP2和kinesin活性随再灌注时间延长而进行性下降 ,且kinesin活性下降程度大于MAP2。低温明显减少脑缺血后MAP2和kinesin活性的下降程度。Kinesin活性下降的严重程度与脑缺血后DND的严重程度相一致。结论 :低温可明显减少脑缺血后的DND ,其机制与其减少脑缺血后运动蛋白ki

微管结构燃料电池的功率密度提高了10倍

美国物理科学公司正在为美国宇航局约翰逊空间中心开发一种微管结构燃料电池，其功率密度可达普通板框式燃料电池的10倍。微管结构的主要优点是功率密度可达1w／g，而普通燃料电池则仅为0.1w／g。

鸡传染性喉气管炎病毒的电子显微镜观察

本文描述了用电子显微镜观察感染了ILT病毒的鸡胚肾组织培养细胞核内的未成熟病毒粒子和胞浆中带囊膜的成熟病毒粒子的形态特征.文中还着重描述了在感染细胞的核内见到的一种与末成熟病毒粒子密切相关的微管结构.从这种结构的形态上看,它似乎与病毒粒子的生成有某种内在的关系.

改性脂类分子自组装微管模板的制备及金属化

利用联乙炔基甘油磷脂酰乙二醇分子自组装制备了脂类微管,并以该脂类微管为模板,在其表面化学沉积制备了镀镍金属微管。SEM和TEM观察表明,自组装微管的生成率很高,脂类微管呈弯曲螺旋结构,具有很高的长径比,平均长度为380μm,平均直径为110 nm;金属微管表面相对致密,平均长度为120μm,平均直径为210 nm。XRD分析结果表明,镍镀层为非晶态结构。金属微管可用作载体包埋海洋防污剂或药物,控制它们的释放,可望用于新型功能材料的开发。

纹缟虾虎鱼精子的主要生物学特性

选取健康成熟的纹缟虾虎鱼(Tridentiger trigonocephalus)进行人工采精,设定不同的盐度和温度梯度,观察其对精子活力及寿命的影响。测定了精子的大小、密度,并观察了精子的超微结构。结果表明,随着盐度和温度的上升,精子的活力和寿命都先增加后降低,在盐度5和温度19℃时,精子的活力和寿命分别达到最高。测得精子密度为(1.73×109±0.08×109)/mL,细胞核长径为(0.98±0.12)μm,短径为(0.81±0.08)μm,鞭毛的长度为(7.28±1.06)μm。电镜结果表明:纹缟虾虎鱼精子由头部和尾部(鞭毛)二部分组成,头部的细胞核近圆形,内有核空泡。精子细胞质膜与核膜间有较大间隙,两者之间分布有细胞质和线粒体。中心粒复合体位于植入窝中,由近端中心粒和基体两部分组成。袖套位于核后端,呈一筒状,两侧不对称,袖套腔较为狭窄,两侧分布有线粒体和少量囊泡。鞭毛的核心结构是轴丝,轴丝为典型的"9+2"结构,从轴丝的横切面观察到轴丝外面的质膜呈不规则分布。

致密层骨软骨复合支架的制备及其修复关节骨软骨缺损

背景:理想的骨软骨组织工程支架应巧妙地模拟人体正常关节骨软骨结构。目的:基于关节骨软骨的解剖结构、生理功能,制备致密层骨软骨复合支架,同时观察其修复兔关节骨软骨缺损的效果。方法:利用快速成型技术在三维立体包芯结构骨架表面喷涂乳酸-羟基乙酸共聚物/β-磷酸三钙有机溶液,形成0.5 mm的致密层;利用"溶解-粘连"工艺能将定向微管结构软骨支架与致密层相互连接,形成致密层骨软骨复合支架。取60只家兔,制备左膝关节软骨全层缺损,随机分3组,实验组植入致密层骨软骨复合支架,对照组植入定向微管结构软骨支架,空白对照组不植入任何材料,修复后12,24周进行缺损部位大体与组织学观察。结果与结论:1大体观察结果:对照组修复后12周存在明显缺损部位,未见明显修复痕迹;24周缺损面积减少,可见新生组织覆盖,但表面粗糙。实验组修复12周后缺损部位表面平整,质地较软,与周围组织边界不清;修复后24周,被透明软骨样组织覆盖,表面平整。空白对照组修复效果较差;2组织学观察结果:修复后12周,对照组缺损部位出现形态不规则的骨痂,但未形成骨小梁;实验组出现新生骨,软骨厚度与正常软骨接近,并且软骨下存在不规则骨小梁。修复后24周,对照组出现新生软骨,但厚度不均,高低不平,骨小梁结构不规则;实验组组织与正常组织无明显差异,软骨表面光滑;空白对照组修复效果较差;3结果表明:致密层骨软骨复合支架接近人体正常关节骨软骨结构,可促进关节软骨缺损的修复。

黄鳍鲷精子主要生物学特性的研究

选取健康的雄性黄鳍鲷Sparus latus亲鱼进行人工采精,设定不同的盐度梯度、pH梯度,观察其对精子活力的影响,测定了精子的密度、大小和精浆的渗透压,同时用透射电镜观察精子的超微结构。结果表明,在盐度20时,精子的激烈运动时间、快速运动时间和寿命最长,分别为70、90±1.3s和861±8.6s;在pH为8.0时,激烈运动、快速运动时间和寿命也最长,分别为90±3.7s、115±9.9s和500±11.6s。测得精子的平均密度为(8.0±0.6)×109个.ml-1,精子细胞核的长径为2.75±0.93μm,短径为2.25±0.68μm,鞭毛长为41.52±6.76μm,精浆的平均渗透压为342.6±12.35mmol.kg-1。超微结构显示,精子头部呈圆形或卵圆形,头部无顶体结构,植入窝位于细胞核底端的中间,中心粒复合体位于植入窝内,其中近端中心粒位于植入窝的上段,基体位于植入窝的下段。袖套位于核后端,两侧分布有线粒体和囊泡。尾部细长,其主要结构是轴丝,轴丝为典型的"9+2"微管结构。

物理气相传输法生长碳化硅单晶原生表面形貌研究

晶体的生长原生面在一定程度上能反应出晶体生长机制和晶体缺陷分布的丰富信息。采用激光共聚焦显微镜偏光拼接技术和原子力显微镜对物理气相传输法生长的4H、6H-SiC单晶原生小面的表面形貌进行了观察和测试。偏光显微镜和原子力显微镜测试结果显示4H-SiC原生小面扩展后,其周边趋向于形成六边形的生长台阶;而6H-SiC原生小面扩展后,其周边趋向于形成圆形的生长台阶。基于Jackson双层界面模型,从热力学角度计算了4H、6H-SiC单晶的Jackson因子α分别为33.15和31.87,故导致4H、6H-SiC单晶原生小面台阶形貌差异的是生长界面的粗糙程度和生长温度。原生面上的微管缺陷是生长台阶的起源,借助原子力显微镜对多个微管进行了测试。由测试结果可知,微管直径分布在760 nm–6.0 um之间,相应的伯格斯矢量绝对值分布在5c^14c,微管直径与伯格斯矢量平方值的商D/B2分布在11.1~23.6 nm^(–1)之间,即通过原子力显微镜测试获得的微管结构数据不严格遵守Frank理论。

刀额新对虾脑部胶质细胞和神经鞘

本文用透射电镜观察了刀额新对虾（Ｍｅｔａｐｅｎａｅｕｓ ｅｎｓｉｓ）脑部神经胶质细胞和神经纤维髓鞘；结果表明。这些胶质细胞呈圆形或椭圆形，直径约６４００ｎｍ。在胞质中，没有观察到有线粒体，高尔基体等细胞结构，细胞核大电子致密的异染色质位于核边缘且连成块状，髓鞘直径约６４００—９３００ｎｍ。鞘层厚约５００—６７０ｎｍ。在髓鞘层中存在着微管结构，微管直径约８３ｎｍ。

Ultrastructural Studies on the Sieve Elements in Root Protophleom of Arabidopsis thaliana

The ultrastructures of the root protophleom sieve element at different developmental stages of Arabidopsis thaliana L. were investigated using the technique of high pressure freezing and freeze substitution fixing specimen. The results show that in the development of the sieve elements, the nuclei undergo typical characteristics of the programmed cell death (PCD): the nuclear envelopes form emboli, the chromatin condenses and aggregates towards the nuclear envelope, which degrades and fully disappears later. Before the nucleus degradation, neither the nuclear envelope undulation, nucleus lobe nor marked dilation (or bleb) of perinuclear space could be observed. In the cytoplasm of the mature sieve element, there are starch-like granules separately sheathed with a layer of membrane and usually with mitochondria around. These gnanules seem to provide substrates to mitochondria in their function. Small vacuoles originate from endoplasmic reticulum (ER), and no bigger vacuole was found.

Seasonal Changes in the Ultrastructure of the Vascular Cambium in Shoots of Populus tomentosa

Wood is the product of cambial activity in trees, and the seasonal activity style of cambium directly influences wood biomass production, structures and properties. The seasonal changes in the ultrastructure of the vascular cambium activity of Populus tonientosa Carr. planted in Beijing area were examined in shoot tissues collected during 15 months by means of transmission electron microscopy. Before xylem mother cells reactivated completely, the dividing fusiform cells in cambium and new phloem cells had appeared at the same time. The initiation of cambial activity may be related to the bud sprouting and the young leaf growth in shoots. More details about the ultrastructural changes of cambial cells at the onset of cambial activity have been gained. When the large vacuole in active cambial cells divided into smaller ones during the dormant phase, proteinaceous material that disappeared in active cambial cells refilled many of these small vactioles. In addition, lipid droplets and starch granules had the same cycles as proteinaceous material. The plasmalemma invaginations of fusiform cells were observed not only in active phase but also in dormancy. The endomembrane system consisting of nuclear membrane, endoplasmic reticulum (ER), dictyosomes and their secretory vesicles, changed in form and distribution at different phases during a cycle and performed important roles at the onset of active cambium and during the wall formation process of secondary xylem cells. The tangential walls remained relatively thin throughout the year but the radial walls thickened markedly when the cambium was dormant. During the transition from dormancy to activity, a partial autolysis occurred in the radial walls of the cambial cells, especially at the cell wall junctions. A notable feature of the cells at the onset of cambial activity was the thinning of the radial walls.

Ultrastructural Observation of Changes of Polysaccharide Grains in Dormant Shoots of Eucommia ulmoides

Cytochemical and ultrastructural studies indicated that compound spherical bodies observed near the sieve plate in the sieve tube members during the period of cambial dormancy in the shoots of Eucommia ulmoides Oliv. were polysaccharide bodies different from the polysaccharide grains in other parenchyma cells in shoots, and were similar to cell walls in their staining properties. The compound spherical bodies occurred in the sieve elements during the period of cambial rest and disappeared in the sieve elements during the period of cambial quiescence and activity.

Capillary force of a novel skew-grooved wick structure for micro heat pipes

In order to improve the capillary force of grooved wick, a novel skew-grooved wick structure was proposed for micro heat pipes. Risen meniscus experiments were carried out to research the capillary force of the skew-grooved and rectangle-grooved wick and a comparison of capillarity between the two wick structures was explored. A theoretical capillary force model of skew-grooved wick structure was also developed to calculate its effective capillary radius by comparing with the rectangle-grooved wick. From the experimental results, the maximum capillary force of the skewed-grooved wick is 8.62% larger than that of the rectangle-grooved wick. From the theoretical analysis, because the skewed-grooved wick has a smaller effective capillary radius, its maximum capillary force is 8.64% larger than that of the rectangle-grooved wick. The results indicate that the skew-grooved wick provides larger capillary force than the rectangle-grooved wick.

Mechanism and Microstructure of Electroless Ni-Fe-P Plating on CNTs

Electroless Ni-Fe-P alloy plating on the surface of CNTs was carded out with a bath using citrate salt and lactic acid as complex agents. We proposed a chemical reaction mechanism. The morphology, structure and chemical composition of the Ni-Fe-P/CNTs were studied with the aid of a scanning electronic microscope （SEM）, X-ray diffraction （XRD） and an energy-dispersive X-ray spectral analysis （EDS）. The results show that through a correct pre-treatment and electroless plating, Ni-Fe-P/CNTs composite particles can be obtained. The optimum electroless plating parameters of 35-42℃ and pH of 8.5-9.7 were achieved. The as-plated Ni-Fe-P alloy is amorphous. After a heat treatment at 500℃ for 90 min in H2, the coating is transformed into crystalloid Ni3E Fe2NiP and （Fe,Ni）3R The Ni-Fe-P alloy coating on the surface of CNTs is smooth and unique. The amount of Ni on the surface （mass fraction） of the Ni-Fe-P/CNTs composite particles is 29.13%, that of Fe 3.19% and that of P 2.28%.