磁共振髓鞘探针Gd-DTDAS在多发性硬化大鼠髓鞘损伤模型中的实验研究

目的探讨MRI对比剂Gd-DTDAS在多发性硬化(multiple sclerosis,MS)大鼠髓鞘损伤模型中的应用价值。材料与方法细胞实验中,将少突胶质细胞前体细胞(oligodendrocyte precursor cells,OLN-93)随机分为对照组2(n=3)和溶血磷脂酰胆碱(lysophosphatidylcholine,LPC)组(n=3),LPC组细胞置于无菌共聚焦培养皿中与1 mL 800μM LPC溶液共孵育30 min。通过噻唑蓝比色法(methyl thiazolyl tetrazolium,MTT)评价细胞毒性,计算OLN-93与Gd-DTDAS共孵育24 h后的吸光度和存活率;细胞摄取实验中,对照组2和LPC组对比,定量两组细胞对Gd-DTDAS的摄取值以及相应荧光强度的变化。动物实验中,将6~8周龄SD大鼠随机分为对照组(n=12)与实验组(n=18),实验组大鼠左侧胼胝体注射1%LPC溶液(1%LPC溶于PBS)。造模后(1、3、7 d)进行行为学观察,并在注射后7天进行T1WI及T2WI序列扫描。根据MRI异常信号部位进行大鼠脑组织Gd-DTDAS染色(n=6)以及浸泡(n=6),评估Gd-DTDAS与髓鞘部位的结合情况,其中,染色实验分组命名为对照组3与实验组3,浸泡实验分组命名为对照组4与实验组4;通过尾静脉注射Gd-DTDAS,MR评估实验组(n=6)注射Gd-DTDAS前后大脑髓鞘变化。结果细胞毒性实验中,当Gd-DTDAS浓度增加到400μM时,OLN-93细胞的存活率约为95%,细胞存活率差异无统计学意义(t=4.20,P>0.05)。细胞摄取实验中,两组细胞均能摄取Gd-DTDAS,LPC组摄取量显著低于对照组2,差异具有统计学意义(t=31.75,P<0.01)。动物体外实验中,与对照组3比较,Gd-DTDAS染色的实验组3脑组织切片荧光强度显著下降,差异有统计学意义(U=9,P<0.01);Gd-DTDAS浸泡中,对照组4(n=6)与实验组4(n=6)脑组织切片浸泡后MRI分辨率显著升高,差异有统计学意义(对照组4,t=8.76,P<0.01)(实验组4,t=2.89,P<0.01)。体内实验中,与尾静脉注射前比较,注射后胼胝体区域MRI T1maps弛豫性显著降低(t=14.46,P<0.01)。结论髓鞘探针Gd-DTDAS能够更好地结合髓磷脂丰富的区域,髓鞘靶向MRI显像更佳,能特异性显示多发性硬化髓鞘损伤部位。

石油地质气相色谱及气相色谱-质谱实验室比对结果评价

为了解全国石油地质行业气相色谱及气相色谱-质谱实验室间的检测能力,提高检测水平,促进行业间交流,由石油地质勘探专业标准化委员会牵头,组织全国石油地质相关实验室开展了比对工作。气相色谱及气相色谱—质谱分析测试比对共有全国23家实验室参与,选取全油、饱和烃和芳烃3类样品,根据相关标准规定了统一的实验方法,利用四分位数稳健统计方法评价了各实验室数据质量。结果表明,各实验室数据稳定、可信,分析结果的重复性和再现性良好。气相色谱全油轻烃比对参数合格率为95%,饱和烃和芳烃参数合格率均为97%;气相色谱—质谱比对饱和烃参数合格率100%,芳烃参数合格率为95%,总体满意率较高。部分实验室相关参数出现问题数据及离群值主要原因与样品储存条件、保存时间、仪器型号、测试方法以及人员操作误差等相关,建议各实验室加强质量管控措施,进一步提升实验室气相色谱及气相色谱—质谱检测能力水平。

地中海贫血与线粒体DNA突变关系的研究进展

地中海贫血是一种常染色体隐形遗传病,线粒体DNA突变可能参与其中。多数临床研究显示地中海贫血可出现贫血,甚至死亡,严重程度与基因的缺失水平有关。积极进行输血及药物治疗是目前治疗地中海贫血的策略。本文就近年来线粒体DNA突变参与地中海贫血的发病机制进行综述,期望可为以后的地中海贫血研究提供新思路。

谷氨酸化学交换饱和转移成像对放射性脑损伤大鼠的应用价值

目的探讨7.0 T磁共振谷氨酸化学交换饱和转移(glutamate chemical exchange saturation transfer,GluCEST)成像评估放射性脑损伤大鼠模型海马谷氨酸变化的应用价值。材料与方法将实验大鼠随机分为两组:对照组(n=9)和放射性脑损伤(radiation-induced brain injury,RBI)组(n=9)。RBI组大鼠使用X射线辐照仪进行辐照,4周后进行水迷宫实验。使用7.0 T小动物磁共振采集化学交换饱和转移(chemical exchange saturation transfer,CEST)序列和高效液相色谱仪(high-performance liquid chromatography,HPLC)测量海马谷氨酸浓度。两组海马GluCEST值以及谷氨酸浓度差异进行t检验。GluCEST值与HPLC的关系、GluCEST值与水迷宫的关系进行Pearson相关性分析。结果与对照组相比,4周后RBI组大鼠认知功能受损,海马GluCEST降低(P=0.008),同样HPLC分析也证实了谷氨酸水平降低(P=0.003)。相关性分析表明HPLC测量谷氨酸浓度和GluCEST之间为正相关(r=0.71,P<0.001),空间记忆与海马GluCEST也显示出一致的正相关(r=0.50,P=0.034)。结论GluCEST成像能够可视化评估RBI大鼠海马谷氨酸变化,可用作体内代谢变化的影像生物标志物,有利于监测和干预放射治疗后伴随出现的辐射损伤。

PET/CT对NSCLC异质性显像表征的研究进展

肺癌发病率及死亡率居我国恶性肿瘤首位,非小细胞肺癌(non-small cell lung cancer,NSCLC)占肺癌的绝大多数,肿瘤内异质性(intratumor heterogeneity,ITH)较其他肿瘤更高,了解ITH有利于推进NSCLC的个体化精准医疗。相较于组织病理活检,PET/CT的成熟应用为ITH的全面无创表征提供可能。本文主要就PET/CT对NSCLC中的特定基因表达、肿瘤内部免疫微环境、癌细胞空间排布、肿瘤细胞的增殖程度以及转移潜能的研究进展进行系统综述,以期为NSCLC的临床诊断及治疗提供依据。

石油样品中金刚烷类化合物的定量分析新方法

在用全二维气相色谱—飞行时间质谱定性石油样品中的金刚烷系列化合物基础上,建立了一套包括前处理方法在内的用全二维气相色谱—氢火焰离子化检测器定量分析石油样品中金刚烷类化合物的新方法。该方法利用全二维气相色谱正交分离的特点,使得常规的金刚烷系列化合物在色谱条件下就能很好地分离,实现了该类化合物的色谱定量分析。为减少前处理过程中低碳数金刚烷类化合物的挥发损失,新方法中对现有的石油样品饱和烃馏分的分离方法进行改进,建立了用小柱法分离收集饱和烃前馏分的方法,具有所需样品量少、分析时间短、实验耗材少的特点,金刚烷回收率满足色谱定量分析的需要。与传统的色谱—质谱定量方法相比,全二维色谱定量方法分离度高,重复性好,对内标物质要求低,7次实验的相对标准偏差小于5%,满足复杂体系的分析要求。

利用不同质谱技术分析鉴定金刚烷类化合物

金刚烷类化合物因在油气勘探领域具有重要的应用价值受到研究人员的广泛关注。由于具有复杂的分子结构和数量众多的同分异构体,目前对于某些金刚烷类化合物的定性结果还存在争议。通过气相色谱—质谱联用法、气相色谱—三重四极杆质谱联用法和全二维气相色谱—飞行时间质谱联用法,开展了烷基取代单金刚烷衍生物的定性研究,对3-甲基-1-乙基单金刚烷和3,5,7-三甲基-1-乙基单金刚烷在不同类型质谱色谱图中的出峰位置进行了确认。此外,利用MASS FRONTIER软件推断了3,5,7-三甲基-1-乙基单金刚烷在电子轰击离子源作用下的碎裂机理以及产生的特征离子。

MRI信号强度比联合扩散张量成像定量分析缺血性脑卒中大鼠髓鞘早期结构改变的研究

目的探讨7.0 T MRI的信号强度比(signal intensity ratio,SIR)联合扩散张量成像(diffusion tensor imaging,DTI)对缺血性脑卒中大鼠的白质髓鞘损伤的诊断价值。材料与方法SD大鼠18只随机分成A、B、C三组,每组6只,A组进行大脑中动脉闭塞(middle cerebral artery occlusion,MCAO)假手术,暴露颈部血管而不结扎;B组为MCAO术后24 h组;C组为MCAO术后72 h组。相同条件下进行T1WI、T2WI、DTI扫描,后处理得到SIR、各向异性分数(fractional anisotropy,FA)、表观扩散系数(apparent diffusion coefficient,ADC)、垂直扩散张量(radial diffusivity,D_(⊥))图像,勾画胼胝体和外囊区域进行计算SIR值、FA值、ADC值和D_(⊥)值,并进行三组间单因素方差分析。扫描结束后取材进行劳克坚牢蓝(luxol fast blue,LFB)-焦油紫病理染色,测量平均灰度值(mean grayscale value,MGSV)后进行3组间单因素方差分析。将差异具有统计学意义的影像学数据和病理学平均灰度值进行两两相关性分析。结果与A组相比,B组外囊区域的SIR值(P=0.044)、FA值(P=0.001)、ADC值(P=0.001)、D_(⊥)值(P=0.001)降低;C组外囊区域SIR值(P<0.001)、FA值(P=0.002)降低;胼胝体区域SIR值(P=0.031)、FA值(P=0.015)降低。LFB-焦油紫病理染色在脑卒中受损区域髓鞘着色较差,MGSV降低(P<0.05)。在外囊区域,MGSV与SIR值(P<0.0001)、FA值(P≤0.0001)、ADC值(P=0.0127)、D_(⊥)值(P=0.0180)呈负相关。在胼胝体区域,MGSV与SIR值(P=0.0018)呈负相关。结论SIR和DTI的联合使用作为一种评估缺血性脑卒中多阶段髓鞘损伤的无创影像学方法,在大鼠实验中得到有效验证,为临床诊治提供影像学思路。

动态^(18)F-FDG PET/CT显像在恶性肿瘤中的研究进展

^(18)F-FDG PET/CT已广泛应用于恶性肿瘤的诊断、分期、疗效监测及预后评价。最大标准化摄取值是最常用的半定量评估指标,但它只是单点估计,忽略了^(18)F-FDG摄取分布的变化,且易受多种因素影响。动态^(18)F-FDG PET/CT检查是一个连续采集过程,可以利用动力学模型定量分析肿瘤组织对FDG的净摄取率,与传统的SUV相比,动态扫描可以对肿瘤微小代谢变化做出早期评估,更直接、有效地反映示踪剂的摄取。但因其扫描时间长、参数分析复杂等因素限制了临床应用,目前,随着多种简化扫描协议的开发,动态^(18)F-FDG扫描已在多种恶性肿瘤中取得了初步研究成果。本文主要从动态^(18)F-FDG PET/CT显像局限性及简化方案及动态^(18)F-FDG PET/CT显像在肺癌、乳腺癌、胰腺癌、淋巴瘤、骨髓瘤、胶质母细胞瘤、软组织肉瘤恶性肿瘤中的应用中进行综述。

^(18)F-FDG PET/CT协助诊断胃癌成骨性骨转移3例并文献复习

目的:探讨胃癌成骨性骨转移的临床及预后、^(18)F-FDG PET/CT检查价值。方法:回顾分析3例胃癌成骨性骨转移患者的临床特征及^(18)F-FDG PET/CT影像表现,并检索国内外数据库,对同类病例的临床资料进行汇总分析。结果:胃癌成骨性骨转移常伴有ALP、CA19-9、CEA水平升高及低钙血症,预后差,椎体为最常见转移部位(100%),在PET/CT上可表现为FDG高代谢结节或弥漫性骨质硬化伴稍高FDG代谢。结论:胃癌成骨性骨转移少见,首发症状不明显易造成误诊或漏诊,^(18)F-FDG PET/CT有助于明确原发病灶及提高成骨性骨转移的诊断检出率。

髓鞘探针在脱髓鞘疾病的应用进展

治疗脱髓鞘疾病的重点是保护髓鞘的完整性和促进髓鞘修复,这离不开有效的成像工具及其显像剂将疾病进展与髓鞘形成的程度联系起来。近年来,髓鞘特异性探针的开发使得活体内直接定量监测髓鞘含量成为可能,各种髓鞘的成像技术日益成熟极大地提高了监测髓鞘的特异性和敏感性。运用不同髓鞘探针和影像手段的优势互补能为以后临床脱髓鞘疾病的检测和治疗提供更多的选择手段。笔者对应用于光学成像、核医学成像、磁共振成像和多模态成像等影像学技术的髓鞘探针在脱髓鞘疾病的研究进展进行综述。

本院PIVAS电话咨询问题分析及改进措施

目的提高本院静脉用药调配中心(PIVAS)工作效率,提升药学服务质量。方法分析本院PIVAS 2019年12月与临床科室沟通的电话咨询内容及原因,实施相应的改进措施,并与2020年5月(改进后)的结果进行对比。结果本院PIVAS电话咨询数量由改进前的2865条/月下降为1641条/月,下降率为42.72%。结论本研究改进措施可行,可有效提高本院PIVAS药师的工作效率。

兆瓦级锂冷空间核反应堆电源方案设计与研发进展

空间核反应堆电源因具有能量密度大、输出功率高、持续时间长、环境适应性强等优势,是未来大功率长寿期航天任务及深空探测任务能源供应的优选路线.本文在分析兆瓦级空间堆电源研发需求与选型特点的基础上,提出并设计了一套兆瓦级小型锂冷空间堆电源技术方案,该方案采用锂冷反应堆与布雷顿发电系统耦合,具有轻量化、长寿命等特点.本文针对该方案梳理了所涉及的关键技术,介绍了在技术分析论证、相关验证样机和实验平台研制的进展情况,并在此基础上提出我国未来发展大功率空间堆电源的建议.

Comparison of geochemical parameters derived from comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry and conventional gas chromatography-mass spectrometry

The saturated and aromatic hydrocarbon fractions of crude oil samples have been analyzed by using comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry (GC×GC-TOFMS) and conventional gas chromatography-mass spectrometry (GC-MS). In order to investigate the consistency and discrepancy of the obtained data from the two instruments, some petroleum geochemical parameters have been compared. A comparison of 23 geochemical parameters indicates that 10 parameters are comparable from the two instruments with less than 5% deviations. Therefore, GC×GC-TOFMS is equivalent to conventional GC-MS in some geochemical parameter acquisitions. However, the other 13 parameters are discrepant, including gammacerane / αβ-hopane, Ts/Tm, 2-ethyl-naphthalene / 1-ethyl-naphthalene (ENR), (2, 6-dimethyl-naphthalene +2,7-dimethyl-naphthalene) / 1,5-dimethyl-naphthalene (DNR), etc. Furthermore, compared to GC× GC-TOFMS, some low concentration compounds could not be detected by the conventional GC-MS, which results in the missing of related geochemical data. Normally, this is caused by the limited separation power and peak capacity of the conventional GC column. Besides, the co-eluting peak integrations are also affected significantly due to the incomplete separation of the compounds. Some low concentration compounds might not be detected because of the interference from the baseline noise or from other substances. GC×GC-TOFMS prevails in compound separation against the conventional GC-MS by avoiding co-elution, which achieves more accurate and precise peak area measurement with the presence of a true baseline. So petroleum geochemical parameters obtained from the GC×GC-TOFMS are more reliable than those from the conventional GC-MS. GC×GC-TOFMS may become one of the most effective analytical tools for the oil and gas geochemical study.

Identification of petroleum aromatic fraction by comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry

Comprehensive two-dimensional gas chromatography coupled with time-of-flight mass spectrometry(GC×GC-TOFMS) is commercially available in the 1990s,with the characteristics of large peak capacity,high resolution,high sensitivity,etc.However,its application to the petroleum and geological analyses is just emerging in China and overseas.In this research,the analytical method for petroleum aromatic fraction using GC×GC-TOFMS is set up,via the choice of the column system and optimization of setting parameters,such as temperature programming,modulation time,hot pulse time,flow rate of carrier gas,data acquisition rate and data processing.The results indicate that different polar compounds of aromatic fraction distribute as bands on structured GC×GC chromatogram.Within each band,homologous compounds appear as a roof-tile structure based on the number of substituent residues.The aromatic compounds are identified and characterized according to the GC×GC chromatogram and mass spectra.According to the polarity and the number of rings,aromatic compounds are spatially present on one chromatogram,which directly reflects the distribution characteristics of complex compounds of aromatic hydrocarbons.In addition,quantitative analysis is favored as some overlapped peaks on traditional GC-MS chromatogram have been separated completely on GC×GC.Some heterocyclic atom aromatic compounds at trace level can be clearly identified using this method,for polarity differences from other interfered aromatic compounds.The development of this method and chromatogram recognition offer petroleum geologists a practical example for the application performance of GC×GC-TOFMS.

A new analytical method for quantifying of sterane and hopane biomarkers

An analytical method for quantifying biomarker compounds of the sterane and the hopane existing in saturated hydrocarbons has been established by using comprehensive two-dimensional gas chromatography-flame ionization detector(GC×GC-FID) with optimized operating parameters. The new method achieves the quantification by using a GC×GC-FID system which is able to completely separate steranes from hopanes. The data obtained by the new method are of good repeatability and reliability. Compared with the original data, the relative standard deviations(RSDs) of 12 reference compounds are less than 5%. The RSDs of the quantitative results of the biomarkers based on seven separate analyses are also less than 5%. Compared with the traditional method of gas chromatography-mass spectrometry(GC-MS), the new method has a number of advantages, such as common internal standards(ISs), high resolution, no co-eluting peak, and no interference caused by diagnostic ion peaks. The new method provides petroleum geologists with an effective and scientific means in future researches.

Insight of unresolved complex mixtures of saturated hydrocarbons in heavy oil via GC×GC-TOFMS analysis

The saturated hydrocarbon fraction of a heavily biodegraded crude oil from Liaohe oilfield was analyzed by using comprehensive two-dimensional gas chromatography coupled with time-of-flight mass spectrometry (GC×GC-TOFMS). The "humps", which was termed as unresolved complex mixtures (UCMs) in conventional gas chromatographic analysis, was separated for identification of the individual compound. Main compounds of UCMs were identified according to the combined information of characteristics of GC×GC chromatogram and time-of-flight mass spectra. It's found that UCMs are mainly composed of great number of ring compounds with extremely low concentration. The ring compounds are separated according to their boiling point diversity in the first dimension column, then to their polarity or ring number variety in the second dimension column. In the sample there are two groups of UCMs, i.e., the first group compounds with boiling point lower that of C24 and the second group compounds with boiling point higher than that of C24. The first group of UCMs mainly consists of monocyclic, bicyclic and tricyclic ring compounds. The first group of UCMs is mainly composed of saturated hydrocarbons, in which the percentage of ring compounds with signal-to-noise ratio above 100 is about 75% of the total quantity of saturated hydrocarbon, while its mass is over 80% of the total saturated hydrocarbon. The second group of UCMs is mainly composed of tetracyclic and pentacyclic ring compounds, in which the percentage of UCM compounds with signal-to-noise ratio over 100 is about 17% of the total quantity of saturated hydrocarbon, and its mass is about 0.5% of the total saturated hydrocarbon. The results of this study are helpful for heavy oil developing and genesis mechanism understanding.

锂冷空间核反应堆电源研究现状与展望

空间核反应堆电源具有能量密度大、输出功率高、持续时间长、不受日照等环境影响的优点,是未来大功率长寿期航天任务及深空探测任务能源供应的优选路线。本文在综述国际空间堆电源发展历程与研究现状的基础上,归纳总结空间堆电源的技术发展趋势,针对固有安全、轻量化、长寿期的需求,提出一套兆瓦级小型锂冷空间堆电源方案,梳理锂冷空间堆电源发展需重点关注的研究内容,并介绍目前正在开展的可行性研究工作,为我国空间堆电源研究提供参考。

准噶尔盆地乌夏地区生物降解原油中饱和烃组成解析

运用全二维气相色谱/飞行时间质谱(GC×GC/TOFMS)结合全二维气相色谱/氢火焰离子检测(GC×GC/FID)实现了对准噶尔盆地乌夏地区不同生物降解程度原油饱和烃复杂混合物成分的分析研究,提升了对生物降解原油组成及成因机理认识。结果显示:①乌夏地区生物降解原油中不可识别混合物主要由烷基取代环状化合物及其同系物组成,这些环状化合物主要以六元环为基本单元,包括单环烷烃(类胡萝卜烷)、双环烷烃(十氢化萘,脱-A,B环-甾烷)、三环烷烃(菲满类、三环萜烷、断甾烷)和金刚烷类、四环烷烃(甾烷、断藿烷、四环萜烷)和五环烷烃(藿烷、25-降藿烷)等六大类化合物;②不同生物降解原油中饱和烃总量变化不大,饱和烃中不同族系化合物随着生物降解作用增强呈现此消彼长的变化规律,在重度生物降解阶段,双环烷烃存在大量同系物及同分异构体,可能是微生物作用新生成的化合物,并且由于自身较强的抗生物降解能力,使双环烷烃成为饱和烃的优势成分,占饱和烃总量的50%左右,而多环烃类化合物含量随着生物降解程度逐渐增加,主要是由抗降解能力相对较强的高环数化合物的逐渐富集形成。