MicroRNAs as diagnostic and therapeutic tools for Alzheimer's disease: advances and limitations

Alzheimer's disease(AD) is the most common age-related, progressive neurodegenerative disease. It is characterized by memory loss and cognitive decline and responsible for most cases of dementia in the elderly. Late-onset or sporadic AD accounts for > 95% of cases, with age at onset > 65 years. Currently there are no drugs or other therapeutic agents available to prevent or delay the progression of AD. The cellular and molecular changes occurring in the brains of individuals with AD include accumulation of β-amyloid peptide and hyperphosphorylated tau protein, decrease of acetylcholine neurotransmitter, inflammation, and oxidative stress. Aggregation of β-amyloid peptide in extracellular plaques and the hyperphosphorylated tau protein in intracellular neurofibrillary tangles are characteristic of AD. A major challenge is identifying molecular biomarkers of the early-stage AD in patients as most studies have been performed with blood or brain tissue samples(postmortem) at late-stage AD. Subjects with mild cognitive impairment almost always have the neuropathologic features of AD with about 50% of mild cognitive impairment patients progressing to AD. They could provide important information about AD pathomechanism and potentially also highlight minimally or noninvasive, easy-to-access biomarkers. MicroRNAs are dysregulated in AD, and may facilitate the early detection of the disease and potentially the continual monitoring of disease progression and allow therapeutic interventions to be evaluated. Four recent reviews have been published of microRNAs in AD, each of which identified areas of weakness or limitations in the reported studies. Importantly, studies in the last three years have shown considerable progress in overcoming some of these limitations and identifying specific microRNAs as biomarkers for AD and mild cognitive impairment. Further large-scale human studies are warranted with less disparity in the study populations, and using an appropriate method to validate the findings.

MicroRNAs as disease progression biomarkers and therapeutic targets in experimental autoimmune encephalomyelitis model of multiple sclerosis

Multiple sclerosis is an autoimmune neurodegenerative disease of the central nervous system characterized by pronounced inflammatory infiltrates entering the brain,spinal cord and optic nerve leading to demyelination.Focal demyelination is associated with relapsing-remitting multiple sclerosis,while progressive forms of the disease show axonal degeneration and neuronal loss.The tests currently used in the clinical diagnosis and management of multiple sclerosis have limitations due to specificity and sensitivity.MicroRNAs(miRNAs)are dysregulated in many diseases and disorders including demyelinating and neuroinflammatory diseases.A review of recent studies with the experimental autoimmune encephalomyelitis animal model(mostly female mice 6–12 weeks of age)has confirmed miRNAs as biomarkers of experimental autoimmune encephalomyelitis disease and importantly at the pre-onset(asymptomatic)stage when assessed in blood plasma and urine exosomes,and spinal cord tissue.The expression of certain miRNAs was also dysregulated at the onset and peak of disease in blood plasma and urine exosomes,brain and spinal cord tissue,and at the post-peak(chronic)stage of experimental autoimmune encephalomyelitis disease in spinal cord tissue.Therapies using miRNA mimics or inhibitors were found to delay the induction and alleviate the severity of experimental autoimmune encephalomyelitis disease.Interestingly,experimental autoimmune encephalomyelitis disease severity was reduced by overexpression of miR-146a,miR-23b,miR-497,miR-26a,and miR-20b,or by suppression of miR-182,miR-181c,miR-223,miR-155,and miR-873.Further studies are warranted on determining more fully miRNA profiles in blood plasma and urine exosomes of experimental autoimmune encephalomyelitis animals since they could serve as biomarkers of asymptomatic multiple sclerosis and disease course.Additionally,studies should be performed with male mice of a similar age,and with aged male and female mice.

MicroRNA biomarkers in frontotemporal dementia and to distinguish from Alzheimer's disease and amyotrophic lateral sclerosis

Frontotemporal lobar degeneration describes a group of progressive brain disorders that primarily are associated with atrophy of the prefrontal and anterior temporal lobes.Frontotemporal lobar degeneration is considered to be equivalent to frontotemporal dementia.Frontotemporal dementia is characterized by progressive impairments in behavior,executive function,and language.There are two main clinical subtypes:behavioral-variant frontotemporal dementia and primary progressive aphasia.The early diagnosis of frontotemporal dementia is critical for developing management strategies and interventions for these patients.Without validated biomarkers,the clinical diagnosis depends on recognizing all the core or necessary neuropsychiatric features,but misdiagnosis often occurs due to overlap with a range of neurologic and psychiatric disorders.In the studies reviewed a very large number of microRNAs were found to be dysregulated but with limited overlap between individual studies.Measurement of specific miRNAs singly or in combination,or as miRNA pairs(as a ratio)in blood plasma,serum,or cerebrospinal fluid enabled frontotemporal dementia to be discriminated from healthy controls,Alzheimer’s disease,and amyotrophic lateral sclerosis.Furthermore,upregulation of miR-223-3p and downregulation of miR-15a-5p,which occurred both in blood serum and cerebrospinal fluid,distinguished behavioral-variant frontotemporal dementia from healthy controls.Downregulation of miR-132-3p in frontal and temporal cortical tissue distinguished frontotemporal lobar degeneration and frontotemporal dementia,respectively,from healthy controls.Possible strong miRNA biofluid biomarker contenders for behavioral-variant frontotemporal dementia are miR-223-3p,miR-15a-5p,miR-22-3p in blood serum and cerebrospinal fluid,and miR-124 in cerebrospinal fluid.No miRNAs were identified able to distinguish between behavioral-variant frontotemporal dementia and primary progressive aphasia subtypes.Further studies are warranted on investigating miRNA expression in biofluids and frontal/temporal cortical tissue to validate and extend these findings.

基于表面增强拉曼光谱的肾结石患者体液代谢谱特点及应用价值

目的分析基于表面增强拉曼光谱(SERS)的肾结石患者体液代谢谱特点,探讨其应用价值,为肾结石患者的筛查工作提供参考。方法纳入福建省立医院泌尿外科确诊的25例肾结石患者(结石组)和25例健康体检者(对照组),采集其血液、尿液样本,利用SERS测量样本光谱,再进行平均谱和差异谱绘制。采用主成分分析结合线性判别分析(PCA-LDA)对归一化数据进行处理。最后采用受试者工作特征(ROC)曲线评估PCA-LDA方法的效能。结果结石组患者的体液(血液、尿液)拉曼光谱与对照组之间存在差异。根据既往报道的拉曼峰暂定分配,推测血浆和尿液中各有11种代谢物与肾结石有关,其中结石组尿液中的磷脂酰肌醇、苯丙氨酸、棕榈酸/脂肪酸等含量高于对照组,而尿嘧啶、糖原等成分的含量低于对照组。结石组患者血浆中的甲基带含量高于对照组,而糖原、磷脂酰肌醇、蛋白质-酪氨酸、苯丙氨酸、棕榈酸/脂肪酸、羟脯氨酸/酪氨酸和脂类的含量低于对照组。结论采用SERS检测可发现肾结石患者的尿液和血液代谢成分与健康体检者存在差异,结合PCA-LDA与ROC分析法可能有助于肾结石患者的筛查。

从肺主治节探讨低氧性肺动脉高压的中医辨治思路

低氧性肺动脉高压(hypoxic pulmonary hypertension,HPH)是临床的常见症,也是急危重症之一,中医药在其治疗上具有一定优势。通过分析中医理论中肺对气、血、水的治节作用,并结合低氧性肺动脉高压的发病基础、症状及病理生理特征等,认为HPH的病程演变即是肺对气、血、水的治节逐步失职的过程。HPH患者发病以气虚为基础,气虚、血瘀、水停为其重要病机。HPH早期以气虚为主,病位在肺,兼有瘀血痰浊内生,治疗重在益气,恢复肺对“气”的治节作用;晚期以血瘀、水停为主,由肺及心,以水饮泛溢为急,亦兼有气虚,治疗以活血化瘀、利水逐饮为主,重在恢复肺对“血、水”的治节作用。临证应重视肺对气、血、水的治节作用,把握患者病程演变中的气虚、血瘀、水停病机间的动态演变,分期、辨证施治以恢复肺主治节之职,提高低氧性肺动脉高压的临床疗效。

祛瘀解毒利水法对脓毒症心肌病右心功能障碍血流动力学影响

目的观察祛瘀解毒利水法辅助治疗脓毒症心肌病(sepsis-induced cardiomyopath,SICM)右心功能障碍的临床疗效及对血流动力学的影响。方法将60例患者随机分为观察组(30例)和对照组(30例)。对照组给予脓毒症集束化治疗;观察组在对照组的基础上给予祛瘀解毒利水法治疗(血必净注射液50 mL,静脉滴注,2次/d,和加味苓桂术甘汤内服,1剂/d),两组疗程均为7 d。采用脉搏指示连续心输出量(pulse indicator continuous cardiac output,PiCCO)监测血流动力学指标[血管外肺水指数(extra vascular lung water index,EVLWI)、全心舒张末期容积指数(global end-diastolic volume index,GEDVI)、胸腔内血容积指数(intrathoracic blood volume index,ITBVI)及心脏功能指数(cardiac function index,CFI)和外周血管阻力指数(systemic vascular resistance index,SVRI)],测量治疗前后混合静脉血氧饱和度(saturation of venous oxygen,SvO_(2))、中心静脉血二氧化碳分压(partial pressure of carbon dioxide,PcvCO_(2))、血乳酸(blood lactic acid,Lac)、中心静脉-动脉血二氧化碳分压差(central venous-to-arterial carbon dioxide difference,Pcv-aCO_(2))=PcvCO_(2)-PaCO_(2)、左室射血分数(left ventricular ejection fraction,LVEF)、E/A、E/e′、右心室舒张末期面积(right ventricular end-diastolic area,RVEDA)/左心室舒张末期面积(left ventricular end-diastolic area,LVEDA)比值、三尖瓣环收缩期位移(tricuspid annular plane systolic excursion,TAPSE);检测治疗前后高敏心肌肌钙蛋白I(high-sensitivity cardiac troponin I,hs-cTnI)、N-末端B型钠尿肽前体(N-terminal pro-B-type natriuretic peptide,NT-proBNP)、肌酸激酶同工酶(creatine kinase isoenzyme,CK-MB)和高迁移率族蛋白B1(high mobility group protein B1,HMGB1);进行治疗前后急性生理及慢性健康评分(acute physiology and chronic health evaluationⅡ,APACHEⅡ)和脓毒症相关序贯器官衰竭评分(sequential organ failure assessment,SOFA)评分。结果治疗后3~7 d,EVLWI、ITBVI、SVRI逐渐下降(P<0.05),GEDVI和CFI逐渐升高(P<0.05);在治疗后第3、5、7天,观察组患者EVLWI、SVRI低于对照组(P<0.05),在治疗后第3天,观察组患者ITBVI低于对照组(P<0.05),GEDVI高于对照组(P<0.05),在治疗后第5、7天,观察组患者CFI高于对照组(P<0.05)。观察组患者Pcv-aCO_(2)、Lac低于对照组,SvO_(2)、ScvO_(2)高于对照组(P<0.01);观察组患者E/e′、RVEDA/LVEDA低于对照组,LVEF、E/A和TAPSE高于对照组(P<0.01);观察组患者hs-cTnI、NT-proBNP、CK-MB和HMGB1水平低于对照组(P<0.01);观察组患者APACHEⅡ和SOFA评分低于对照组(P<0.01)。结论在西医常规集束化治疗基础上,针对SICM伴右心功能障碍患者病机特点进行祛瘀解毒利水法治疗,采用加味苓桂术甘汤联合血必净注射液辅助干预,可有效改善患者血流动力学和组织灌注情况,减轻了心肌的损伤,提高了心功能,特别是可减轻右心功能障碍,从而减轻了病情程度,起到改善预后的效果。

双相情感障碍的生物学标志物研究进展

双相情感障碍(BD)是一种慢性疾病,给家庭和社会带来极大负担,但目前病因尚不清楚,主要根据患者的自我报告及行为观察诊断,缺乏客观生物学标志物,漏诊率及误诊率较高,被误诊BD患者往往会接受单一抗抑郁药治疗,治疗效果差,甚至出现病情加重。生物学标志物不仅有助于BD的早期诊断及治疗,还有助于指导理解其病理生理过程。单一生物学标志物无法解释BD的生物学及临床复杂性,但目前尚未得到BD的特异性诊断的理想生物标志物。

人体纤维结缔组织网络中的主动界面液体流动新现象及其机制研究进展

认识和理解组织液在凝胶样组织间隙中的流动规律和力学机制是近百年来的重大医学科学问题之一。本文回顾了生理学中关于组织液流动的若干代表性研究、颅内血管周围间隙中的液体流动研究及经络示踪成像研究等,并介绍了已有的系列研究结果,即通过追踪人体和动物体内不同部位组织间隙中的示踪剂流动,发现组织液沿动脉和静脉血管外膜、神经和皮肤等至少四种解剖结构进行长程而有序的流动;其中的皮肤组织液长程流动通路与人体四肢远端穴位区相连接;组织液长程流动通路的内部结构是由有序纤维集合而成的纵向纤维束,组织液以纤维等固相结构为轨道而流动,形成贯穿全身的"组织液界面流动网络",具有重要的医学科学和中西医结合研究价值。

血管生物反应器的研究与应用

该文根据生物力学的原理,分析了直圆筒形血管的流动状况和血管的受力特性,在此基础上设计了一套的能模拟血管体内环境的生物反应器,通过血管的培养和相关检测分析,表明生物反应器的设计是合理的,性能是可靠的。

血液唾液和尿液HIV抗体快速检测及免疫印迹试剂评估

目的对Calypte公司血液、唾液和尿液3种HI V-1/2抗体快速检测试剂与尿液和血液两种HI V-1抗体免疫印迹试剂进行评估,为引进检测性能良好的试剂提供参考。方法平行采集84位HI V阳性感染者指尖血、唾液、尿液和静脉血标本,分别用Calypte公司的3种快速试剂进行HI V-1/2抗体检测,并与梅里埃血液ELISA参比试剂检测结果比较;尿液和静脉血标本分别用Calypte公司的两种免疫印迹试剂进行检测,并与GeneLabs公司的血液免疫印迹参比试剂检测结果进行比较。结果血液、唾液和尿液快速检测试剂的敏感性分别为100%、100%和96·42%,3种快速试剂检测结果与梅里埃血液ELISA检测结果一致性分别为100%、100%和96·42%;血液和尿液HI V-1WB试剂检测结果与GeneLabs参比试剂的一致性为100%。结论Calypte公司3种HI V-1/2抗体快速检测试剂和两种HI V-1抗体免疫印迹试剂与相应的参比试剂有很好的一致性。

基于组织液超滤提取的MEMS血糖检测传感器

基于超滤原理提取组织液、并对其进行后续葡萄糖检测,是实现长期血糖持续监测的一种有效途径.本文提出一种可用于组织液超滤提取及葡萄糖持续检测的传感器微系统.该系统主要由微流控底座和葡萄糖传感器芯片组成.其中微流控底座由PDMS微通道、SU-8单向阀等微加工器件组成,在压力作用下可完成组织液提取及将检测过的组织液排出的功能.采用体硅加工方法制作葡萄糖传感器芯片微型腔体及腔体底部的微孔膜,研制出具有扩散控制功能的三电极检测芯片,并在其上通过琼脂糖包埋方法固定葡萄糖氧化酶、基于电化学原理实现葡萄糖浓度的检测.实验结果表明,该系统可以实现液体的灵活提取,并且葡萄糖检测响应时间小于5 s,在0.4 V工作电压下线性测量范围达0.2～20 mmol/L,灵敏度为9.76 nA/(mmol.L-1),相关系数为0.995 4.多次测量5 mmol/L样本,差异系数3.48%.可见该传感系统具有较好的稳定性,并且体积小、易于集成,有望用于组织液灵活提取及其葡萄糖持续监测.

67例未分化结缔组织病患者尿隐血和尿红细胞位相临床追踪观察

目的:追踪观察未分化结缔组织病(undifferentiated connective tissue disease,UCTD)患者尿隐血和尿红细胞位相的动态变化。方法:选取67例UCTD患者,每3个月进行中段尿尿液分析和尿红细胞位相检查,追踪1年,观察各指标变化情况。结果:一年后,67例UCTD患者尿隐血阳性由纳入观察时的48例(71.64%)上升到55例(82.09%),尿红细胞位相异常(畸形红细胞>80%)者由55例(82.09%)上升到60例(89.55%)。尿蛋白阳性者由11例(16.42%)上升到17例(25.37%)。67例患者5次检查尿隐血阳性率及尿红细胞位相异常阳性率均高于尿蛋白阳性率,差异有统计学意义(χ2分别为9.52,12.36,P值均<0.05)。结论:UCTD患者有尿隐血和尿红细胞位相异常,轻微但缓慢加重,可能与潜在肾损害有关。

阿托伐他汀对肺纤维化大鼠肺泡灌洗液MMP-9和TIMP-1的影响

目的:观察阿托伐他汀对肺纤维化大鼠肺泡灌洗液及血清MMP-9和TIMP-1的影响。方法:雌性Wistar大鼠35只,随机分成对照组(向气管内注入生理盐水0.2~0.3 ml),模型2、4、6周组和阿托伐他汀干预2、4、6周组,每组5只。气管注入博莱霉素制备大鼠肺纤维化模型,建模后次日模型组和阿托伐他汀干预组大鼠每日胃内分别灌注生理盐水(2 ml)和生理盐水溶解的阿托伐他汀2 ml(10 mg/kg体重),于2周、4周及6周处死大鼠。ELISA方法检测肺泡灌洗液和血清中MMP-9、TIMP-1的质量浓度。结果:阿托伐他汀干预组肺泡炎及肺纤维化程度较模型组减轻,以6周组明显。血清中MMP-9、TIMP-1质量浓度各组间无统计学差异(P>0.05)。在肺泡灌洗液中,模型2周组、6周组的MMP-9质量浓度均高于对照组(P<0.01、P<0.05),而阿托伐他汀干预2周组、4周组及6周组的MMP-9质量浓度比对应的模型组均有所降低,其中2周组、4周组的MMP-9仍高于对照组,6周组与对照组相比无统计学差异。模型2周组肺泡灌洗液中的TIMP-1质量浓度与对照组相比无统计学差异,4周组、6周组高于对照组,有统计学差异(P<...

鸡贫血病-法氏囊病疫苗免疫母鸡后子代雏鸡的免疫学变化

本项目应用现代免疫学新技术对鸡传染性贫血病 (CIA) -传染性法氏囊病 (IBD)疫苗联合免疫母鸡后 ,其子代雏鸡外周血液 T、B细胞数量和 Ig G、Ig M、Ig A含量及法氏囊、胸腺、脾脏、盲肠扁桃体、哈德尔腺的 T细胞和 Ig G、Ig M、Ig A抗体生成细胞数量以及泪液、气管液、胆汁、肠液的 Ig A、Ig M、Ig G含量的变化进行了动态研究。结果发现 ,CIA- IBD疫苗联合免疫母鸡后 ,其子代雏鸡外周血液、免疫器官组织和局部体液的上述各项指标均不同程度地高于未免疫的相应对照雏鸡 ,表明 CIA-IBD疫苗免疫母鸡后 ,其子代雏鸡的体液免疫和细胞免疫功能明显增强。而 CIAV - IBDV强毒攻击后 ,未免疫的子代雏鸡 ,其外周血液、免疫器官组织和局部体液的各项免疫学指标均明显低于疫苗免疫攻毒的子代雏鸡 ,这与未免疫雏鸡缺乏特异性抗体 ,强毒攻击后 ,雏鸡免疫器官组织广泛损害 。

用放射性塑料微球动态测定扩张期皮肤软组织的血流量

目的:研究扩张中皮肤软组织的血流量动态改变。方法:在豚鼠背部制作常规间断皮肤扩张动物模型,用放射性塑料微球测定不同时间点的皮肤软组织血流量。结果:豚鼠背部正常皮肤软组织血流量为243±182μl/g/min。置入扩张器后,背部皮肤软组织血流量下降到78±54μl/g/min。扩张中期皮肤软组织血流量回升,与正常值差别不明显。扩张终止后皮肤软组织血流量为153±116μl/g/min,明显低于正常值。结论:不适当的扩张对皮肤软组织的血流供应有损害作用,导致组织血流量下降。

代谢组学在母胎医学中的研究进展

代谢组学是以定量描述生物体受刺激或基因修饰后代谢物变化为目标的新兴组学,其研究对象是细胞、组织、器官的小分子化合物。妊娠期母体代谢机制是宫内环境和胎儿结局的重要决定因素,这些代谢机制发生变化可引起妊娠相关疾病,从而对妊娠结局造成影响。目前尚缺乏妊娠相关疾病的早期临床诊断方法及特异染色体疾病(如21-三体综合征)和胎儿畸形的最佳诊断方法。将代谢组学的方法应用于产科各种生理病理状态研究,有望实现妊娠相关疾病的预测及发病机制的阐释,对妊娠相关疾病的防治和母婴预后有重要意义。综述代谢组学在妊娠相关疾病中的应用及发展潜力。

阿尔茨海默病的临床检测指标现状

阿尔茨海默病(AD)是一种神经退行性变性疾病,引起慢性进行性认知功能的丧失,特别是记忆障碍,是导致老年人痴呆最常见的原因。随着我国老龄化步伐的不断加快,AD的患病率也日趋增加,因此临床上早期诊断AD已迫在眉睫,成为研究热点。本文就近几年以来AD的临床早期检测指标进行综述。

《金匮要略》对消渴病并发症的认识

《金匮要略》不仅系统阐述了消渴病的病因病机、辨证要点及治法,还分别论及多种消渴病的并发症,如肺痿、小便不利、水气、淋病、虚劳、血痹等,并提出了相应的治法及预防措施。

利用成体干细胞体外小口径血管的构建

设计了一套血管生物反应器系统,采用有限元的方法对组织工程小血管托架材料进行了分析,从而开发完成了一套用于构建直径为2 mm的小血管托架;通过收集人的原代骨髓基质干细胞(hBMSCs)和脂肪基质干细胞(ADSCs)进行体外扩增和培养,并选用第3代细胞与聚羟基乙酸酯(PGA)复合后置于血管生物反应器中动态培养;在生物反应器中动态培养4周后,对材料复合物进行取材,分别进行大体观察、HE染色和扫描电镜等指标检测。结果表明:血管色泽明亮,有一定的弹性,细胞分泌的胶原基质排列较规则,免疫组化结果表明血管含有平滑肌弹性肌动蛋白的成分。说明改进的血管生物反应器能模拟血管的力学环境,并能利用人骨髓间充质干细胞和脂肪基质干细胞成功构建组织工程小血管组织。

无骨折脱位型颈脊髓损伤患者血压变化分析

目的探讨无骨折脱位型颈脊髓损伤患者的血压变化及相关因素,提高护理质量。方法记录5例无骨折脱位型颈脊髓损伤患者从脊髓休克期至肌力基本恢复期的血压及24h出入量,观察分析其血压变化。结果随着脊髓休克的好转及肌力的恢复,血压逐渐回升。结论颈脊髓损伤患者血压变化存在一定的规律,在护理中主张脊髓休克期取平卧位,随着患者神经功能的恢复,可逐渐进行斜立位训练,以提高自身对血压的调节能力;注意避免自主神经不良反应(AD)的诱因,对出现AD者立即采取措施,控制血压。