首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到17条相似文献,搜索用时 218 毫秒
1.
目的:采用多层螺旋CT灌注成像探讨正常大鼠脑血流动力学特征.方法:对15只健康Wistar大鼠进行CT灌注扫描,定量测定全脑不同区域的血流动力学参数,分析正常Wistar大鼠脑血流动力学特征.结果:正常Wistar大鼠脑部不同区域的血流动力学参数存在较大差异(P<0.05或0.01),Wistar大鼠的CBF和CBV值以小脑最高,其次是基底节区和延髓,大脑皮质的CBF和CBV值较低:而MTT值在Wistar大鼠脑部各区域比较接近,均值比较无统计学意义(P>0.05).结论:多层螺旋CT可用于定量评价Wistar大鼠脑组织的血液动力学特征,完全适用于小型动物模型脑部血流动力学的研究.  相似文献   

2.
目的:采用64层MSCT灌注成像(CTP)与免疫组化染色法定量观测大鼠C6脑胶质瘤的血管生成特征.方法:成年Wistar大鼠40只,采用立体定向仪进行C6细胞脑内接种,建立大鼠C6脑胶质瘤模型.每次随机抽取10只接种鼠分别对应于5-10d,10-15d,15-20d三个时间段行CTP及免疫组化微血管定量测定,观测大鼠C6脑胶质瘤血流灌注参数的动态变化规律,及其与免疫组化微血管密度(MVD)之间的相关性.结果:大鼠脑内C6细胞接种后5-10d,瘤内即有新生微血管,并随时间而继续增殖,于10-15d达到高峰,并稳定在一较高水平,15-20d肿瘤微血管有所下降.肿瘤组织毛细血管通透性在5-10d内即有明显增高,10d以后继续增高,15d以后增高显著,并在20d内无下降趋势.Pearson相关分析表明大鼠C6脑胶质瘤CBV、CBF与MVD呈显著线性正相关(CBF=0.730,rCBV=0.917,P<0.01),而PS、MTT值与MVD不具相关性(rPS=0.067,rMTT=0.002,P>0.05).结论:CTP各种参数中,PS值是反映肿瘤血管性质的较好指标,而CBF,CBV是反映肿瘤微血管数量的敏感性指标,CTP可以准确反映大鼠C6脑胶质瘤的血管生成.  相似文献   

3.
目的探讨CT灌注评价高碳酸血症模型下正常大鼠脑组织血流动力学变化的可行性;研究大鼠CT灌注参数变化率与α-SMA表达之间的相关性。方法 10只雄性SD大鼠,体质量250~300g,在吸入空气和吸入高浓度CO2混合气体(10%CO2和90%空气组成)后15min,分别使用GE16层Light Speed CT扫描仪对大鼠脑尾状核层面进行CT灌注扫描,原始图像经GE ADW4.2工作站Perfusion3.0脑部灌注软件处理后产生灌注曲线及伪彩图像,两次扫描前均测定大鼠的血液CO2分压、pH值等血气分析指标。检查结束后24h内,大鼠取脑固定,在尾状核中心层面切片,进行脑组织HE染色及鼠特异性SMA抗体免疫组化染色。应用SPSS11.5统计学软件进行分析:采用配对t检验,比较正常大鼠右侧尾状核在吸入空气和吸入高浓度CO2混合气体后CT灌注参数脑血容量(CBV)、脑血流量(CBF)、血管表面通透性(PS)和平均透过时间(MTT)的变化有无差异;采用Pearson相关分析分别检测大鼠右侧尾状核的SMA阳性血管染色计数与灌注参数CBV和CBF在CO2分压升高前后的变化率相关性。结果所有大鼠在吸入含10%CO2和90%空气的混合气体15min后,动脉血CO2分压均明显升高(t=9.39,P0.001),血浆pH值降低(t=13.49,P0.001)。正常SD大鼠右侧基底节区CBV、CBF、PS每100g组织分别为(10.28±4.01)mL、(304.95±88.77)mL/min、(0.26±0.37)mL/min,MTT值为(1.48±0.07)s;吸入10%CO2和90%空气的混合气体后右侧基底节区CBV、CBF值明显增加,每100g组织分别为(19.25±8.42)mL(t=4.92,P=0.001)和(507.33±167.94)mL/min(t=6.75,P0.001);吸入混合气体前后CBV、CBF增加百分比分别为(87.14±46.45)%、(65.75±22.05)%;PS及MTT变化不显著(P均0.05)。大鼠脑组织α-SMA阳性染色血管计数为(12.7±3.23)条/高倍视野。Pearson相关分析显示,正常脑组织的CBV和CBF变化率与其α-SMA阳性计数之间呈显著相关(r分别为0.652和0.890,P均0.05)。结论 CT灌注技术在改变血液CO2分压的条件下可以反映脑组织血流动力学变化;大鼠正常脑组织高碳酸血症前后CT灌注参数变化率与成熟血管数量相关。  相似文献   

4.
目的:探讨CT灌注成像技术用于重型颅脑损伤患者脑室型颅内压(Intracranial Pressure, ICP)探头植入的临床价值。方法:选取60例重型颅脑损伤患者,均行患侧开颅去骨瓣减压和颅内压监测探头置入术。其中,行普通型颅内压监测探头置入术28例,脑室型颅内压监测探头置入术32例。比较两组术后甘露醇应用剂量和应用时间,术后局部脑血流参数区域脑血流量(regional Cerebral Blood Flow, r CBF)、相对脑血容量(relative Cerebral Blood Volume, r CBV)、平均通过时间(Mean Transit Time, MTT)、对比剂达峰时间(time to peak, TTP)恢复情况。结果:脑室型颅内压监测组患者术后应用甘露醇的剂量和天数较普通颅内压监测组明显缩短(P0.05),术后3个月随访提示脑室型ICP监测组预后良好比例较普通型ICP组显著增加(P0.05)。并且螺旋CT灌注成像结果提示脑室型颅内压监测组患者术后局部脑血流参数r CBF、r CBV、MTT、TTP恢复情况明显优于普通型颅内压监测组(P0.05)。结论:重型颅脑损伤患者应用脑室型颅内监测探头改变了脱水剂在临床应用中的治疗模式,通过螺旋CT灌注成像检测患者损伤部位的r CBF、r CBV、MTT和TTP可评估脑损伤的程度以及预后,对重型颅脑损伤的临床治疗和改善患者预后具有重要意义。  相似文献   

5.
随着影像技术的发展和后处理功能的完善,肝灌注成像以研究组织、器官血流动力学变化已成为影像界关注的热点,然而CT灌注成像在肝脏等实质性器官中的应用尚处于探索阶段。肝脏具有双重血供,在各种病理生理情况下,肝脏动静脉之间及门静脉之间的血流动力学发生着复杂的变化。CT被认为是诊断肝脏病变最有价值的影像学方法,CT灌注成像能反映组织器官微循环内的血流动力学变化,是一种快速、准确、无创的功能成像方法。肝脏灌注CT检查可以同时获得形态和功能两方面的信息,使我们有可能早于形态学变化之前发现肝脏病变,有助于肝脏疾病的早期诊断和治疗,并能评价各种治疗手段对肝脏血流动力学变化的影响。本文针对全肝灌注CT扫描在临床的应用进行综述。  相似文献   

6.
目的:探讨16层螺旋CT灌注成像对肝硬化血流状态的评估价值及其与肝硬化程度的相关性。方法:选取2014年1月至2016年1月于我院接受诊治的肝硬化患者126例作为肝硬化组,根据Child-Pugh分级分为A组(Child A级,n=35例)、B组(Child B级,n=50例)、C组(Child C级,n=41例)。另选取同期于我院接受体检的健康人员100例作为对照组。应用16层螺旋CT对受试者肝脏、脾脏、主动脉以及门静脉的层面进行CT动态增强扫描,对比CT灌注参数,采用Pearson相关性分析分析CT灌注参数与肝硬化病情严重程度的关系。结果:肝硬化组肝动脉灌注量(HAP)、肝动脉灌注指数(HPI)、肝脏血流量(TBV)以及平均通过时间(MTT)均明显高于对照组,而门静脉灌注量(PVP)、总肝灌注量(TLP)均明显低于对照组(P0.05)。A组患者HAP、HPI均明显高于C组,而PVP与TLP均明显低于C组,差异有统计学意义(P0.05);两组TBV、MTT比较无统计学差异(P0.05);而A组与B组相比以及B组与C组相比,各项CT灌注参数均无统计学差异(P0.05)。肝硬化患者病情严重程度与HAP、HPI均呈正相关关系(P0.05),而与PVP、TLP均呈负相关关系(P0.05)。结论:16层螺旋CT灌注成像对肝硬化血流状态具有一定的评估价值,且CT灌注参数的水平变化与肝硬化患者病情严重程度存在密切相关。  相似文献   

7.
目的:探讨40-70岁肾癌高发人群正常肾脏MSCT灌注成像特征.方法:正常志愿者109例,采用64排多层螺旋CT对其肾脏进行平扫及灌注增强扫描,使用后处理renal tumor perfusion软件对图像进行后处理,得出正常肾脏皮髓质包括血流量(BF)、血容量(BV)、平均通过时间(MTT)及表面通透性(PS)四个灌注参数,比较同一灌注参数在皮髓质、左右侧及不同性别之间的差异.结果:受检对象除3例腹式呼吸明显,不能完成同层扫描外,其余106例均得到理想图像及数据,肾皮质与髓质BF值、BV值及PS值灌注参数值存在显著性差异(P值均<0.01),但肾皮质与髓质MTT值无显著性差异(P>0.05).左右侧皮质间及髓质间灌注参数无统计学差异(P>0.05).男女皮质间及髓质间灌注参数无统计学差异(P>0.05).结论:多层螺旋CT(MSCT)灌注成像在显示肾脏形态的同时,还可定量测量皮髓质的血流灌注情况,间接反映肾脏生理特征.  相似文献   

8.
目的研究大鼠脑C6胶质瘤CT灌注参数的变化特征,分析CT灌注参数在评价C6胶质瘤血管生成中的价值。方法 20只雄性SD大鼠,随机分为肿瘤组和对照组。对照组通过立体定向仪于鼠脑右侧尾状核区注射10μL生理盐水,肿瘤组于鼠脑右侧尾状核区种植C6胶质瘤细胞复制大鼠脑胶质瘤模型,3周后两组大鼠分别在脑尾状核层面进行CT灌注扫描,大鼠脑组织进行HE染色及FVIII抗体和CD105单抗免疫组化染色。应用SPSS11.5统计学软件进行数据分析,P〈0.05有统计学意义。结果大鼠胶质瘤的CBV、CBF、PS及MTT值分别为(17.35±6.73)mL/100 g、(508.66±158.88)mL/min.100 g、(13.92±8.96)mL/min.100 g、(1.79±0.44)s;对照组大鼠右侧基底节CBV、CBF、PS及MTT值分别为(均数±标准差)分别为(10.28±4.01)mL/100 g、(304.95±88.77)mL/100 g.min、(0.26±0.34)mL/100 g.min、(1.48±0.07)s,两组CBV、CBF、PS值差异有显著性,胶质瘤组呈现明显的高灌注特征,MTT差异无显著性。胶质瘤FVIII和CD105计数分别为(34.7±7.13)条/高倍视野、(16.6±4.12)条/高倍视野;对照组FVIII计数为(17.31±5.62)条/高倍视野,对照组无明显CD105染色阳性血管。肿瘤实质区的CBV、PS与免疫组化的FVIII-MVD和CD105-MVD计数之间明显相关(P均〈0.05),CBF与CD105-MVD计数之间相关(P〈0.05),MTT与免疫组化MVD计数之间均无显著相关性。结论 CT灌注参数CBV、CBF及PS与CD105-MVD表达正相关,CT灌注成像有助于胶质瘤血管生成的研究。  相似文献   

9.
目的:探讨640层CT对肝癌碘油栓塞沉积不良患者治疗方案的临床指导。方法:21例富血供肝癌碘油动脉栓塞后,复查肝脏CT病灶内碘油沉积不良患者,用640层螺旋CT行CT灌注成像、CT动脉成像检查。结果:21例碘油沉积不良病灶内仍有动脉血供18例,坏死3例,18例有动脉血供病灶由肝动脉供血6例,膈下动脉供血3例,肠系膜上动脉供血4例,右侧副肾动脉供血1例,胃左动脉供血2例,右肾动脉供血2例。结论:640层螺旋CT灌注成像、CT动脉成像,可以准确显示肿瘤病灶碘油栓塞后肿瘤的残留与坏死,特别能精确判断肿瘤病灶血供起源情况,对再次介入治疗具有重要价值。  相似文献   

10.
目的:探讨肾细胞癌多层螺旋CT(MSCT)灌注成像特征,并研究其临床应用价值。方法:肾癌患者69例,采用64排多层螺旋CT对其肾脏进行平扫及灌注增强扫描,使用renal tumor perfusion软件对图像进行后处理,自动生成时间-密度曲线(TDC),各种灌注图像及感兴趣区(ROI)内的灌注参数,包括血流量(BF)、血容量(BV)、平均通过时间(MTT)及表面通透性(PS),将得到的灌注参数分别进行统计分析。结果:肾癌肿块灌注参数与已测得的正常肾皮质各灌注参数值均存在显著性差异(P值均<0.01),其中,正常肾皮质的BF值、BV值及PS值均高于肾癌组织,MTT值则相反;肾癌肿块灌注参数与已测得的正常肾髓质各灌注参数值同样存在显著性差异(p值均<0.01),正常肾髓质各灌注参数值均低于肾癌组织,而PS值二者之间差别不显著(P<0.05);肾癌患者健侧肾皮髓质灌注参数值与已测得的正常肾皮髓质各灌注参数值及肾癌患者癌旁正常肾皮髓质各灌注参数值,三者之间差异无统计学意义(P>0.05)。结论:多层螺旋CT(MSCT)灌注成像在显示肾脏形态的同时,还可定量测量皮髓质的血流灌注情况,间接反映肾脏生理特征。  相似文献   

11.
目的探讨兔脑微栓塞模型CT灌注成像(CT perfusion imaging,CTPI)脑血流动力学的动态变化规律。方法 30只新西兰兔,随机分成两组,A组:假手术对照组5只,B组:微栓塞组25只。经颈外动脉向颈内动脉注入直径约0.5 mm的SiO2颗粒10枚,分别于栓塞后30 min、3 h、6 h、12 h及24 h行CTPI,24 h处死动物取脑组织行HE染色。根据HE染色结果将模型分为缺血组和梗死组,分别观察其脑血流量(cerebral blood flow,CBF)、脑血容积(cerebral blood volume,CBV)和平均通过时间(mean transit time,MTT)的动态变化规律。结果 A组CTPI及HE染色均未见明显异常。B组3只因实验意外死亡,1只因下肢静脉穿刺失败导致CTPI失败,21只行CTPI,其中18只灌注异常,3只未见明显异常。18只灌注异常的兔中,HE染色10只脑梗死,7只脑缺血,1只未见明显异常。30 min时7只缺血兔脑不同程度低灌注,表现为CBF降低,MTT延长,CBV无显著变化,3~6 h低灌注进一步加重,CBV值略降低,12 h低灌注不同程度恢复,24 h进一步恢复。30 min时10只梗死兔脑明显低灌注,表现为CBF及CBV显著降低,MTT显著延长,3只兔低灌注分别在3 h、6 h及12 h不同程度恢复,然后下一时间又迅速降低并随着时间延长进一步加剧,其余7只兔低灌注程度随时间延长逐渐加剧或在一定水平上波动。结论脑缺血3~6 h低灌注最明显,12~24 h低灌注不同程度恢复,而脑梗死随时间延长低灌注程度不断加重或一过性恢复后再次加重。脑缺血的特征是CBF和CBV的不匹配,缺血组织CBF显著降低,CBV无显著变化,而脑梗死则表现为这两个参数的一致性下降。  相似文献   

12.

Introduction

The capability of CT perfusion (CTP) Alberta Stroke Program Early CT Score (ASPECTS) to predict outcome and identify ischemia severity in acute ischemic stroke (AIS) patients is still questioned.

Methods

62 patients with AIS were imaged within 8 hours of symptom onset by non-contrast CT, CT angiography and CTP scans at admission and 24 hours. CTP ASPECTS was calculated on the affected hemisphere using cerebral blood flow (CBF), cerebral blood volume (CBV) and mean transit time (MTT) maps by subtracting 1 point for any abnormalities visually detected or measured within multiple cortical circular regions of interest according to previously established thresholds. MTT-CBV ASPECTS was considered as CTP ASPECTS mismatch. Hemorrhagic transformation (HT), recanalization status and reperfusion grade at 24 hours, final infarct volume at 7 days and modified Rankin scale (mRS) at 3 months after onset were recorded.

Results

Semi-quantitative and quantitative CTP ASPECTS were highly correlated (p<0.00001). CBF, CBV and MTT ASPECTS were higher in patients with no HT and mRS≤2 and inversely associated with final infarct volume and mRS (p values: from p<0.05 to p<0.00001). CTP ASPECTS mismatch was slightly associated with radiological and clinical outcomes (p values: from p<0.05 to p<0.02) only if evaluated quantitatively. A CBV ASPECTS of 9 was the optimal semi-quantitative value for predicting outcome.

Conclusions

Our findings suggest that visual inspection of CTP ASPECTS recognizes infarct and ischemic absolute values. Semi-quantitative CBV ASPECTS, but not CTP ASPECTS mismatch, represents a strong prognostic indicator, implying that core extent is the main determinant of outcome, irrespective of penumbra size.  相似文献   

13.

Objectives

Although CT scanners generally allow dynamic acquisition of thin slices (1 mm), thick slice (≥5 mm) reconstruction is commonly used for stroke imaging to reduce data, processing time, and noise level. Thin slice CT perfusion (CTP) reconstruction may suffer less from partial volume effects, and thus yield more accurate quantitative results with increased resolution. Before thin slice protocols are to be introduced clinically, it needs to be ensured that this does not affect overall CTP constancy. We studied the influence of thin slice reconstruction on average perfusion values by comparing it with standard thick slice reconstruction.

Materials and Methods

From 50 patient studies, absolute and relative hemisphere averaged estimates of cerebral blood volume (CBV), cerebral blood flow (CBF), mean transit time (MTT), and permeability-surface area product (PS) were analyzed using 0.8, 2.4, 4.8, and 9.6 mm slice reconstructions. Specifically, the influence of Gaussian and bilateral filtering, the arterial input function (AIF), and motion correction on the perfusion values was investigated.

Results

Bilateral filtering gave noise levels comparable to isotropic Gaussian filtering, with less partial volume effects. Absolute CBF, CBV and PS were 22%, 14% and 46% lower with 0.8 mm than with 4.8 mm slices. If the AIF and motion correction were based on thin slices prior to reconstruction of thicker slices, these differences reduced to 3%, 4% and 3%. The effect of slice thickness on relative values was very small.

Conclusions

This study shows that thin slice reconstruction for CTP with unaltered acquisition protocol gives relative perfusion values without clinically relevant bias. It does however affect absolute perfusion values, of which CBF and CBV are most sensitive. Partial volume effects in large arteries and veins lead to overestimation of these values. The effects of reconstruction slice thickness should be taken into account when absolute perfusion values are used for clinical decision making.  相似文献   

14.

Background

CT perfusion (CTP) is used to estimate the extent of ischemic core and penumbra in patients with acute ischemic stroke. CTP reliability, however, is limited. This study aims to identify regions misclassified as ischemic core on CTP, using infarct on follow-up noncontrast CT. We aim to assess differences in volumetric and perfusion characteristics in these regions compared to areas that ended up as infarct on follow-up.

Materials and Methods

This study included 35 patients with >100 mm brain coverage CTP. CTP processing was performed using Philips software (IntelliSpace 7.0). Final infarct was automatically segmented on follow-up noncontrast CT and used as reference. CTP and follow-up noncontrast CT image data were registered. This allowed classification of ischemic lesion agreement (core on CTP: rMTT≥145%, aCBV<2.0 ml/100g and infarct on follow-up noncontrast CT) and misclassified ischemic core (core on CTP, not identified on follow-up noncontrast CT) regions. False discovery ratio (FDR), defined as misclassified ischemic core volume divided by total CTP ischemic core volume, was calculated. Absolute and relative CTP parameters (CBV, CBF, and MTT) were calculated for both misclassified CTP ischemic core and ischemic lesion agreement regions and compared using paired rank-sum tests.

Results

Median total CTP ischemic core volume was 49.7ml (IQR:29.9ml-132ml); median misclassified ischemic core volume was 30.4ml (IQR:20.9ml-77.0ml). Median FDR between patients was 62% (IQR:49%-80%). Median relative mean transit time was 243% (IQR:198%-289%) and 342% (IQR:249%-432%) for misclassified and ischemic lesion agreement regions, respectively. Median absolute cerebral blood volume was 1.59 (IQR:1.43–1.79) ml/100g (P<0.01) and 1.38 (IQR:1.15–1.49) ml/100g (P<0.01) for misclassified ischemic core and ischemic lesion agreement, respectively. All CTP parameter values differed significantly.

Conclusion

For all patients a considerable region of the CTP ischemic core is misclassified. CTP parameters significantly differed between ischemic lesion agreement and misclassified CTP ischemic core, suggesting that CTP analysis may benefit from revisions.  相似文献   

15.
目的:评价在CT三维重建上测量重度先天性脊柱侧凸Cobb角度的可重复性和可靠性。方法:收集在我院诊治的重度先天性脊柱侧凸病人的CT三维重建和脊柱全长X线片,共计67例。由五名不同测量者对CT三维重建脊柱畸形冠状面主弯Cobb角测量两次,两次间隔在三周以上,并测量脊柱全长X线片脊柱畸形冠状面主弯Cobb角一次,运用组内相关系数分析测量结果之间的可重复性和可靠性。结果:同一测量者两次测量结果之间的差值平均为4.5°。同一测量者两次测量结果之间的组内相关系数为0.969,不同测量者之间测量结果的组内相关系数为0.913。取五名测量者在CT三维重建上第一次测量的Cobb角度,其平均值为(110.5±23.5)°,五名测量者在X线片上测量结果的平均值为(103.1±22.0)°,对两组数据进行Mann-Whitney非参数检验差异有统计学意义(Z=-2.86,P=0.004)。结论:在CT三维重建上测量重度先天性脊柱侧凸的Cobb角,可以减小测量的误差,提高测量的可重复性和可靠性,是一种相对准确的测量方法。  相似文献   

16.

OBJECTIVES

This study evaluates the repeatability of brain perfusion using dynamic susceptibility contrast magnetic resonance imaging (DSC-MRI) with a variety of post-processing methods.

METHODS

Thirty-two patients with newly diagnosed glioblastoma were recruited. On a 3-T MRI using a dual-echo, gradient-echo spin-echo DSC-MRI protocol, the patients were scanned twice 1 to 5 days apart. Perfusion maps including cerebral blood volume (CBV) and cerebral blood flow (CBF) were generated using two contrast agent leakage correction methods, along with testing normalization to reference tissue, and application of arterial input function (AIF). Repeatability of CBV and CBF within tumor regions and healthy tissues, identified by structural images, was assessed with intra-class correlation coefficients (ICCs) and repeatability coefficients (RCs). Coefficients of variation (CVs) were reported for selected methods.

RESULTS

CBV and CBF were highly repeatable within tumor with ICC values up to 0.97. However, both CBV and CBF showed lower ICCs for healthy cortical tissues (up to 0.83), healthy gray matter (up to 0.95), and healthy white matter (WM; up to 0.93). The values of CV ranged from 6% to 10% in tumor and 3% to 11% in healthy tissues. The values of RC relative to the mean value of measurement within healthy WM ranged from 22% to 42% in tumor and 7% to 43% in healthy tissues. These percentages show how much variation in perfusion parameter, relative to that in healthy WM, we expect to observe to consider it statistically significant. We also found that normalization improved repeatability, but AIF deconvolution did not.

CONCLUSIONS

DSC-MRI is highly repeatable in high-grade glioma patients.  相似文献   

17.
PurposeAlthough cerebral perfusion alterations have long been acknowledged in multiple sclerosis (MS), the relationship between measurable perfusion changes and the status of highly active MS has not been examined. We hypothesized that alteration of perfusion can be detected in normal appearing white matter and is increased in high inflammatory patients.ResultsThirteen patients were classified as high-inflammatory. Compared to low-inflammatory patients, the high-inflammatory group demonstrated significantly higher CBV (p = 0.001) and CBF (p = 0.014) values. A mixed model analysis to assess independent variables associated with CBV and CBF revealed that white matter lesion load and atrophy measurements had no significant influence on CBF and CBV.ConclusionThis work provides evidence that high inflammatory lesion load is associated with increased CBV and CBF, underlining the role of global modified microcirculation prior to leakage of the blood-brain barrier in the pathophysiology of MS. Perfusion changes might therefore be sensitive to active inflammation apart from lesion development without local blood–brain barrier breakdown, and could be utilized to further assess the metabolic aspect of current inflammation.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号