Intravascular photoacoustic and optical coherence tomography imaging dual-mode system for detecting spontaneous coronary artery dissection: A feasibility study

In this work,we present an intravascular dual-mode endoscopic system capable of both intravascular photoacoustic imaging(IVPAI)and intravascular optical coherence tomography(IVOCT)for recognizing spontaneous coronary artery dissection(SCAD)phantoms.IVPAI provides high-resolution and high-penetration images of intramural hematoma(IMH)at different depths,so it is especially useful for imaging deep blood clots associated with imaging phantoms.IVOCT can readily visualize the double-lumen morphology of blood vessel walls to identify intimal tears.We also demonstrate the capability of this dual-mode endoscopic system using mimicking phantoms and biological samples of blood clots in ex vivo porcine arteries.The results of the experiments indicate that the combined IVPAI and IVOCT technique has the potential to provide a more accurate SCAD assessment method for clinical applications.

Triple-path feature transform network for ring-array photoacoustic tomography image reconstruction

Photoacoustic imaging(PAI)is a noninvasive emerging imaging method based on the photoacoustic effect,which provides necessary assistance for medical diagnosis.It has the characteristics of large imaging depth and high contrast.However,limited by the equipment cost and reconstruction time requirements,the existing PAI systems distributed with annular array transducers are difficult to take into account both the image quality and the imaging speed.In this paper,a triple-path feature transform network(TFT-Net)for ring-array photoacoustic tomography is proposed to enhance the imaging quality from limited-view and sparse measurement data.Specifically,the network combines the raw photoacoustic pressure signals and conventional linear reconstruction images as input data,and takes the photoacoustic physical model as a prior information to guide the reconstruction process.In addition,to enhance the ability of extracting signal features,the residual block and squeeze and excitation block are introduced into the TFT-Net.For further efficient reconstruction,the final output of photoacoustic signals uses‘filter-then-upsample’operation with a pixel-shuffle multiplexer and a max out module.Experiment results on simulated and in-vivo data demonstrate that the constructed TFT-Net can restore the target boundary clearly,reduce background noise,and realize fast and high-quality photoacoustic image reconstruction of limited view with sparse sampling.

Characterization of cerebrovascular changes in Alzheimer's disease mice by photoacoustic imaging

The cerebral vasculature plays a significant role in the development of Alzheimer's disease(AD),however,the specific association between them remains unclear.In this paper,based on the benefits of photoacoustic imaging(PAI),including label-free,high-resolution,in vivo imaging of vessels,we investigated the structural changes of cerebral vascular in wild-type(WT)mice and AD mice at different ages,analyzed the characteristics of the vascular in different brain regions,and correlated vascular characteristics with cognitive behaviors.The results showed that vascular density and vascular branching index in the cortical and frontal regions of both WT and AD mice decreased with age.Meanwhile,vascular lacunarity increased with age,and the changes in vascular structure were more pronounced in AD mice.The trend of vascular dysfunction aligns with the worsening cognitive dysfunction as the disease progresses.Here,we utilized in vivo PAI to analyze the changes in vascular structure during the progression of AD,elucidating the spatial and temporal correlation with cognitive impairment,which will provide more intuitive data for the study of the correlation between cerebrovascular and the development of AD.

Isoindigo nanoparticles for photoacoustic imaging-guided tumor photothermal therapy

The key factor in photothermal therapy lies in the selection of photothermal agents.Traditional photothermal agents generally have problems such as poor photothermal stability and low photothermal conversion efficiency.Herein,we have designed and synthesized an isoindigo(IID)dye.We used isoindigo as the molecular center and introduced common triphenylamine and methoxy groups as rotors.In order to improve the photothermal stability and tumor targeting ability,we encapsulated IID into nanoparticles.As a result,the nanoparticles exhibited high photothermal stability and photothermal conversion efficiency(67%)upon 635 nm laser irradiation.Thus,the nanoparticles demonstrated a significant inhibitory effect on live tumors in photothermal therapy guided by photoacoustic imaging and provided a viable strategy to overcome the treatment challenges.

Photoacoustic elastography based on laser-excited shear wave

Elastography can be used as a diagnostic method for quantitative characterization of tissue hardness information and thus,differential changes in pathophysiological states of tissues.In this study,we propose a new method for shear wave elastography(SWE)based on laser-excited shear wave,called photoacoustic shear wave elastography(PASWE),which combines photoacoustic(PA)technology with ultrafast ultrasound imaging.By using a focused laser to excite shear waves and ultrafast ultrasonic imaging for detection,high-frequency excitation of shear waves and noncontact elastic imaging can be realized.The laser can stimulate the tissue with the light absorption characteristic to produce the thermal expansion,thus producing the shear wave.The frequency of shear wave induced by laser is higher and the frequency band is wider.By tracking the propagation of shear wave,Young’s modulus of tissue is reconstructed in the whole shear wave propagation region to further evaluate the elastic information of tissue.The feasibility of the method is verified by experiments.Compared with the experimental results of supersonic shear imaging(SSI),it is proved that the method can be used for quantitative elastic imaging of the phantoms.In addition,compared with the SSI method,this method can realize the noncontact excitation of the shear wave,and the frequency of the shear wave excited by the laser is higher than that of the acoustic radiation force(ARF),so the spatial resolution is higher.Compared to the traditional PA elastic imaging method,this method can obtain a larger imaging depth under the premise of ensuring the imaging resolution,and it has potential application value in the clinical diagnosis of diseases requiring noncontact quantitative elasticity.

Photoacoustic/ultrasound dual-modal imaging of human nails: A pilot study

Traditional diagnostic techniques including visual examination,ultrasound(US),and magnetic resonance imaging(MRI)have limitations of in-depth information for the detection of nail disorders,resolution,and practicality.This pilot study,for thefirst time,evaluates a dualmodality imaging system that combines photoacoustic tomography(PAT)with the US for the multiparametric quantitative assessment of human nail.The study involved a small cohort offive healthy volunteers who underwent PAT/US imaging for acquiring the nail unit data.The PAT/US dual-modality imaging successfully revealed thefine anatomical structures and microvascular distribution within the nail and nail bed.Moreover,this system utilized multispectral PAT to analyze functional tissue parameters,including oxygenated hemoglobin,deoxyhemoglobin,oxygen saturation,and collagen under tourniquet and cold stimulus tests to evaluate changes in the microcirculation of the nail bed.The quantitative analysis of multispectral PAT reconstructed images demonstrated heightened sensitivity in detecting alterations in blood oxygenation levels and collagen content within the nail bed,under simulated different physiological conditions.This pilot study highlights the potential of PAT/US dual-modality imaging as a real-time,noninvasive diagnostic modality for evaluating human nail health and for early detection of nail bed pathologies.

A promising approach for quantifying focal stroke modeling and assessing stroke progression:optical resolution photoacoustic microscopy photothrombosis

To investigate the mechanisms underlying the onset and progression of ischemic stroke,some methods have been proposed that can simultaneously monitor and create embolisms in the animal cerebral cortex.However,these methods often require complex systems and the effect of age on cerebral embolism has not been adequately studied,although ischemic stroke is strongly age-related.In this study,we propose an optical-resolution photoacoustic microscopy-based visualized photothrombosis methodology to create and monitor ischemic stroke in mice simultaneously using a 532 nm pulsed laser.We observed the molding process in mice of different ages and presented age-dependent vascular embolism differentiation.Moreover,we integrated optical coherence tomography angiography to investigate age-associated trends in cerebrovascular variability following a stroke.Our imaging data and quantitative analyses underscore the differential cerebrovascular responses to stroke in mice of different ages,thereby highlighting the technique's potential for evaluating cerebrovascular health and unraveling age-related mechanisms involved in ischemic strokes.

Photoacoustic microscopy based on transparent piezoelectric ultrasound transducers

Photoacoustic microscopy(PAM),due to its deep penetration depth and high contrast,is playing an increasingly important role in biomedical imaging.PAM imaging systems equipped with conventional ultrasound transducers have demonstrated excellent imaging performance.However,these opaque ultrasonic transducers bring some constraints to the further development and application of PAM,such as complex optical path,bulky size,and difficult to integrate with other modalities.To overcome these problems,ultrasonic transducers with high optical transparency have appeared.At present,transparent ultrasonic transducers are divided into optical-based and acoustic-based sensors.In this paper,we mainly describe the acoustic-based piezoelectric transparent transducers in detail,of which the research advances in PAM applications are reviewed.In addition,the potential challenges and developments of transparent transducers in PAM are also demonstrated.

新型^(18)F-FES PET/CT无创功能性诊断乳腺癌迟发性肺转移致霍纳综合征一例

激素受体阳性、人表皮生长因子受体2型阴性(HR^(+)/HER2^(-))乳腺癌是最常见的乳腺癌分子亚型,可表现为术后10~15年以上的迟发性复发,且其肺转移病灶需与原发性肺癌相鉴别。本文报道1例HR^(+)/HER2^(-)乳腺癌术后16年迟发性肺转移致霍纳综合征患者,采用^(18)F-FDG PET/CT难以判断肿瘤来源,穿刺活检风险高,经北京协和医院新型^(18)F-FES PET/CT无创功能性诊断为乳腺癌肺上叶雌激素受体(estrogen receptor,ER)阳性转移,给予CDK4/6抑制剂+芳香化酶抑制剂内分泌解救治疗后获得缓解。本文总结该患者的临床表现及诊治经过,为新型^(18)F-FES PET/CT评估乳腺癌患者转移灶的ER表达情况及指导后续个体化诊疗提供借鉴。

CT血管成像对ACI患者颈动脉狭窄程度及侧支循环的价值研究

目的分析、探究CT血管成像技术在ACI患者颈动脉狭窄、侧支循环等病情诊断方面的成效。方法对我院2021.3-2022.3月期间收治的100例急性脑梗死(ACI)患者一般病理资料进行回顾性分析,以数字减影血管造影(DSA)结果为诊断金标准,对CT血管成像技术(CTA)的诊断价值进行分析,以临床出具的数字减影血管造影(DSA)结果为金标准,分析CT血管成像技术(CTA)在临床上的诊断价值,评估此技术在临床诊断中的效能。结果与临床金标准相比,CTA诊断技术具有较高的临床评估价值[Kappa>0.8~1.0,曲线下面积(AUC)>0.9,P<0.01];CTA诊断技术在评估颈动脉狭窄程度等方面与临床金标准具有一定的一致性[Kappa>0.6~0.8,曲线下面积(AUC)>0.7~0.9,P<0.01];而在评估侧支循环临床诊断中,CTA诊断技术与临床金标准具有一致性,具有较高的评估价值[Kappa>0.8~1.0,曲线下面积(AUC)>0.9,P<0.01]。结论以临床“金标准”的诊断结果为依据分析,CTA诊断技术能够对ACI患者出现病变的血管形态及侧支循环状态等进行全面的评估,CTA诊断结果可为治疗工作提供准确性相对较高且客观的医学依据,确实是评估ACI患者颈动脉狭窄程度、侧支循环状态的可靠办法;而与DSA技术相比,CTA与之具有较高的一致性,说明在病情发作早期为ACI患者实施CTA检查可获悉颈动脉的狭窄及侧支循环状态,有利于改善患者群体的预后。

CT灌注成像参数对急性脑梗死侧支循环的评估价值及与术后近期预后的相关性

目的探讨CT灌注成像(CTPI)参数对急性脑梗死(ACI)侧支循环的评估价值及与术后近期预后的相关性。方法选取我院2022年1月-2023年2月收治的106例ACI患者,以数字血管造影(DSA)作为诊断“金标准”,将其分有侧支循环组(46例)与无侧支循环组(60例)。两组患者均进行CTPI检查,对比两组受试者CTPI参数[脑血容量(CBV)、脑血流量(CBF)、平均通过时间(MTT)及达峰时间(TTP)],采用受试者工作特征(ROC)曲线分析CTPI参数对ACI侧支循环的预测价值;比较CTPI参数评估急性缺血性脑梗死侧支循环与DSA检查的一致性;采用Pearson相关性分析ACI患者的CTPI参数与美国国立卫生研究院卒中量表(NIHSS)、改良Ranking量表(mRS)评分的相关性。结果有侧支循环组CBV、CBF均高于无侧支循环组(P<0.05),MTT、TTP均低于无侧支循环组(P<0.05)。ROC曲线分析显示,CBV、CBF、MTT、TTP及联合检测对ACI侧支循环均有预测效能(P<0.05),其AUC分别为0.793、0.705、0.841、0.669、0.879,单独检测中MTT效能最高,但仍低于联合检测效能。CTPI参数联合检查对ACI侧支循环的诊断灵敏性为84.78%、特异性为90.00%、准确率为87.74%、阳性预测值为86.67%、阴性预测值为88.52%、Kappa值为0.750。有侧支循环组NIHSS、mRS评分均低于无侧支循环组(P<0.05);Pearson相关分析发现,CBV、CBF与NIHSS、mRS评分呈负相关(P<0.05),MTT、TTP与NIHSS、mRS评分呈正相关(P<0.05)。结论ACI有侧支循环患者的CBV、CBF均较无侧支循环患者高,MTT、TTP均较无侧支循环患者低,CTPI参数用于评估ACI侧支循环具有较高的诊断效能,且有侧支循环患者近期预后较好,同时CBV、CBF、MTT、TTP与ACI患者近期预后均存在相关性,可通过检测CBV、CBF、MTT、TTP预测患者近期预后。

双能量CT非线性融合和噪声优化的虚拟单能量图像技术在喉鳞状细胞癌中的应用

目的:探讨双能量CT线性融合图像(linear blending imaging,LBI)、非线性融合图像(nonlinear blending image,NBI)和噪声优化的虚拟单能量图像(noise-optimized virtual monoenergetic image,VMI+)技术在喉鳞状细胞癌中的应用价值。方法:回顾性分析2019年6月至2022年3月61例经病理证实为喉鳞状细胞癌患者的双能量CT资料。双能量图像采用LBI[融合系数为1(80 kV)和0.6(M0.6)]、NBI和VMI+(40 keV、55 keV)技术重建。比较5组图像的客观图像质量[对比噪声比(contrast-tonoise ratio,CNR)、肿瘤CT值、噪声]和主观图像质量(肿瘤边界评分和整体图像质量评分)。结果:40 keV的CNR、肿瘤CT值和肿瘤边界评分均明显高于80 kV、M0.6、NBI和55 keV,差异均有统计学意义(均P<0.05)。NBI的整体图像质量评分明显高于80 kV、M0.6、40 keV和55 keV,差异均有统计学意义(均P<0.05)。NBI的噪声明显低于80 kV、40 keV和55 keV,差异均有统计学意义(均P<0.05)。结论:在喉鳞状细胞癌的双能量CT中,采用VMI+技术(40 keV)能提供更好的CNR、肿瘤CT值和肿瘤边界,采用NBI技术能提供更低的噪声和更好的整体图像质量。

乳腺癌患者腋窝淋巴结转移的危险因素及行X线摄影与CT检查的诊断效能分析

目的:探讨乳腺癌患者腋窝淋巴结转移的危险因素及X线与CT检查的诊断效能比较。方法:选取2021年1月至2023年5月在我院治疗的乳腺癌患者112例,分析发生和未发生腋窝淋巴结转移患者临床资料差异;同时分析X线、CT检查诊断腋窝淋巴结转移的价值。结果:112例患者中,腋窝淋巴结转移患者32例,腋窝淋巴结转移率为28.57%;发生腋窝淋巴结转移患者组织低分化比例、组织类型为浸润性癌比例、有脉管浸润比例、肿瘤直径≥5cm比例、组织Ki-67表达≥14%比例分别为68.75%、90.63%、28.13%、31.25%和84.38%,明显高于未发生腋窝淋巴结转移患者(P<0.05);Logistic回归分析显示:分化程度、病灶组织类型、脉管浸润、Ki-67表达是乳腺癌患者发生腋窝淋巴结转移的影响因素(P<0.05);X线诊断腋窝淋巴结转移与病理结果一致性Kappa值为0.500,P<0.05,一致性较差;CT诊断腋窝淋巴结转移与病理结果一致性Kappa值为0.825,P<0.05,一致性较好;CT诊断腋窝淋巴结转移的准确性、灵敏性和阴性预测值分别为92.86%、87.50%和95.00%,明显高于X线检查(P<0.05)。结论:乳腺癌患者腋窝淋巴结转移受分化程度、病灶组织类型、脉管浸润、Ki-67表达的影响;相较于X线,CT诊断腋窝淋巴结转移的价值较高。

一种新的术中X线与术前CT图像配准方法

目的本研究旨在配准胸主动脉血管内修复术(thoracic endovascular aortic repair,TEVAR)术中X线与术前CT图像,为TEVAR支架植入提供精确安全的导航。然而,现有配准算法存在无法有效弥合投影CT图像生成的数字重建影像(digitally reconstructed radiography,DRR)与X线图像之间的域间差异和难以获得图像分割标签的问题。因此,需要提出新的方法来改善这一问题。方法本文提出了一种新的配准框架,该框架结合了基于生成对抗网络(generative adversarial network,GAN)的域自适应网络和基于Transformer的配准网络。基于GAN的域自适应网络将X线图像的风格迁移到DRR图像上,使两者在图像风格上更接近。基于Transformer的配准网络采用CNN与跨模态变换器(cross-modality transformer,CMT)相结合的模式,直接配准X线与CT图像,无需进行图像分割。结果本文在208对标定的TEVAR术中X线与CT图像对上对新的配准方法进行了验证。与其他域适应方法相比,本文所采用的CycleGAN网络作为风格转换模块,有效减小了DRR图像与X线图像之间的域间差异。消融实验结果进一步证实,配准网络中的全局局部感知模块(global-local perception module,GLPM)对提高配准精度具有明显作用,而空间缩减(spatial reduction,SR)则有效缩短了配准时间。通过对比现有方法和本文方法在真实患者X线与CT图像对上的配准效果,本文的方法在配准精度和成功率方面均表现出最佳性能。结论本文提出的新的X线与CT图像配准方法有效克服了现有方法存在的域间差异以及难以获得分割标签的问题。

^(99m)TcO4-SPECT/CT甲状腺核素显像联合超声及TSH对甲状腺结节性质的诊断价值

目的通过高锝酸钠-单光子发射计算机断层显像/电子计算机X射线断层扫描技术(^(99m)TcO4-SPECT/CT)核素显像提供甲状腺结节功能状态、结节解剖特点以及超声检查联合血清促甲状腺激素(TSH)水平进一步鉴别诊断甲状腺结节的良恶性,客观评价甲状腺结节的良恶性情况,对甲状腺结节的良恶性做出早期诊断。方法对因甲状腺结节同时行^(99m)TcO4-SPECT/CT甲状腺核素显像、甲状腺B超及TSH水平检查的患者共80例(92个结节)进行回顾性分析,对比不同方法及联合检查对甲状腺结节的诊断效能。结果92个结节中良性74个,恶性18个;^(99m)TcO4-SPECT/CT甲状腺显像与超声检查比较灵敏度(77.8%)高,特异度(70.2%)及准确度(71.7%)低,假阳性率(29.7%)高,假阴性率(22.2%)低,两者之间灵敏度、特异度、准确度、假阳性率、假阴性率差异均具有统计学意义(P<0.05);两者准确度比较差异无统计学意义(P>0.05)。^(99)mTcO4-SPECT/CT甲状腺显像与超声检查比较灵敏度高,特异性及准确度低,假阳性率高,假阴性率低,两者之间灵敏度、特异度、准确度、假阳性率、假阴性率差异均具有统计学意义(P<0.05);两者准确度比较差异无统计学意义(P>0.05);^(99m)TcO4-SPECT/CT甲状腺显像与超声检查联合较单独核素、单独超声检查灵敏度(88.9%)、特异度(87.8%)、准确度(81.5%)高,假阳性率(12.1%)、假阴性率(11.1%)低;联合检查与单独核素特异度、准确度、假阳性率比较差异有统计学意义(P<0.05),灵敏度与假阴性率比较差异无统计学意义(P>0.05);联合检查与单独超声灵敏度、准确度、假阴性率比较差异有统计学意义(P<0.05);特异度与假阳性率比较差异无统计学意义(P>0.05)。结论超声可以作为甲状腺结节的首选检查方法,其特异性高,但灵敏度低。^(99m)TcO4-SPECT/CT甲状腺显像在提供功能和代谢信息的同时,能提供解剖信息;而血清TSH水平则可为甲状腺结节的良恶性鉴别提供重要的参考依据,尤其对于核素冷结节且超声实性结节的患者,更应参考其TSH水平,将三者结合起来判断甲状腺结节的性质,为临床提供恰当的治疗方案,这具有重要意义。

术中滑轨CT辅助在经皮骶髂关节螺钉治疗骨盆后环损伤中的应用

目的:比较术中滑轨CT联合C形臂X线机辅助与单纯使用C形臂X线机辅助透视下经皮骶髂关节螺钉治疗骨盆后环损伤临床疗效。方法:自2018年12月至2022年2月收治76例骨盆后环损伤患者,其中,C形臂联合滑轨CT辅助下行内固定治疗39例为CT组,男23例,女16例,年龄(44.98±7.33)岁;仅在C形臂透视下行内固定治疗37例为C形臂组,男24例,女13例,年龄(44.37±10.82)岁。合并有前环骨折患者42例,均采用经皮髂前下棘内置外固定架(internal fixation,INFIX)或耻骨上支螺钉固定骨盆前环。术后比较两组随访时间、置钉时间、并发症。比较两组Matta复位评价、Majeed疗效评价、CT分级及二次手术翻修率。结果:CT组置钉时间(32.63±7.33) min,短于C形臂组(52.95±10.64) min(t=-9.739,P<0.05)。CT组随访时间(11.97±1.86)个月,C形臂组(12.03±1.71)个月,两组比较差异无统计学意义(P>0.05)。两组术后并发症发生比较,差异无统计学意义(χ~2=0.159,P>0.05)。CT组Matta复位评价结果(Z=2.79,P<0.05)、Majeed疗效评价结果(Z=2.79,P<0.05)、CT分级(Z=2.83,P<0.05)均优于C形臂组。CT组二次手术翻修率低于C形臂组(χ~2=5.641,P<0.05)。结论:术中滑轨CT联合C形臂辅助下经皮骶髂关节螺钉置入手术与传统C形臂透视相比,具有手术时间短、准确度及安全性高、术后二次翻修率显著下降等特点,是重建骨盆骨折后环稳定性的有效方法之一。

冠状动脉CT血管造影预测冠心病患者发生左心室重构及远期心血管不良事件的价值

目的分析冠状动脉CT血管造影预测冠心病患者发生左心室重构及远期心血管不良事件的价值。方法选取郑州大学第一附属医院2021年1月至2022年7月诊治的120例冠心病患者,随访1 a,根据左心室重构发生情况分为左心室重构组(26例)、无左心室重构组(94例),根据心血管不良事件发生情况分为发生组(24例)、未发生组(96例)。比较不同组别患者冠状动脉CT血管造影结果,分析冠状动脉CT血管造影预测冠心病患者发生左心室重构及远期心血管不良事件的价值。结果左心室重构组、无左心室重构组在冠状动脉管腔狭窄程度和高危斑块特征方面的差异有统计学意义(P<0.05)。发生组、未发生组斑块总体积、钙化斑块体积、非钙化斑块体积、病变长度、斑块负荷比较,差异有统计学意义(P<0.05)。受试者工作特征(ROC)曲线分析显示,冠状动脉CT血管造影在预测冠心病患者发生左心室重构及远期心血管不良事件中具有较高的价值。结论冠状动脉CT血管造影在预测冠心病患者发生左心室重构及远期心血管不良事件中具有较高的价值。

胸腹部平扫CT值用于机会性筛查骨质疏松的可行性

目的:基于定量CT(QCT)探讨胸部常规kVp平扫和腹部能谱GSI平扫下椎体CT值用于机会性筛查骨质疏松的可行性。方法:前瞻性收集接受胸腹部平扫的患者431例,胸部CT扫描采用常规120 kVp,腹部扫描采用能谱(GSI)模式。对胸腹部扫描重叠的T11~L1椎体进行分析。使用QCT骨密度测量工作站测得胸部常规120 kVp下T11~L1椎体的骨密度(BMD),同时分别测量胸部120 kVp与腹部GSI扫描70 keV单能量下T11~L1椎体的CT值。采用组内相关系数(ICC)评估数据测量的一致性,Spearman相关性检验分析椎体BMD值与CT值之间的相关性。不同椎体间CT值差异采用Friedman秩和检验。参考QCT诊断标准,将椎体分为骨质疏松、骨量减少和骨量正常组,采用Kruskal-Wallis比较三组间及组内CT值差异。组内120 kVp-CT值和GSI-CT值采用Wilcoxon秩和检验。以T11~L1椎体BMD均值行骨质状态判定,采用受试者操作特征(ROC)曲线分析椎体CT值评估骨质状态的诊断效能。结果:椎体BMD与120 kVp-CT值和GSI-CT值均呈正相关(r=0.976、0.963,P<0.001)。120 kVp和GSI下T11~L1椎体CT值依次为T11[144.00(72.00)、158.00(79.00)]、T12[137.00(67.00)、150.00(76.00)]、L1[128.00(67.00)、137.00(74.00)],不同椎体及椎体内差异均有统计学意义(P<0.001)。431例患者共1293个椎体,骨量正常组椎体496个、骨量减少组椎体415个、骨质疏松组椎体382个。120 kVp和GSI下骨量正常、骨量减少和骨质疏松组椎体CT值依次为[181.50(43.67)、199.65(48.57)]、[132.20(18.50)、144.00(23.00)]和[87.75(22.20)、93.30(27.20)],不同骨质状态组间椎体CT值差异有统计学意义(P<0.05),且各组组内椎体GSI-CT值均高于椎体120 kVp-CT值(P<0.05)。120 kVp-CT值与GSI-CT值诊断骨量减少的AUC分别为0.976、0.967,差异无统计学意义(P=0.0937);诊断骨质疏松的AUC均为1.000,差异无统计学意义(P=1.000)。结论:胸部常规120 kVp及腹部GSI平扫CT值均可用于机会性筛查骨质疏松,诊断效能良好。

颅脑CT灌注成像及磁共振成像在脑梗死患者中的应用

目的分析颅脑CT灌注成像及磁共振成像对脑梗死患者的诊断价值。方法选取2022-03—2023-05在江苏省中西医结合医院就诊的80例疑似脑梗死患者为研究对象,对比分析GE Revolution CT颅脑灌注成像、磁共振成像及联合检查的敏感性、特异性、准确性,制作3种影像学检查的受试者工作特征(ROC)曲线。结果根据患者病情和临床综合诊断确诊,80例疑似脑梗死患者中脑梗死阳性69例(86.25%),脑梗死阴性11例(13.75%)。3种影像学检查方法的灵敏度、准确率比较,从高到低依次为联合检查、GE Revolution CT颅脑灌注成像检查、磁共振成像检查,差异有统计学意义(P<0.05)。GE Revolution CT颅脑灌注成像检查、磁共振成像检查、联合检查诊断脑梗死的ROC曲线下面积(AUC)分别为0.8109、0.7688、0.8682。结论GE Revolution CT颅脑灌注成像与磁共振成像检查的联合应用,有利于提高脑梗死患者诊断的灵敏度、准确率及AUC水平。

一站式CTA联合CTP扫描在急性脑梗死患者临床诊断中的应用价值分析

目的 探讨一站式CT血管成像(CTA)联合CT灌注成像(CTP)扫描在急性脑梗死患者临床诊断中的应用价值。方法 选取2020年8月~2021年8月期间医院收治的急性脑梗死患者63例,均进行一站式CTA联合CTP扫描检查,分析患者梗死区、缺血半暗带区以及相应对侧区CTP检查参数,并分析患者血管狭窄程度与灌注异常以及侧支循环形成的关系。结果63例急性脑梗死患者CTP检查均发现脑血流灌注异常,梗死区患侧CBF、 CBV低于对侧区(P<0.05),TTP较对侧区无限延迟;缺血半暗带区患侧CBF低于对侧区(P<0.05),TTP高于对侧区(P<0.05),CBV与对侧区无显著差异(P>0.05)。63例急性脑梗死患者中,轻度、中度、重度狭窄以及闭塞患者分别为31例、24例、6例和2例,其中22例侧支循环形成,且有梗死区、缺血半暗带区以及侧支循环形成的患者比例伴随血管狭窄程度的加剧而逐渐增多(P<0.05)。结论 CTP检查能够快速、准确地区分梗死区与缺血半暗带区,CTA可对供血动脉狭窄程度及闭塞情况进行评估,一站式CTA联合CTP扫描在急性脑梗死患者临床诊断中具有重要的指导价值。