Rock mass quality prediction on tunnel faces with incomplete multi-source dataset via tree-augmented naive Bayesian network

Rock mass quality serves as a vital index for predicting the stability and safety status of rock tunnel faces.In tunneling practice,the rock mass quality is often assessed via a combination of qualitative and quantitative parameters.However,due to the harsh on-site construction conditions,it is rather difficult to obtain some of the evaluation parameters which are essential for the rock mass quality prediction.In this study,a novel improved Swin Transformer is proposed to detect,segment,and quantify rock mass characteristic parameters such as water leakage,fractures,weak interlayers.The site experiment results demonstrate that the improved Swin Transformer achieves optimal segmentation results and achieving accuracies of 92%,81%,and 86%for water leakage,fractures,and weak interlayers,respectively.A multisource rock tunnel face characteristic(RTFC)dataset includes 11 parameters for predicting rock mass quality is established.Considering the limitations in predictive performance of incomplete evaluation parameters exist in this dataset,a novel tree-augmented naive Bayesian network(BN)is proposed to address the challenge of the incomplete dataset and achieved a prediction accuracy of 88%.In comparison with other commonly used Machine Learning models the proposed BN-based approach proved an improved performance on predicting the rock mass quality with the incomplete dataset.By utilizing the established BN,a further sensitivity analysis is conducted to quantitatively evaluate the importance of the various parameters,results indicate that the rock strength and fractures parameter exert the most significant influence on rock mass quality.

Multi-source heterogeneous data access management framework and key technologies for electric power Internet of Things

The power Internet of Things(IoT)is a significant trend in technology and a requirement for national strategic development.With the deepening digital transformation of the power grid,China’s power system has initially built a power IoT architecture comprising a perception,network,and platform application layer.However,owing to the structural complexity of the power system,the construction of the power IoT continues to face problems such as complex access management of massive heterogeneous equipment,diverse IoT protocol access methods,high concurrency of network communications,and weak data security protection.To address these issues,this study optimizes the existing architecture of the power IoT and designs an integrated management framework for the access of multi-source heterogeneous data in the power IoT,comprising cloud,pipe,edge,and terminal parts.It further reviews and analyzes the key technologies involved in the power IoT,such as the unified management of the physical model,high concurrent access,multi-protocol access,multi-source heterogeneous data storage management,and data security control,to provide a more flexible,efficient,secure,and easy-to-use solution for multi-source heterogeneous data access in the power IoT.

Runout prediction of potential landslides based on the multi-source data collaboration analysis on historical cases

Long runout landslides involve a massive amount of energy and can be extremely hazardous owing to their long movement distance,high mobility and strong destructive power.Numerical methods have been widely used to predict the landslide runout but a fundamental problem remained is how to determine the reliable numerical parameters.This study proposes a framework to predict the runout of potential landslides through multi-source data collaboration and numerical analysis of historical landslide events.Specifically,for the historical landslide cases,the landslide-induced seismic signal,geophysical surveys,and possible in-situ drone/phone videos(multi-source data collaboration)can validate the numerical results in terms of landslide dynamics and deposit features and help calibrate the numerical(rheological)parameters.Subsequently,the calibrated numerical parameters can be used to numerically predict the runout of potential landslides in the region with a similar geological setting to the recorded events.Application of the runout prediction approach to the 2020 Jiashanying landslide in Guizhou,China gives reasonable results in comparison to the field observations.The numerical parameters are determined from the multi-source data collaboration analysis of a historical case in the region(2019 Shuicheng landslide).The proposed framework for landslide runout prediction can be of great utility for landslide risk assessment and disaster reduction in mountainous regions worldwide.

Multi-Source Data Privacy Protection Method Based on Homomorphic Encryption and Blockchain

Multi-Source data plays an important role in the evolution of media convergence.Its fusion processing enables the further mining of data and utilization of data value and broadens the path for the sharing and dissemination of media data.However,it also faces serious problems in terms of protecting user and data privacy.Many privacy protectionmethods have been proposed to solve the problemof privacy leakage during the process of data sharing,but they suffer fromtwo flaws:1)the lack of algorithmic frameworks for specific scenarios such as dynamic datasets in the media domain;2)the inability to solve the problem of the high computational complexity of ciphertext in multi-source data privacy protection,resulting in long encryption and decryption times.In this paper,we propose a multi-source data privacy protection method based on homomorphic encryption and blockchain technology,which solves the privacy protection problem ofmulti-source heterogeneous data in the dissemination ofmedia and reduces ciphertext processing time.We deployed the proposedmethod on theHyperledger platformfor testing and compared it with the privacy protection schemes based on k-anonymity and differential privacy.The experimental results showthat the key generation,encryption,and decryption times of the proposedmethod are lower than those in data privacy protection methods based on k-anonymity technology and differential privacy technology.This significantly reduces the processing time ofmulti-source data,which gives it potential for use in many applications.

Multi-source Data-driven Identification of Urban Functional Areas:A Case of Shenyang,China

Urban functional area(UFA)is a core scientific issue affecting urban sustainability.The current knowledge gap is mainly reflected in the lack of multi-scale quantitative interpretation methods from the perspective of human-land interaction.In this paper,based on multi-source big data include 250 m×250 m resolution cell phone data,1.81×105 Points of Interest(POI)data and administrative boundary data,we built a UFA identification method and demonstrated empirically in Shenyang City,China.We argue that the method we built can effectively identify multi-scale multi-type UFAs based on human activity and further reveal the spatial correlation between urban facilities and human activity.The empirical study suggests that the employment functional zones in Shenyang City are more concentrated in central cities than other single functional zones.There are more mix functional areas in the central city areas,while the planned industrial new cities need to develop comprehensive functions in Shenyang.UFAs have scale effects and human-land interaction patterns.We suggest that city decision makers should apply multi-sources big data to measure urban functional service in a more refined manner from a supply-demand perspective.

A multi-source information fusion layer counting method for penetration fuze based on TCN-LSTM

When employing penetration ammunition to strike multi-story buildings,the detection methods using acceleration sensors suffer from signal aliasing,while magnetic detection methods are susceptible to interference from ferromagnetic materials,thereby posing challenges in accurately determining the number of layers.To address this issue,this research proposes a layer counting method for penetration fuze that incorporates multi-source information fusion,utilizing both the temporal convolutional network(TCN)and the long short-term memory(LSTM)recurrent network.By leveraging the strengths of these two network structures,the method extracts temporal and high-dimensional features from the multi-source physical field during the penetration process,establishing a relationship between the multi-source physical field and the distance between the fuze and the target plate.A simulation model is developed to simulate the overload and magnetic field of a projectile penetrating multiple layers of target plates,capturing the multi-source physical field signals and their patterns during the penetration process.The analysis reveals that the proposed multi-source fusion layer counting method reduces errors by 60% and 50% compared to single overload layer counting and single magnetic anomaly signal layer counting,respectively.The model's predictive performance is evaluated under various operating conditions,including different ratios of added noise to random sample positions,penetration speeds,and spacing between target plates.The maximum errors in fuze penetration time predicted by the three modes are 0.08 ms,0.12 ms,and 0.16 ms,respectively,confirming the robustness of the proposed model.Moreover,the model's predictions indicate that the fitting degree for large interlayer spacings is superior to that for small interlayer spacings due to the influence of stress waves.

A Web-Based Approach for the Efficient Management of Massive Multi-source 3D Models

Effectively managing extensive,multi-source,and multi-level real-scene 3D models for responsive retrieval scheduling and rapid visualization in the Web environment is a significant challenge in the current development of real-scene 3D applications in China.In this paper,we address this challenge by reorganizing spatial and temporal information into a 3D geospatial grid.It introduces the Global 3D Geocoding System(G_(3)DGS),leveraging neighborhood similarity and uniqueness for efficient storage,retrieval,updating,and scheduling of these models.A combination of G_(3)DGS and non-relational databases is implemented,enhancing data storage scalability and flexibility.Additionally,a model detail management scheduling strategy(TLOD)based on G_(3)DGS and an importance factor T is designed.Compared with mainstream commercial and open-source platforms,this method significantly enhances the loadable capacity of massive multi-source real-scene 3D models in the Web environment by 33%,improves browsing efficiency by 48%,and accelerates invocation speed by 40%.

Evaluation and Improvement Strategies for Slow Traffic Systems Based on Multi-source Big Data:A Case Study of Shijingshan District of Beijing City

The slow traffic system is an important component of urban transportation,and the prerequisite and necessary condition for Beijing to continue promoting“green priority”are establishing a good urban slow traffic system.Shijingshan District of Beijing City is taken as a research object.By analyzing and processing population distribution data,POI data,and shared bicycle data,the shortcomings and deficiencies of the current slow traffic system in Shijingshan District are explored,and corresponding solutions are proposed,in order to provide new ideas and methods for future urban planning from the perspective of data.

急性颅脑损伤患者CT评分变化及血清乳酸、NSE、CRP的相关性分析

目的探讨急性颅脑损伤(ACI)患者计算机断层扫描(CT)评分变化与血清乳酸(LA)、神经元特异性烯醇化酶(NSE)及C-反应蛋白(CRP)水平的关系及其对预后的预测价值。方法选取2020年1月—2022年1月东台市人民医院收治的50例急性颅脑损伤患者作为疾病组,根据患者治疗后格拉斯哥预后评分(GOS)分为预后良好组(32例)和预后不良组(18例);选取50例行健康体检受试者作为健康组。受试者工作特征曲线(ROC)评估血清乳酸、NSE、CRP水平与CT评分对急性颅脑损伤患者预后的评估价值。结果疾病组血清乳酸、NSE、CRP水平均高于健康组(P<0.05);预后不良组乳酸、NSE、CRP水平和CT评分均高于预后良好组;经Spearman相关分析,急性颅内损伤患者血清中乳酸、NSE、CRP水平与CT评分呈正相关(r=0.431、r=0.345、r=0.226,均P<0.05);ROC曲线分析显示,血清乳酸、NSE、CRP水平、CT评分联合预测急性颅内感染预后的曲线下面积(AUC)高于单一指标检测(P<0.05)。结论急性颅脑损伤患者CT评分与患者入院血清乳酸、NSE、CRP水平呈正相关,联合诊断对患者预后评估有一定价值。

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。

南海神狐海域天然气水合物微观赋存特征的超分辨率CT图像识别

南海神狐海域是我国天然气水合物资源勘探开发的主要目标区之一,2017和2020年先后两次现场试验性开采证实了水合物资源的利用前景。目前,对该地区含水合物储层的精细评价还有待进一步提升,水合物在沉积物孔隙空间中的微观赋存形态是其中的重要影响因素。针对水合物微观赋存形态CT图像表征存在的分辨率不足的问题,建立了一种基于自监督学习的数字图像超分辨率重建算法,实现了CT扫描图像空间分辨率的2倍和4倍提升。在此基础上,对南海神狐海域含水合物沉积物孔隙结构演化规律和水合物微观赋存特征进行了形态表征。由于南海沉积物中存在大量有孔虫壳体,水合物主要占据有孔虫壳体内部空间并堵塞了空隙间的连通喉道,显著降低了沉积物的气、水渗透能力;然而,水合物未能全部占据整个孔隙空间,仍然会有少量的气体和水残留,气体则主要分布于水合物颗粒内部,而水则主要分布在水合物颗粒表面,上述实验结果对地震、测井等现场勘探数据解释具有一定的指导意义。

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。

自发性脑出血患者CT征象预测血肿增大的临床价值

目的探究自发性脑出血(sICH)患者CT征象预测血肿增大的临床价值。方法选取我院2020年6月到2023年6月收治的91例sICH患者作为研究对象,患者入院后均行CT平扫及血管成像检查(CTA),分析不同CT征象预测血肿增大的效能。结果91例sICH患者中,发生血肿增大43例(47.25%),未发生血肿增大48例(52.75%);CT平扫出现黑洞征41例(45.05%),混合征50例(54.95%);岛征39例(42.86%);渗漏征33例(48.35%);斑点征45例(49.45%)。CT平扫中黑洞征预测血肿增大的敏感度、特异度分别为51.16%、60.42%;混合征为79.07%、66.67%;岛征为67.44%、79.17%;三者联合为48.84%、89.58%。CTA征象中渗漏征预测血肿增大的敏感度、特异度分别为76.74%、77.08%;斑点征为83.72%、81.25%;二者联合为74.42%、91.67%,其特异度最高。结论CT平扫与CTA征象均可有效预测sICH患者血肿增大,其中CTA斑点征与渗漏征联合预测临床价值最高。

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。

西门子Force双源CT故障维修案例分析与探讨

西门子Force双源CT属于高端CT,设备整体配置高、性能佳、应用范围广、稳定性好,在医院运行中发挥了巨大作用。由于设备使用量大,故障时有发生,且设备集成程度较高、整体维修难度大。本文详细分析了使用过程中发生的水冷系统、患者检查床、探测器电源3例故障的故障排除过程,并通过更换三通阀、维护升降电机轴承、焊接X10接头解决故障,节省了维修费用,并为同行维修此类故障提供参考。

^(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。

基于深度神经网络的机会性CT骨质疏松筛查和骨密度预测研究

目的建立并评价基于机会性CT检查的骨质疏松筛查分类和骨密度值预测的深度学习神经网络模型。方法以定量计算机断层扫描(Quantitative Computed Tomography,QCT)骨密度测定为标准,将199例机会性CT检查数据用于建立密集卷积网络的深度学习神经网络的骨密度二分类模型和骨密度值预测回归模型,以五折交叉验证和随机分组的方法进行测试,并以来自不同设备的42例机会性CT检查病例进行独立测试,计算和评价模型的性能参数。结果受试者工作特征(Receiver Operating Characteristic,ROC)曲线显示:骨密度二分类模型的测试集和独立测试集的ROC曲线下面积均值分别为0.974、0.938,测试集的F1得分、召回率、精准度、特异性、准确度均≥0.91,独立测试集的上述评价参数均>0.862。在训练集、测试集和独立测试集上,骨密度值预测回归模型的平均绝对误差分别为1.42、8.52和13.89,均方根误差分别为1.93、10.80、20.36,预测值与QCT骨密度值呈极强正相关。结论基于机会性CT检查的深度学习神经网络模型对骨密度正常和降低具有较强的分类能力,且可较准确地预测骨密度值,避免多余的辐射风险,减少时间、经济消耗,有效扩大骨质疏松筛查的范围。