Value of low-dose and optimized-length computed tomography(CT)scan in CT-guided percutaneous transthoracic needle biopsy of pulmonary nodules

Objective:To investigate the value of application of low-dose and optimized length CT scan on puncture results,complications and patients’radiation dosage during CT-guided percutaneous biopsy of pulmonary nodules(PTNB).Methods:A total of 231 patients with PTNB under CT guidance were collected.Low dose scanning utilized tube current of 20 mA as compared with 40 mA in conventional dosage.Optimized length in CT is defined as intentionally narrowing the range of CT scanning just to cover 25 mm(5 layers)around the target layer during needle adjustment.According to whether low-dose scans and optimized length scans techniques were utilized,patients were divided into three groups:conventional group(conventional sequence+no optimization),optimized length group(conventional sequence+optimized length),and low-dose optimized length group(low dose sequence+optimized length).The ED(effective dose),the DLP(dose length product),the average CTDIvol(Volume CT dose index),total milliampere second between subgroups were compared.Results:Compared with the conventional group,ED,intraoperative guidance DLP,total milliseconds and operation time in the optimized length group were reduced by 18.2%(P=0.01),37%(P=0.003),17.5%(P=0.013)and13.3%(P=0.021)respectively.Compared with the optimized length group,the ED was reduced by 87%,preoperative positioning,intraoperative guidance and postoperative review DLP were also reduced by 88%,total milliampere second was reduced by 79%,with an average CTDIvol was reduced by 86%,in the low-dose optimized length group(P<0.001 for all).Conclusion:Optimizing the length during CT scanning can effectively reduce the intraoperative radiation dose and reduce the operation time compared with conventional plan;low-dose and optimized length CT scan can further reduce the total radiation dose compared with optimized length group with no differences on intraoperative complications,biopsy results and operation time.

Dose Optimization in Computer Tomography Pediatric Cranial Scans

Background and Objective: Nowadays, Computer Tomography is one of the best radiological imaging technics which can give right diagnostic information, among the detection of multiphasic adenomas, the detection of cardiac, cerebral and vascular abnormalities. Although these good qualities, this technic is too radiant for the patient. In this paper, we based on the irradiation doses delivered from the current protocols to find a practical method of their optimization during the pediatric cranial scan. Materials and Methods: This work relies on a collection of data from patients in the hospitals, so that analyze them, give the conclusions and, propose an optimal practical method to decrease the irradiation doses. To collect data, we performed a prospective study of seventeen months (from December 2017 to May 2019) carried out simultaneously in three hospitals of the city: The Centre Medical la Cathédrale (H1), the Yaoundé Central Hospital (H2) and the Yaoundé Gyneaco-Obstetric and pediatric hospital (H3). This study included a total of 192 cases of cerebral trauma, of which 11 cases excluded for incomplete information. The dosimetry quality control (CTDIvol) using the PMMA phantoms of 16 cm and 32 cm fulfilled. The scanographic parameters of the patient acquisition protocol were recorded and analyzed. Some of those parameters were modified and entered the CT with the help of a biomedical engineer to reduce the delivered dose. The relationship between CTDIvol and kV is statistically significant (p Results: Among patients, 172 are boys, and the remaining 9 are girls all were in the 0 to 15 age group. CTDIvol values varied from 34.2 mGy to 107.8 mGy and PDLs from 107.8 mGy.cm to 2214.5 mGy.cm in H1. In H2, CTDIvol varied from 5.8 mGy to 44 mGy and PDLs from 91.4 mGy.cm to 665.5 mGy.cm. CTDIvol varied between 9.34 mGy to 92.81 mGy and PDLs from 162.38 mGy.cm to 2713.67 mGy.cm in H3. All values are taken at 75th percentile, with or without contrast injection. Conclusion: The implementation of the optimization of protocols requires the display of the CT parameters to use and to respect during the traumatic brain tests. With displaying and respecting protocol, the CTDIvol decreased by almost 50 per cent.

Study of Scanning Dose Optimization on Chest and Abdomen Enhanced CT Imaging

Objective: To investigate the correlation between radiation dose and radiation risk when patients are scanned by 64-slice spiral CT. Materials and Methods: SPSS 17.0 is used statistically for analyzing the patient’s scanning parameters, radiation dose of monitoring and examining the patients who are scanning of their abdomen, chest and pelvic in our affiliated hospital. Results: SPSS statistical analysis shows that the factor related to radiation dose is scanning layer;the basic characteristics such as height and heart rate don’t affect the patient’s scan dose directly. Conclusion: Increasing the delay time after injection can reduce the scan numbers and monitoring layers of the machine, thus reduce the patient’s radiation dose and tube’s exposure time.

Evaluation of Single Field Uniform Dose (SFUD) Proton Pencil Beam Scanning (PBS) Planning Strategy for Lung Mobile Tumor Using a Digital Phantom

Purpose: To quantitatively evaluate four different Proton SFUD PBS initial planning strategies for lung mobile tumor. Methods and Materials: A virtual lung patient’s four-dimensional computed tomography (4DCT) was generated in this study. To avoid the uncertainties from target delineation and imaging artifacts, a sphere with diameter of 3 cm representing a rigid mobile target (GTV) was inserted into the right side of the lung. The target motion is set in superior-inferior (SI) direction from ?5 mm to 5 mm. Four SFUD planning strategies were used based on: 1) Maximum-In-tensity-Projection Image (MIP-CT);2) CT_average with ITV overridden to muscle density (CTavg_muscle);3) CT_average with ITV overridden to tumor density (CTavg_tumor);4) CT_average without any override density (CTavg_only). Dose distributions were recalculated on each individual phase and accumulated together to assess the “actual” treatment. To estimate the impact of proton range uncertainties, +/?3.5% CT calibration curve was applied to the 4DCT phase images. Results: Comparing initial plan to the dose accumulation: MIP-CT based GTV D98 degraded 2.42 Gy (60.10 Gy vs 57.68 Gy). Heart D1 increased 6.19 Gy (1.88 Gy vs 8.07 Gy);CTavg_tumor based GTV D98 degraded 0.34 Gy (60.07 Gy vs 59.73 Gy). Heart D1 increased 2.24 Gy (3.74 Gy vs 5.98 Gy);CTavg_muscle based initial GTV D98 degraded 0.31 Gy (60.4 Gy vs 60.19 Gy). Heart D1 increased 3.44 Gy (4.38 Gy vs 7.82 Gy);CTavg_only based Initial GTV D98 degraded 6.63 Gy (60.11 Gy vs 53.48 Gy). Heart D1 increased 0.30 Gy (2.69 Gy vs 2.96 Gy);in the presence of ±3.5% range uncertainties, CTavg_tumor based plan’s accumulated GTV D98 degraded to 57.99 Gy (+3.5%) 59.38 Gy (?3.5%), and CTavg_muscle based plan’s accumulated GTV D98 degraded to 59.37 Gy (+3.5%) 59.37 Gy (?3.5%). Conclusion: This study shows that CTavg_Tumor and CTavg_Muscle based planning strategies provide the most robust GTV coverage. However, clinicians need to be aware that the actual dose to OARs at distal end of target may increase. The study also indicates that the current SFUD PBS planning strategy might not be sufficient to compensate the CT calibration uncertainty.

Effects of combining multiple dose reduction techniques on coronary computed tomography angiography

BACKGROUND Coronary computed tomography angiography(CCTA)is the preferred noninvasive examination method for coronary heart disease.However,the radiation from computed tomography has become a concern since public awareness of radiation hazards continue to increase.AIM To explore the value of multiple dose reduction techniques for CCTA.METHODS Consecutive normal and overweight patients were prospectively divided into two groups:Group A1,patients who received multiple dose reduction scans(n=82);and group A2,patients who received conventional scans(n=39).The scan parameters for group A1 were as follows:Isocentric scan,tube voltage=80 kV,and tube current control using 80%smart milliampere.The scan parameters for group A2 were as follows:Normal position,tube voltage=100 kV,and smart milliampere.RESULTS The average effective doses(EDs)for groups A1 and A2 were 1.13±0.35 and 3.36±1.30 mSv,respectively.There was a statistically significant difference in ED between the two groups(P<0.01).Furthermore,noise was significantly lower,and both signal-to-noise ratio and contrast signal-to-noise ratio were higher in group A2 when compared to group A1(P<0.01).Moreover,the subjective image quality(IQ)scores were excellent in both groups,in which there was no significant difference in subjective IQ score between the two groups(P=0.12).CONCLUSION Multiple dose reduction scan techniques can significantly decrease the ED of patients receiving CCTA examinations for clinical diagnosis.

CARE Dose 4D联合CARE kV技术降低胸部CT扫描辐射剂量的可行性研究

目的探讨CARE Dose 4D联合CARE kV技术降低胸部CT扫描辐射剂量的可行性。方法前瞻性收集我院放射科进行胸部CT检查患者,分别进行标准剂量扫描、低剂量扫描及利用CARE Dose 4D联合CARE kV技术相结合的扫描方案。通过对3组图像的平均CT值、噪声(SD)、信号噪声比(SNR)进行客观图像质量对比,整体图像质量进行综合主观评分,分析该技术对图像质量的影响。通过比较3组CTDI、DLP、ED分析该技术是否能有效降低扫描辐射。结果3组图像在客观评价(平均CT值、SD、SNR)及主观评分无统计学差异(P>0.05)。CARE Dose 4D联合CARE kV技术相对于标准剂量扫描技术,能显著降低ED值并具有统计学意义(P<0.05)。结论CARE Dose 4D联合CARE kV技术在胸部CT扫描中可以有效降低辐射剂量,同时保持图像质量。这一技术有望在临床实践中得到广泛应用,并为患者提供更加安全和可靠的医疗诊断服务。

双源CT CARE Dose 4D技术在儿童牙齿扫描中的应用

目的探讨双源CT CARE Dose 4D(管电流调节技术)在儿童牙齿CT扫描中的运用价值。方法疑牙齿畸形行CT平扫及重建了解根尖情况的患儿70例,按时间先后分A、B两组,A组常规扫描(100kVp/150mAs),B组开启CARE Dose4D扫描(100kVp/参考电流150mAs),其余条件保持不变。比较A、B两组扫描方案的辐射剂量及所得图像的平均CT值、噪声、信号噪声比(SNR)、对比噪声比(CNR)、主观评分等。结果 A、B两组辐射剂量差异有统计学意义(t=-2.24,P=0.03)。与A组比较,B组有效剂量(ED)下降约23.15%;图像的平均CT值、噪声、SNR、CNR及主观评分比较差异无统计学意义(P>0.05)。结论应用双源CT CARE Dose 4D技术行儿童牙齿CT扫描,在降低辐射剂量的同时,不影响图像质量,值得临床推广。

iDose4迭代重建与滤波反投影重建在CCTA图像中的应用价值比较

目的:探讨iDose4迭代重建在冠状动脉CT血管造影(coronary CT angiography,CCTA)中的应用价值。方法:选择冠心病患者124例,均行CT扫描iDose4迭代重建与滤波反投影(filtered back-projection,FBP)重建。iDose4迭代重建患者依体质量指数(body mass index,BMI)进行分组,BMI≥20 kg/m2为迭代组1(135 k V),共56人,BMI<20 kg/m2为迭代组2(110 k V),共68人;FBP组均采用110 k V管电压进行扫描。分别对信噪比(signal noise ratio,SNR)、对比噪声比(contrast to noise ratio,CNR)及图像质量进行比较分析。结果:迭代组1与FBP组的SNR、CNR、辐射剂量及图像质量评分差异均存在且差异具有统计学意义(P<0.05)。迭代组2与FBP组的CNR及辐射剂量差异均存在且差异具有统计学意义(P<0.05),SNR、图像质量评分差异不具有统计学意义(P>0.05)。结论:低压iDose4重建法在64排CCTA中辐射剂量小且图像质量好,值得在临床中推广应用。

不同扫描体位和定位像方向对单髋关节CT图像及辐射剂量影响

在自动管电流调制(ATCM)技术下,探讨不同扫描体位及定位像方向在单髋关节CT中对图像和辐射剂量的影响。将120例进行单髋关节CT检查患者随机分为4组。A组常规扫描以身体正中线作矢状垂直定位线,定位像前后位+左侧位,扫描视野选择大体型,其余三组以患侧髋关节为中心的等中心扫描,扫描视野均选择小体型,其中B组定位像采用前后位+X线管靠近身体长轴的侧位像;C组采用前后位+X线管远离身体长轴的侧位像;D组仅采用前后位。比较4组患者的容积CT剂量指数(CTDIvol)、剂量长度乘积(DLP),同时测量并计算图像客观噪声、信噪比(SNR)、对比信噪比(CNR),评估图像主观噪声、条纹伪影及诊断信心度。结果显示4组间客观噪声、SNR、CNR、CTDIvol、DLP的差异具有统计学意义(P<0.01),组间比较显示,C与D组各项的差异无统计学意义(均P>0.05),其余组间比较各项的差异具有统计学意义(P<0.01),C、D组辐射剂量整体降低16%~35%;4组图像在主观噪声、条纹伪影及诊断信心度上的差异无统计学意义(P>0.05)。在基于最后一次采集定位像信息的ATCM系统中进行单髋关节CT扫描时,推荐等中心扫描方案同时选择小体型扫描视野,将前后定位像或选择X线管远离身体长轴的侧位定位像作为最后一次执行计划,能保证图像质量同时进一步优化辐射剂量。

“三低剂量”扫描在头颈CT血管成像检查中的应用价值

目的:探讨“三低剂量”扫描在头颈CT血管成像(CTA)中的应用价值。方法:选取2022年9月~2023年4月淮北市人民医院行头颈CTA检查18.5 kg/m^(2)≤体重指数(BMI)<30 kg/m^(2)的120例患者为研究对象,随机分成A组与B组各60例。其中A组采用常规扫描,B组采用低管电压、低对比剂、低流速注射扫描。扫描完成后,对图像质量进行主观评分和客观评价。在头颈CTA图像上测量主动脉弓(OAR),左、右颈总动脉(L/R CCA),左、右颈内动脉(L/R IC),左、右大脑中动脉M1段(L/R MC)的CT值及图像噪声(SD值),计算各部位的信号噪声比(SNR)和对比噪声比(CNR),记录有效辐射剂量(ED)。并对图像质量进行主观评价和对各组测量、计算结果进行统计学分析。结果:两组血管整体评分比较差异无统计学意义(P>0.05)。两组OAR处CT值比较差异有统计学意义(P<0.05)。两组L/R CCA、L/R IC、L/R MC的CT值比较差异无统计学意义(P>0.05)。两组的SNR及CNR进行比较,差异无统计学意义(P>0.05)。两组总体剂量长度乘积(DLP)值比较,差异有统计学意义(P<0.05)。两组ED值比较,差异有统计学意义(P<0.05)。结论:当18.5 kg/m^(2)≤BMI<30 kg/m^(2),“三低剂量”扫描可满足诊断要求,减低辐射剂量,降低对比剂的不良影响,增加患者的依从性。

优化放射学检查策略减少创伤患者辐射暴露的研究进展

创伤患者救治过程中进行多次放射学检查,短时间内接受较大剂量电离辐射暴露,增加罹患肿瘤的风险。本文系统查阅国内外关于创伤患者放射学检查、照射参数设定及电离辐射防护措施的文献报道并进行阐述,以提高临床医师辐射风险认知优化放射学检查方案,督促放射科医师采取低剂量扫描策略并协助患者穿戴防护服,减少伤员医源性辐射暴露并降低电离辐射损伤。

胸部低剂量CT过扫描患者相关因素的研究

目的探讨患者因素对胸部低剂量CT(LDCT)过扫描的影响。方法回顾性收集2022年10月30日至12月3日在杭州市临平区第一人民医院放射科进行LDCT检查的患者467例,评估患者年龄、性别、BMI对肺尖过扫描、肺底过扫描长度的影响。结果存在肺尖过扫描319例(68.3%),优化扫描仅148例(31.7%);存在肺底过扫描239例(51.1%),优化扫描228例(49.9%)。男性患者肺尖过扫描明显多于女性患者(P<0.001)。BMI≥24 kg/m2患者肺尖过扫描明显增多(P<0.01)。其余肺尖和肺底过扫描患者占比比较差异均无统计学意义(均P>0.05)。结论胸部低剂量超解剖范围过扫描是常见的,熟悉患者因素(年龄、性别和体型)及影响程度对个体减少辐射剂量有一定指导意义。

胸部CT低剂量扫描技术联合肋骨三维重建诊断胸部创伤的研究

目的:探讨胸部CT低剂量扫描技术联合肋骨三维重建在胸部创伤中的诊断价值。方法:选取2020-2022年解放军联勤保障部队第九〇四医院收治的118例高度怀疑肋骨骨折患者,所有病例均采用胸部CT低剂量扫描技术联合肋骨三维重建,分析不同低剂量胸部CT扫描及肋骨三维重建的图像质量,对比胸部CT低剂量扫描技术与肋骨三维重建及两者联合检查对胸部创伤的诊断准确率。结果:CT扫描管电流为50 mA时,支气管、血管边缘、肺实质、小叶间隔、纵膈、肋骨边缘锐利度清晰度均较差,软组织伪影较多,噪声较多,影响诊断;管电流70 mA时,支气管、血管边缘、肺实质、小叶间隔、纵膈、肋骨边缘锐利度清晰度均一般,有部分软组织伪影,噪声少量,不影响诊断。管电流50 mA时的辐射剂量明显低于70 mA,差异有统计学意义(t=10.969,P<0.05);118例胸部创伤患者中,经胸部CT低剂量扫描技术联合肋骨三维重建检测显示:肋骨骨折112例,肋软骨骨折7例,检测到388处肋骨及肋软骨骨折,其中355处(占91.49%)肋骨骨折和33处(占8.51%)肋软骨骨折。118例胸部创伤患者中,76例(占64.41%)合并肺挫伤和撕裂伤,41例(占35.75%)合并胸腔积液,10例(占8.47%)合并胸椎骨折,6例(占5.08%)合并脾挫伤和裂伤,5例(占4.24%)合并纵隔和皮下气肿,肋骨骨折最直接的影像征象为可见透亮低密度影。胸部CT扫描一般能较好显示断端错位,如只有一侧肋骨断裂,另一侧完整,三维重建图像则显示一侧肋骨可见线样影;三维重建共检出肋骨及肋软骨骨折395处,其中肋骨骨折363处(占91.90%),肋软骨骨折32处(占8.10%);胸部CT低剂量扫描技术联合肋骨三维重建共检出肋骨及肋软骨骨折410处,其中肋骨骨折375处(占91.46%),肋软骨骨折35处(占8.54%)。与术中检查到的418处肋骨损伤比较,胸部CT低剂量扫描技术诊断肋骨及软肋骨骨折的准确率为92.82%(388/418),肋骨三维重建诊断肋骨及软肋骨骨折的准确率为94.50%(395/418),胸部CT低剂量扫描技术联合肋骨三维重建诊断肋骨及软肋骨骨折的准确率为95.69%(410/418),两种检查准确率比较差异有统计学意义(x^(2)=13.062,P<0.05)。结论:胸部CT低剂量扫描技术联合肋骨三维重建可用于胸部创伤的诊断,其准确率较高,可为临床诊疗提供可靠的影像学信息。

低剂量和常规剂量螺旋CT胸部平扫对肺部结节显示的差异分析

目的探讨早期肺癌中24排螺旋CT低剂量扫描的应用价值。方法取2022年1月至2023年10月我院接收的42例肺结节及早期肺癌患者。入选患者均接受24排螺旋CT常规剂量和低剂量扫描,分析、比较其扫描结果。结果2组肺结节直径及其检出率比较差异无统计学意义(P>0.05);低剂量组确诊率较常规剂量组高,而漏诊率低(P<0.05);2组图像优良率比较差异无统计学意义(P>0.05);低剂量组的最小红斑量(MERD)、剂量长度乘积(DLP)、扫描总电流时间积(mAs)及权重CT剂量指数(CTDIW)指标均较常规剂量组低,而有效扫描mAs指标则较高(P<0.05)。结论在肺部结节和早期肺癌诊断中,24排螺旋CT低剂量扫描可提高肺结节检出率,且辐射损害小,利于后期方案的针对性实施。

低剂量64排螺旋CT扫描对肺结节的诊断价值分析

目的分析低剂量64排螺旋CT扫描在诊断肺结节上的临床价值。方法88例肺结节患者作为研究对象,均行低剂量64排螺旋CT扫描和常规剂量64排螺旋CT扫描检查。以穿刺活检病理结果为金标准,比较两种检查方法的CT扫描结果,对肺结节的诊断效能,有效辐射剂量和图像质量评分。结果穿刺活检结果显示,88例肺结节患者中恶性结节29例,良性结节59例;低剂量64排螺旋CT扫描检出恶性结节22例、占比75.86%(22/29),良性结节47例、占比79.66%(47/59);常规剂量64排螺旋CT扫描检出恶性结节23例、占比79.31%(23/29),良性结节49例、占比83.05%(49/59)。低剂量与常规剂量64排螺旋CT扫描的准确度、灵敏度、特异度、阳性预测值及阴性预测值比较,差异无统计学意义(P>0.05)。低剂量64排螺旋CT扫描的有效辐射剂量(7.55±1.21)mSv低于常规剂量64排螺旋CT扫描的(13.82±2.22)mSv,差异有统计学意义(P<0.05);两种检查方法图像质量评分比较差异无统计学意义(P>0.05)。结论与常规剂量64排螺旋CT扫描相比,低剂量64排螺旋CT扫描对肺结节的诊断准确度较高,诊断效能理想,图像质量相当,但低剂量64排螺旋CT扫描方案的辐射小,安全性更有保障,建议推广。

低剂量CT扫描在CT定位引导下椎体成形术中的应用价值

目的探讨与分析低剂量CT扫描在CT定位引导下椎体成形术中的应用价值。方法选取2022年1月—2022年12月在甘肃省兰州市榆中县中医院诊治的108例骨质疏松性椎体压缩性骨折(OVCF)患者作为研究对象,根据随机数表法将患者分为研究组与对照组,每组54例。对照组给予传统数字X线摄影定位引导,研究组给予低剂量CT扫描定位引导,研究组与对照组都给予椎体成形术(PVP)治疗,记录与判定两组患者的预后情况。结果两组患者术后7 d的疼痛视觉模拟量表(VAS)评分都明显低于术前1 d,差异有统计学意义(P<0.05),研究组术后7 d的疼痛VAS评分显著低于对照组,差异有统计学意义(P<0.05)。两组患者术后3个月的腰椎Oswestry量表(ODI)评分都明显低于术前1 d,差异有统计学意义(P<0.05),研究组术后3个月的腰椎ODI评分显著低于对照组,差异有统计学意义(P<0.05)。两组患者术后3个月的Cobb角都明显低于术前1 d,差异有统计学意义(P<0.05),研究组术后3个月的Cobb角与对照组对比有显著降低(P<0.05)。研究组的一次穿刺成功率为98.15%,显著高于对照组的83.33%,差异有统计学意义(P<0.05),研究组患者的骨水泥注入量、骨水泥渗漏量都显著少于对照组,差异有统计学意义(P<0.05)。结论低剂量CT扫描在CT定位引导下椎体成形术中的应用能提高一次穿刺成功率,减少患者的骨水泥注入量、骨水泥渗漏量,促进缓解患者的疼痛,改善患者的腰椎功能,减小患者的Cobb角。

低剂量CT扫描技术在头颈部CTA中的应用价值

目的:分析低剂量CT扫描技术在头颈部CT血管造影(CTA)中的应用价值。方法:选取2022年7月—2023年7月在新泰市中医医院接受头颈部CTA检查的100例患者为研究对象,根据检查时剂量不同分成观察组(低剂量CT)和对照组(常规剂量CT),每组50例。比较两组患者头颈部CTA图像质量优良率、图像客观质量、辐射剂量、噪声及体质量指数(BMI)值。结果:观察组患者头颈部CTA图像质量优良率为96.00%,与对照组患者头颈部CTA图像质量优良率94.00%相比,差异无统计学意义(P>0.05)。观察组患者头颈部CTA图像颈总动脉平均值(Mean)、基底动脉中心Mean与对照组对比,差异无统计学意义(P>0.05);观察组患者头颈部CTA图像背景噪声(N)低于对照组、颈总动脉图像信噪比(SNR)与基底动脉中心SNR低于对照组,差异有统计学意义(P<0.05)。观察组患者头颈部CTA剂量长度乘积(DLP)、容积CT剂量指数(CTDI_(vol))、有效辐射剂量(ED)低于对照组,差异有统计学意义(P<0.05)。观察组患者颈内动脉虹吸段CT值和BMI与对照组对比,差异无统计学意义(P>0.05)。结论:将低剂量CT扫描技术应用于头颈部CTA检查,与常规剂量相比,图像质量无明显差异,诊断准确率无较大影响,能够降低辐射剂量,具有较高应用价值。

idose^4重建技术在儿童气管及支气管CT低剂量扫描的应用

目的研究迭代重建技术idose 4在儿童气管及支气管CT低剂量扫描的应用及对图像质量的影响。方法60例年龄为5个月至5周岁气管及支气管CT检查患儿纳入研究,按扫描方式不同随机分成两组,每组30例。常规剂量组(A组):管电压80kV,管电流为55mAs,采用idose 43级重建技术。低剂量组(B组):管电压80kV;管电流为30mAs,分别采用idose 42~6级五种重建技术。两组均采用自动管电流调制技术。比较A、B两组患儿辐射剂量评价参数,即:CT容积剂量指数(CTDIvol)、剂量长度乘积(DLP)、有效辐射剂量(ED)及体型特异性剂量评估(SSDE)之间的差异,并研究各参数值与患儿身高及体重的相关性。比较A、B两组图像噪声、信噪比(SNR)、主观图像质量。结果B组CTDIvol、DLP、ED及SSDE值(0.54±0.08,16.78±4.16,0.41±0.05,1.18±0.16)均较A组(1.09±0.13,31.91±6.16,0.70±0.11,2.37±0.19)显著降低约50%(t=14.53,8.63,10.11,20.22,P<0.05)。SSDE值与患儿身高(r=0.49,P<0.5)及体重(r=0.64,P<0.05)有强相关性。B组所有图像噪声较A组高,差异有统计学意义(P<0.05);B组图像SNR降低,在idose^4 2,3,4级时与A组差异显著(P<0.05),在idose^4 5,6级时,与A组SNR无明显差异(P>0.05);主观图像质量评价B组idose^4 2,3,4,6级低于A组,差异显著(P<0.05),idose^4 5级与A组间差异不具统计学意义(P>0.05)。结论儿童胸部CT检查,管电压80kV,管电流30mAs(自动管电流调制技术),结合idose^4 5级重建技术,图像质量满足临床诊断要求,同时辐射剂量比常规扫描降低约50%;SSDE评价辐射剂量与受检者体型因素关系较大。

低剂量双源CT扫描在腹部三期增强检查中的应用效果

目的探讨低剂量双源CT扫描在腹部三期增强检查中的应用效果。方法回顾性分析我院140例疑似肝癌患者的临床资料,患者均行双源CT腹部三期增强检查,根据增强扫描中能量和碘海醇剂量的不同将其分为A1组(低能量低剂量,80 keV、270 mgI/mL)37例、A2组(低能量高剂量,80 keV、350 mgI/mL)35例、B1(高能量低剂量,140 keV、270 mgI/mL)40例、B2组(高能量高剂量,140 keV、350 mgI/mL)28例。采用图像质量主观评分和客观评分[信噪比(SNR)]评估各组图像质量,计算各组图像的有效照射剂量[剂量长度乘积(DLP)及有效剂量(ED)]。以病理检查结果为金标准,评估低剂量双源CT腹部三期增强扫描诊断肝癌的价值。结果各组图像可清晰显示血管及脏器组织,均达到诊断要求。各组在动脉期和门静脉期的图像质量主观评分比较差异无统计学意义(P>0.05)。各组动脉期和门静脉期腹主动脉腹腔干、腹腔动脉干、肠系膜上动脉、门静脉主干图像SNR比较,差异具有统计学意义(P<0.05),且A1组所得图像SNR明显高于其他组(P<0.05)。各组腹部增强扫描的DLP及ED比较差异具有统计学意义(P<0.05),且A1组DLP及ED明显低于其他组(P<0.05)。140例疑似肝癌患者经病理确诊为肝癌79例,低剂量双源CT腹部三期增强扫描诊断出75例,诊断的敏感度、特异度和准确度分别为86.07%、91.80%和88.57%,Kappa值为0.769。结论低剂量双源CT腹部三期增强扫描在80 keV的低能量行单能量重建获得的图像质量最佳,具有较高的敏感度、特异度及准确度,可满足影像诊断的要求,安全性高。

Application of Dual-Source CT TurboFlash Coarse Pitch Scanning in Coronary Artery Imaging

Objective: To compare and analyze the image quality and radiation dose of three scanning modes of dual-source CT coronary artery retrospectively, and to discuss the application value of TurboFlash coarse pitch scanning mode. Methods: The imaging data of 100 patients who underwent CT coronary angiography (CCTA) using Siemens force CT retrospective gated triggering spiral scan (RES-SPIRAL), adaptive prospective gated triggering sequence scan (SEQ) and prospective coarse pitch scan (TurboFlash) retrospectively was collected. The image quality was evaluated by objective and subjective methods. The effective radiation dose of patients was compared and analyzed, and the indications of the three scanning modes were analyzed. The application value of dual-source CT TurboFlash coarse pitch scanning in coronary artery imaging was evaluated. Results: The results showed that the left main coronary artery, the right coronary artery and their tertiary branches could be clearly displayed in the three groups of images: the left anterior descending branch, the left circumflex branch, and their three-level branches. There was no statistical difference in subjective image quality among the three groups of pictures (P > 0.05). There was no statistical difference in objective evaluation indexes, such as CT value, SNR, CNR and Noise among the three groups (P > 0.05). The patient radiation dose results showed that the effective radiation dose ED of RES-SPIRA scan was (9.22 ± 1.33) mSv. The dose of SEQ was (2.88 ± 2.47) mSv, and the dose of TurboFlash was (0.51 ± 0.16) mSv. There was significant difference in comparison of the three groups (P 0.05). RES-spiral scanning had the highest radiation dose and TurboFlash coarse pitch scanning (TurboFlash) had the lowest radiation dose. Conclusion: TurboFlash coarse pitch scanning is low in dosage, fast in speed and wide in adaptability. It is especially suitable for the elderly, children, coma and other patients who cannot cooperate with breath-holding examination, as well as for the screening and examination of coronary artery diseases in asymptomatic population. Undoubtedly, it is a worthy method of heart coronary artery examination.