小児腹部CT 検査における自動露出制御の一手法―年齢および腹部サイズを考慮した標準偏差(SD)値および管電流値の設定法―

Nihon Hōshasen Gijutsu Gakkai zasshi Pub Date : 1900-01-01 DOI:10.6009/JJRT.2017_JSRT_73.1.33

研古屋, 真志秋山, 敦史南部, 裕鈴木, 裕介長谷部

{"title":"小児腹部CT 検査における自動露出制御の一手法―年齢および腹部サイズを考慮した標準偏差(SD)値および管電流値の設定法―","authors":"研古屋, 真志秋山, 敦史南部, 裕鈴木, 裕介長谷部","doi":"10.6009/JJRT.2017_JSRT_73.1.33","DOIUrl":null,"url":null,"abstract":": We aimed to apply the pediatric abdominal CT protocol of Donnelly et al. in the United States to the pediatric abdominal CT-AEC. Examining CT images of 100 children, we found that the sectional area of the hepatic portal region (y) was strongly correlated with the body weight (x) as follows: y=7.14x + 84.39 (correlation coefficient=0.9574). We scanned an elliptical cone phantom that simulates the human body using a pediatric abdominal CT scanning method of Donnelly et al. in, and measured SD values. We further scanned the same phantom under the settings for adult CT-AEC scan and obtained the relationship between the sectional areas (y) and the SD values. Using these results, we obtained the following preset noise factors for CT-AEC at each body weight range: 6.90 at 4.5-8.9 kg, 8.40 at 9.0-17.9 kg, 8.68 at 18.0-26.9 kg, 9.89 at 27.0-35.9 kg, 12.22 at 36.0-45.0 kg, 13.52 at 45.1-70.0 kg, 15.29 at more than 70 kg. From the relation between age, weight and the distance of liver and tuber ischiadicum of 500 children, we obtained the CTDIvol values and DLP values under the scanning protocol of Donnelly et al. Almost all of DRL from these values turned out to be smaller than the DRL data of IAEA and various countries. Thus, by setting the maximum current values of CT-AEC to be the Donnelly et al.'s age-wise current values, and using our weight-wise noise factors, we think we can perform pediatric abdominal CT-AEC scans that are consistent with the same radiation safety and the image quality as those proposed by Donnelly et al.","PeriodicalId":393304,"journal":{"name":"Nihon Hōshasen Gijutsu Gakkai zasshi","volume":"84 20 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Nihon Hōshasen Gijutsu Gakkai zasshi","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.6009/JJRT.2017_JSRT_73.1.33","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

: We aimed to apply the pediatric abdominal CT protocol of Donnelly et al. in the United States to the pediatric abdominal CT-AEC. Examining CT images of 100 children, we found that the sectional area of the hepatic portal region (y) was strongly correlated with the body weight (x) as follows: y=7.14x + 84.39 (correlation coefficient=0.9574). We scanned an elliptical cone phantom that simulates the human body using a pediatric abdominal CT scanning method of Donnelly et al. in, and measured SD values. We further scanned the same phantom under the settings for adult CT-AEC scan and obtained the relationship between the sectional areas (y) and the SD values. Using these results, we obtained the following preset noise factors for CT-AEC at each body weight range: 6.90 at 4.5-8.9 kg, 8.40 at 9.0-17.9 kg, 8.68 at 18.0-26.9 kg, 9.89 at 27.0-35.9 kg, 12.22 at 36.0-45.0 kg, 13.52 at 45.1-70.0 kg, 15.29 at more than 70 kg. From the relation between age, weight and the distance of liver and tuber ischiadicum of 500 children, we obtained the CTDIvol values and DLP values under the scanning protocol of Donnelly et al. Almost all of DRL from these values turned out to be smaller than the DRL data of IAEA and various countries. Thus, by setting the maximum current values of CT-AEC to be the Donnelly et al.'s age-wise current values, and using our weight-wise noise factors, we think we can perform pediatric abdominal CT-AEC scans that are consistent with the same radiation safety and the image quality as those proposed by Donnelly et al.

查看原文本刊更多论文

儿童腹部CT检查的一种自动曝光控制方法——基于年龄和腹部尺寸的标准差(SD)值和管电流值的设定方法——

我们的目标是将美国Donnelly等人的儿童腹部CT方案应用于儿童腹部CT- aec。通过100例儿童的CT图像，我们发现肝门静脉区截面积(y)与体重(x)有很强的相关性:y=7.14x + 84.39(相关系数=0.9574)。我们使用Donnelly等人的儿童腹部CT扫描方法扫描模拟人体的椭圆锥体幻象，并测量SD值。我们进一步在成人CT-AEC扫描设置下对同一幻体进行扫描，得到了截面积(y)与SD值的关系。根据这些结果，我们得到了CT-AEC在每个体重范围内的预设噪声系数:4.5-8.9 kg时为6.90,9.0-17.9 kg时为8.40,18.0-26.9 kg时为8.68,27.0-35.9 kg时为9.89,36.0-45.0 kg时为12.22,45.1-70.0 kg时为13.52，大于70 kg时为15.29。根据500例儿童年龄、体重与肝、坐骨结节距离的关系，得到Donnelly等扫描方案下的CTDIvol值和DLP值。从这些值得到的DRL几乎都小于IAEA和各国的DRL数据。因此，通过将CT-AEC的最大电流值设置为Donnelly等人的年龄电流值，并使用我们的体重噪声因子，我们认为我们可以进行与Donnelly等人提出的放射安全性和图像质量一致的儿科腹部CT-AEC扫描。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Nihon Hōshasen Gijutsu Gakkai zasshi

自引率

0.00%

发文量