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一种自动算法,用于识别和量化人体 18F-FDG-PET/CT 扫描中的棕色脂肪组织。

An automated algorithm to identify and quantify brown adipose tissue in human 18F-FDG-PET/CT scans.

机构信息

Section of Endocrinology, Diabetes & Nutrition, Boston University School of Medicine, Boston, Massachusetts, USA.

出版信息

Obesity (Silver Spring). 2013 Aug;21(8):1554-60. doi: 10.1002/oby.20315.

DOI:10.1002/oby.20315
PMID:23408435
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3910095/
Abstract

OBJECTIVE

To develop an algorithm to identify and quantify BAT from PET/CT scans without radiologist interpretation.

DESIGN AND METHODS

Cases (n = 17) were randomly selected from PET/CT scans with documented "brown fat" by the reviewing radiologist. Controls (n = 18) had no documented "brown fat" and were matched with cases for age (49.7 [31.0-63.0] vs. 52.4 [24.0-70.0] yrs), outdoor temperature at scan date (51.8 [38.9-77.0] vs. 54.9 [35.2-74.6] °F), sex (F/M: 15/2 cases; 16/2 controls) and BMI (28.2 [20.0-45.7] vs. 26.8 [21.4-37.1] kg/m(2) ]). PET/CT scans and algorithm-generated images were read by the same radiologist blinded to scan identity. Regions examined included neck, mediastinum, supraclavicular fossae, axilla and paraspinal soft tissues. BAT was scored 0 for no BAT; 1 for faint uptake possibly compatible with BAT or unknown; and 2 for BAT positive.

RESULTS

Agreement between the algorithm and PET/CT scan readings was 85.7% across all regions. The algorithm had a low false negative (1.6%) and higher false positive rate (12.7%). The false positive rate was greater in mediastinum, axilla and neck regions.

CONCLUSION

The algorithm's low false negative rate combined with further refinement will yield a useful tool for efficient BAT identification in a rapidly growing field particularly as it applies to obesity.

摘要

目的

开发一种无需放射科医生解读即可从 PET/CT 扫描中识别和量化棕色脂肪的算法。

设计和方法

从经审查的放射科医生记录有“棕色脂肪”的 PET/CT 扫描中随机选择病例(n=17)。对照(n=18)没有记录有“棕色脂肪”,并与病例按年龄(49.7[31.0-63.0]与 52.4[24.0-70.0]岁)、扫描日期的室外温度(51.8[38.9-77.0]与 54.9[35.2-74.6]°F)、性别(F/M:15/2 例;16/2 例对照)和 BMI(28.2[20.0-45.7]与 26.8[21.4-37.1]kg/m(2))相匹配。对相同的放射科医生进行了 PET/CT 扫描和算法生成的图像阅读,对扫描身份不知情。检查的区域包括颈部、纵隔、锁骨上窝、腋窝和椎旁软组织。BAT 的评分如下:0 为无 BAT;1 为可能与 BAT 或未知的微弱摄取;2 为 BAT 阳性。

结果

在所有区域,算法与 PET/CT 扫描读数之间的一致性为 85.7%。该算法的假阴性率较低(1.6%),假阳性率较高(12.7%)。假阳性率在纵隔、腋窝和颈部区域较高。

结论

该算法的低假阴性率结合进一步的改进,将成为一个有用的工具,用于在一个快速发展的领域中,特别是在肥胖症方面,有效地识别 BAT。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e3c0/3910095/c0188b9a8a43/nihms455926f1.jpg

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