EOS 微剂量方案：人体模型中首次全脊柱放射剂量测量及与 EOS 标准剂量和常规数字放射学的比较。

EOS Micro-dose Protocol: First Full-spine Radiation Dose Measurements in Anthropomorphic Phantoms and Comparisons with EOS Standard-dose and Conventional Digital Radiology.

机构信息

Department of Orthopedic Surgery, Aalborg Universitetshospital, Aalborg, Denmark.

Region Nordjylland, Røntgenfysik, Denmark.

出版信息

Spine (Phila Pa 1976). 2018 Nov 15;43(22):E1313-E1321. doi: 10.1097/BRS.0000000000002696.

DOI:10.1097/BRS.0000000000002696

PMID:30383725

Abstract

STUDY DESIGN

A comparative study of radiation dose measured in anthropomorphic phantoms.

OBJECTIVES

The aim of this study was to first report the first organ dose and effective dose measurements in anthropomorphic phantoms using the new EOS imaging micro-dose protocol in full-spine examinations, and to compare these measurements of radiation dose to measurements in the EOS standard-dose protocol and conventional digital radiology (CR).

SUMMARY OF BACKGROUND DATA

Few studies evaluating organ dose and effective dose for the EOS low-dose scanner exist, and mainly for the standard-dose protocol. To the best of our knowledge, no studies of effective dose based on anthropomorphic phantom measurements exist for the new micro-dose protocol.

METHODS

Two anthropomorphic phantoms, representing a 5-year-old (pediatric) and a 15-year-old (adolescent). The phantoms were exposed to EOS micro-dose and standard-dose protocols during full-spine imaging. Additionally, CR in scoliosis settings was performed. For all modalities, organ doses were measured and effective doses were calculated using thermoluminescent dosimeters.

RESULTS

We found a 17-fold reduction (94%) of effective dose in micro-dose protocol compared with our CR system in the adolescent phantom. Micro-dose versus standard-dose protocol, showed a 6-fold reduction (83%), and for standard-dose versus our CR system a 2.8-fold reduction (64%) reduction of effective dose was observed.For the pediatric phantom, a 5-fold reduction (81%) of effective dose in micro-dose protocol compared to our CR system was observed. Micro-dose versus standard-dose protocol, showed a seven-fold (86%) reduction. However, we observed an increase in absorbed dose of 38% when comparing the EOS standard-dose protocol with our CR system.

CONCLUSION

The EOS imaging micro-dose option exposes patients to lower radiation doses than any currently available modality for full-spine examination. Expected reduction of dose was established for the adolescent phantom when comparing CR and standard-dose protocol. However, no reduction of effective dose with EOS standard-dose protocol compared to our reference CR system was observed in the pediatric phantom.

LEVEL OF EVIDENCE

N/A.

摘要

研究设计

人体模型中测量的辐射剂量的比较研究。

研究目的

本研究的目的首先是报告在全脊柱检查中使用新的 EOS 成像微剂量方案在人体模型中首次进行的器官剂量和有效剂量测量，并将这些剂量测量与 EOS 标准剂量方案和常规数字放射学（CR）的测量进行比较。

背景数据概要

评估 EOS 低剂量扫描仪的器官剂量和有效剂量的研究很少，并且主要是针对标准剂量方案。据我们所知，对于新的微剂量方案，没有基于人体模型测量的有效剂量的研究。

方法

两个人体模型，代表 5 岁（儿童）和 15 岁（青少年）。在全脊柱成像期间，将这些模型暴露于 EOS 微剂量和标准剂量方案下。此外，还进行了脊柱侧弯设置下的 CR 检查。对于所有模式，使用热释光剂量计测量器官剂量并计算有效剂量。

结果

我们发现，与我们的 CR 系统相比，青少年模型中微剂量方案的有效剂量降低了 17 倍（94%）。与标准剂量方案相比，微剂量方案的有效剂量降低了 6 倍（83%），与我们的 CR 系统相比，标准剂量方案的有效剂量降低了 2.8 倍（64%）。对于儿科模型，与我们的 CR 系统相比，微剂量方案的有效剂量降低了 5 倍（81%）。与标准剂量方案相比，微剂量方案的有效剂量降低了 7 倍（86%）。然而，与我们的 CR 系统相比，EOS 标准剂量方案的吸收剂量增加了 38%。

结论

EOS 成像微剂量选项使患者接受的辐射剂量低于全脊柱检查的任何现有方式。当比较 CR 和标准剂量方案时，青少年模型中预计会降低剂量。然而，在儿科模型中，与我们的参考 CR 系统相比，EOS 标准剂量方案的有效剂量没有降低。

证据水平

无。

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EOS 微剂量方案：人体模型中首次全脊柱放射剂量测量及与 EOS 标准剂量和常规数字放射学的比较。

EOS Micro-dose Protocol: First Full-spine Radiation Dose Measurements in Anthropomorphic Phantoms and Comparisons with EOS Standard-dose and Conventional Digital Radiology.

机构信息

出版信息

STUDY DESIGN

OBJECTIVES

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

研究设计

研究目的

背景数据概要

方法

结果

结论

证据水平

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