High-quality Agar and Polyacrylamide Tumor-mimicking Phantom Models for Magnetic Resonance-guided Focused Ultrasound Applications

IF 0.9 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Journal of Medical Ultrasound Pub Date : 2023-10-27 DOI:10.4103/jmu.jmu_68_23
Panagiotis Sofokleous, Christakis Damianou
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Abstract

Abstract Background: Tissue-mimicking phantoms (TMPs) have been used extensively in clinical and nonclinical settings to simulate the thermal effects of focus ultrasound (FUS) technology in real tissue or organs. With recent technological developments in the FUS technology and its monitoring/guided techniques such as ultrasound-guided FUS and magnetic resonance-guided FUS (MRgFUS) the need for TMPs are more important than ever to ensure the safety of the patients before being treated with FUS for a variety of diseases (e.g., cancer or neurological). The purpose of this study was to prepare a tumor-mimicking phantom (TUMP) model that can simulate competently a tumor that is surrounded by healthy tissue. Methods: The TUMP models were prepared using polyacrylamide (PAA) and agar solutions enriched with MR contrast agents (silicon dioxide and glycerol), and the thermosensitive component bovine serum albumin (BSA) that can alter its physical properties once thermal change is detected, therefore offering real-time visualization of the applied FUS ablation in the TUMPs models. To establish if these TUMPs are good candidates to be used in thermoablation, their thermal properties were characterized with a custom-made FUS system in the laboratory and a magnetic resonance imaging (MRI) setup with MR-thermometry. The BSA protein's coagulation temperature was adjusted at 55°C by setting the pH of the PAA solution to 4.5, therefore simulating the necrosis temperature of the tissue. Results: The experiments carried out showed that the TUMP models prepared by PAA can change color from transparent to cream-white due to the BSA protein coagulation caused by the thermal stress applied. The TUMP models offered a good MRI contrast between the TMPs and the TUMPs including real-time visualization of the ablation area due to the BSA protein coagulation. Furthermore, the T2 -weighted MR images obtained showed a significant change in T2 when the BSA protein is thermally coagulated. MR thermometry maps demonstrated that the suggested TUMP models may successfully imitate a tumor that is present in soft tissue. Conclusion: The TUMP models developed in this study have numerous uses in the testing and calibration of FUS equipment including the simulation and validation of thermal therapy treatment plans with FUS or MRgFUS in oncology applications.
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用于磁共振引导聚焦超声应用的高质量琼脂和聚丙烯酰胺肿瘤模拟模型
摘要背景:组织模拟幻影(tissue - mimics phantom, TMPs)已广泛应用于临床和非临床环境,以模拟焦点超声(focus ultrasound, FUS)技术在真实组织或器官中的热效应。随着FUS技术及其监测/引导技术(如超声引导FUS和磁共振引导FUS (MRgFUS))的最新技术发展,在使用FUS治疗各种疾病(如癌症或神经系统疾病)之前,对tmp的需求比以往任何时候都更加重要,以确保患者的安全。本研究的目的是制备一个肿瘤模拟幻影(trump)模型,该模型可以模拟被健康组织包围的肿瘤。方法:采用聚丙烯酰胺(PAA)和琼脂溶液制备TUMP模型,琼脂溶液中添加了MR造影剂(二氧化硅和甘油),以及热敏成分牛血清白蛋白(BSA),该成分可以在检测到热变化后改变其物理性质,因此可以实时可视化应用于TUMP模型的FUS消融。为了确定这些tump是否适合用于热消融,在实验室中使用定制的FUS系统和带mr测温的磁共振成像(MRI)装置对其热性能进行了表征。通过将PAA溶液的pH值设置为4.5,在55℃下调节BSA蛋白的凝固温度,模拟组织的坏死温度。结果:实验表明,PAA制备的trump模型由于热应力引起BSA蛋白凝固,其颜色由透明变为乳白色。trump模型提供了TMPs和TUMPs之间良好的MRI对比,包括由于BSA蛋白凝固而导致的消融区域的实时可视化。此外,获得的T2加权MR图像显示,当BSA蛋白热凝固时,T2发生了显著变化。磁共振测温图表明,建议的特朗普模型可以成功地模拟存在于软组织中的肿瘤。结论:本研究中开发的trump模型在FUS设备的测试和校准中有许多用途,包括肿瘤应用中FUS或MRgFUS的热治疗计划的模拟和验证。
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来源期刊
Journal of Medical Ultrasound
Journal of Medical Ultrasound RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
1.30
自引率
9.10%
发文量
90
审稿时长
10 weeks
期刊介绍: The Journal of Medical Ultrasound is the peer-reviewed publication of the Asian Federation of Societies for Ultrasound in Medicine and Biology, and the Chinese Taipei Society of Ultrasound in Medicine. Its aim is to promote clinical and scientific research in ultrasonography, and to serve as a channel of communication among sonologists, sonographers, and medical ultrasound physicians in the Asia-Pacific region and wider international community. The Journal invites original contributions relating to the clinical and laboratory investigations and applications of ultrasonography.
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