A Wearable Fluorescence Imaging Device for Intraoperative Identification of Human Brain Tumors

IF 3.7 3区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Journal of Translational Engineering in Health and Medicine-Jtehm Pub Date : 2023-12-01 DOI:10.1109/JTEHM.2023.3338564

Mehrana Mohtasebi;Chong Huang;Mingjun Zhao;Siavash Mazdeyasna;Xuhui Liu;Samaneh Rabienia Haratbar;Faraneh Fathi;Jinghong Sun;Thomas Pittman;Guoqiang Yu

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引用次数: 0

Abstract

Malignant glioma (MG) is the most common type of primary malignant brain tumors. Surgical resection of MG remains the cornerstone of therapy and the extent of resection correlates with patient survival. A limiting factor for resection, however, is the difficulty in differentiating the tumor from normal tissue during surgery. Fluorescence imaging is an emerging technique for real-time intraoperative visualization of MGs and their boundaries. However, most clinical grade neurosurgical operative microscopes with fluorescence imaging ability are hampered by low adoption rates due to high cost, limited portability, limited operation flexibility, and lack of skilled professionals with technical knowledge. To overcome the limitations, we innovatively integrated miniaturized light sources, flippable filters, and a recording camera to the surgical eye loupes to generate a wearable fluorescence eye loupe (FLoupe) device for intraoperative imaging of fluorescent MGs. Two FLoupe prototypes were constructed for imaging of Fluorescein and 5-aminolevulinic acid (5-ALA), respectively. The wearable FLoupe devices were tested on tumor-simulating phantoms and patients with MGs. Comparable results were observed against the standard neurosurgical operative microscope (PENTERO® 900) with fluorescence kits. The affordable and wearable FLoupe devices enable visualization of both color and fluorescence images with the same quality as the large and expensive stationary operative microscopes. The wearable FLoupe device allows for a greater range of movement, less obstruction, and faster/easier operation. Thus, it reduces surgery time and is more easily adapted to the surgical environment than unwieldy neurosurgical operative microscopes. Clinical and Translational Impact Statement—The affordable and wearable fluorescence imaging device developed in this study enables neurosurgeons to observe brain tumors with the same clarity and greater flexibility compared to bulky and costly operative microscopes.

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用于术中识别人类脑肿瘤的可穿戴荧光成像设备

恶性胶质瘤（MG）是最常见的原发性恶性脑肿瘤。手术切除 MG 仍是治疗的基石，切除范围与患者存活率相关。然而，手术切除的一个限制因素是在手术过程中难以区分肿瘤和正常组织。荧光成像是一种新兴的术中实时观察 MG 及其边界的技术。然而，大多数具有荧光成像功能的临床级神经外科手术显微镜由于成本高、便携性有限、操作灵活性有限以及缺乏具备技术知识的熟练专业人员等原因，其采用率较低。为了克服这些限制，我们创新性地将微型光源、可翻转滤光片和记录相机集成到手术放大镜中，生成了一种可穿戴荧光放大镜（FLoupe）设备，用于荧光 MG 的术中成像。我们制作了两个 FLoupe 原型，分别用于荧光素和 5-氨基乙酰丙酸（5-ALA）的成像。可穿戴 FLoupe 设备在肿瘤模拟模型和 MGs 患者身上进行了测试。观察结果与配备荧光套件的标准神经外科手术显微镜（PENTERO® 900）相当。价格低廉的可穿戴 FLoupe 设备可实现彩色和荧光图像的可视化，其质量与昂贵的大型固定手术显微镜相同。可穿戴 FLoupe 设备的活动范围更大，阻塞更少，操作更快/更简便。因此，与笨重的神经外科手术显微镜相比，它能缩短手术时间，更容易适应手术环境。临床和转化影响声明--与笨重昂贵的手术显微镜相比，本研究中开发的经济实惠的可穿戴荧光成像设备使神经外科医生能够以同样的清晰度和更大的灵活性观察脑肿瘤。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Journal of Translational Engineering in Health and Medicine-Jtehm Engineering-Biomedical Engineering

CiteScore

7.40

自引率

2.90%

发文量

审稿时长

27 weeks

期刊介绍： The IEEE Journal of Translational Engineering in Health and Medicine is an open access product that bridges the engineering and clinical worlds, focusing on detailed descriptions of advanced technical solutions to a clinical need along with clinical results and healthcare relevance. The journal provides a platform for state-of-the-art technology directions in the interdisciplinary field of biomedical engineering, embracing engineering, life sciences and medicine. A unique aspect of the journal is its ability to foster a collaboration between physicians and engineers for presenting broad and compelling real world technological and engineering solutions that can be implemented in the interest of improving quality of patient care and treatment outcomes, thereby reducing costs and improving efficiency. The journal provides an active forum for clinical research and relevant state-of the-art technology for members of all the IEEE societies that have an interest in biomedical engineering as well as reaching out directly to physicians and the medical community through the American Medical Association (AMA) and other clinical societies. The scope of the journal includes, but is not limited, to topics on: Medical devices, healthcare delivery systems, global healthcare initiatives, and ICT based services; Technological relevance to healthcare cost reduction; Technology affecting healthcare management, decision-making, and policy; Advanced technical work that is applied to solving specific clinical needs.