Portable In vivo Confocal Ophthalmoscope (PICO) for Accurate and Rapid Diagnosis of Corneal Ulcer

便携式体内共焦检眼镜 (PICO) 可准确快速诊断角膜溃疡

• 批准号: 10543508
• 负责人: Dongkyun Kang
• 金额: $ 32.8万
• 依托单位: UNIVERSITY OF ARIZONA
• 依托单位国家: 美国
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-01-01 至 2024-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10543508
• 关键词: Acanthamoeba; Address; Adoption; Agreement; Animals; Arizona; Biological Testing; Blindness; Cattle; Cellular Phone; Clinic Visits; Clinical; Collaborations; Consumption; Cornea; Corneal Diseases; Corneal Ulcer; Custom; Data; Devices; Diabetes Mellitus; Diagnosis; Diagnostic Procedure; Diagnostic Sensitivity; Dry Eye Syndromes; Early Diagnosis; Endothelium; Engineering; Epidemic; Equipment; Evaluation; Family suidae; Goals; Histology; Hospitals; Image; Imaging Device; Imaging Techniques; Infection; Lasers; Light; Methods; Modeling; Monitor; Nerve; Ophthalmologist; Ophthalmology; Ophthalmoscopes; Ophthalmoscopy; Optics; Organism; Outcome; Parasites; Parkinson Disease; Patients; Perforation; Performance; Peripheral Nervous System Diseases; Persons; Prospective Studies; Rapid diagnostics; Reference Standards; Reporting; Research; Resolution; Resources; Risk; Scanning; Sensitivity and Specificity; Skin; Source; Specificity; Speed; Strategic Planning; Technology; Test Result; Testing; Time; Tissues; Uganda; Ulcer; Universities; Visual impairment; Visualization; accurate diagnosis; accurate diagnostics; case-based; cellular imaging; clinical diagnosis; clinical examination; cost; diagnostic accuracy; diagnostic strategy; experience; fungus; health care settings; high resolution imaging; human imaging; imaging approach; in vivo; innovation; invention; lens; microscopic imaging; novel strategies; portability; prevent; prototype; rapid diagnosis; reflectance confocal microscopy; sensor; skin lesion; usability

Project Summary/Abstract Corneal ulcers caused by infection are causing blindness and visual impairment in 4.2 million people worldwide annually and have been described as a “silent epidemic”. Corneal ulcers can be caused by several different organisms, with those caused by fungi or Acanthamoeba parasites often associated with the worst outcomes. Accurate and rapid diagnosis of the causative organism can prevent tissue damage leading to blindness. But clinical outcomes are often poor because the first-line diagnostic method, slit lamp examination, is often inaccurate, and the gold standard diagnostic method, microbiological testing, is time-consuming, prone to false negatives, and resource-intensive. We aim to develop a Portable In vivo Confocal Ophthalmoscope (PICO) that can provide accurate and rapid diagnosis in corneal ulcers. We have established a research team of leading ophthalmology and optical engineering experts to achieve this goal: In vivo confocal microscopy (IVCM) is the only clinically- available imaging tool that can directly visualize causative organisms in the patient’s cornea. Dr. Jaya Chidambaram (Co-I, University of Manchester, UK) led the first prospective study to test laser-scanning IVCM in fungal and Acanthamoeba ulcer patients, which established high diagnostic sensitivity (86-88%) and specificity (81-98%). Further studies by others demonstrated similarly high diagnostic accuracy. But widespread adoption of IVCM has been hampered by the following weaknesses: 1) contact imaging, 2) limited field of view (FOV) and speed, and 3) high device cost (>$75,000). While searching for a new approach to overcome these weaknesses, Dr. Chidambaram began a collaboration with Dr. Dongkyun Kang (PI, University of Arizona) in 2019. Dr. Kang’s team previously invented the world’s first smartphone-based, portable IVCM device (cost = ~ $4,000), successfully imaged skin lesions from >350 patients in Uganda, and demonstrated imaging of cellular details of the cornea with similar image quality to the commercial IVCM. In this 3-year R01 project, we will further innovate our skin portable IVCM technology to develop a PICO device that (1) enables non-contact corneal imaging, (2) increases the FOV 12 times and speed 8 times, and (3) reduces the device cost >10 times compared to the commercial corneal IVCM device. We will develop a PICO prototype (Aim 1) and evaluate for corneal ulcer (fungal subtype) ex vivo (Aim 2). We envision that PICO will become a standard corneal imaging tool worldwide, and will make significant impacts on diagnosis and treatment monitoring of corneal ulcers and other major corneal diseases, including dry eye disease, Fuch’s endothelial dystrophy, and corneal nerve evaluation to screen for peripheral neuropathy in Parkinson’s disease and diabetes mellitus. Our proposal directly addresses several unmet needs identified in the NEI’s strategic plan, including high-resolution imaging techniques to diagnose common corneal disorders, and methods for early detection of corneal disease epidemics.

项目总结/摘要 感染引起的角膜溃疡正在导致420万人失明和视力受损 每年在世界范围内，并已被描述为“沉默的流行病”。角膜溃疡可由几种原因引起 不同的生物体，与那些由真菌或阿米巴寄生虫引起的往往与最坏的 结果。对致病微生物的准确和快速诊断可以防止组织损伤， 失明但临床结果往往很差，因为一线诊断方法，裂隙灯检查， 通常是不准确的，而金标准诊断方法，微生物检测，是耗时，易 假阴性和资源密集型。 我们的目标是开发一种便携式体内共焦检眼镜（皮科）， 快速诊断角膜溃疡。我们已经建立了一个领先的眼科研究团队， 光学工程专家实现这一目标：体内共焦显微镜（IVCM）是唯一的临床- 这是一种可用的成像工具，可以直接可视化患者角膜中的致病生物体。贾亚医生 奇丹巴拉姆（Co-I，英国曼彻斯特大学）领导了第一项前瞻性研究，以测试激光扫描IVCM 在真菌和阿米巴溃疡患者中，建立了较高的诊断敏感性（86-88%）， 特异性（81-98%）。其他人的进一步研究也证明了同样高的诊断准确性。但 IVCM的广泛采用受到以下缺点的阻碍：1）接触成像，2）有限 视场（FOV）和速度，以及3）高设备成本（>$75，000）。在寻找一种新的方法， 为了克服这些弱点，奇丹巴拉姆博士开始与Dongkyun Kang博士（PI， 亚利桑那大学）2019年。康博士的团队此前发明了世界上第一个基于智能手机的， 便携式IVCM设备（成本=约4，000美元），成功地对乌干达350多名患者的皮肤病变进行了成像， 显示了角膜细胞细节的成像，具有与商业IVCM相似的图像质量。 在这个为期3年的R 01项目中，我们将进一步创新我们的皮肤便携式IVCM技术， 皮科设备（1）实现非接触式角膜成像，（2）将视野扩大12倍，速度扩大8倍 倍，以及（3）与商业角膜IVCM设备相比，设备成本降低>10倍。我们将 开发皮科原型（目标1）并评价离体角膜溃疡（真菌亚型）（目标2）。 我们设想皮科将成为全球标准的角膜成像工具，并将使 对角膜溃疡和其他主要角膜疾病的诊断和治疗监测的影响，包括 干眼病、Fuch内皮营养不良和角膜神经评估，以筛查外周 帕金森病和糖尿病的神经病变。我们的建议直接解决了几个未得到满足的问题 NEI战略计划中确定的需求，包括高分辨率成像技术，以诊断常见的 角膜疾病和早期检测角膜疾病流行的方法。