Academic-Industrial Partnership to Develop & Test Esophageal Cancer Imaging Tools

发展学术与工业合作伙伴关系

基本信息

批准号：
8129784
负责人：
Sharmila Anandasabapathy
金额：
$ 58.02万
依托单位：
RICE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2010
资助国家：
美国
起止时间：
2010-08-16 至 2015-05-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8129784
关键词：
Algorithms Area Atlases Barrett Esophagus Benign Biopsy Bladder Blood Vessels Clinical Clinical Research Clinical Trials Collaborations Collection Colon Communities Computer software Data Analyses Data Set Detection Development Devices Diagnosis Diagnostic Specificity Disease Dyes Dysplasia Early Diagnosis Early treatment Endoscopes Endoscopy Ensure Epithelium Esophageal Esophageal Adenocarcinoma Esophageal Tissue Esophagectomy Evaluation Excision Fluorescence Future Goals Histopathology Image Image Analysis Imaging Device Incidence Individual Inflammatory Knowledge Learning Lesion Light Lighting Malignant Neoplasms Malignant neoplasm of esophagus Medical Methods Microinvasive Microscopic Microscopy Modality Morbidity - disease rate Mucous Membrane Multimodal Imaging Neoplasms Normal Range Nuclear Online Systems Operative Surgical Procedures Optics Organ Patients Performance Population Population Surveillance Premalignant Property Resolution Resources Rice Risk Screening for cancer Screening procedure Sensitivity and Specificity Site Specificity Specimen Staging Stomach Sum Surface System Technology Testing Time Topical application Training Training and Education Translating Translations Universities Visual Work base cancer imaging clinical practice cost design diagnostic accuracy digital digital imaging experience fluorescence imaging high risk imaging modality improved indexing mortality neoplastic novel optical imaging prototype public health relevance research clinical testing standard of care tool

项目摘要

DESCRIPTION (provided by applicant): Esophageal adenocarcinoma (EAC) has one of the fastest rising rates of incidence in the US. Unfortunately, the five-year-survival for patients diagnosed with EAC is only 10%. EAC develops primarily in patients with Barrett's esophagus (BE). Endoscopic screening and biopsy is recommended for at-risk individuals. However, standard white-light endoscopic examination frequently misses areas of early neoplasia, which are often clinically indistinguishable from normal mucosa and/or inflammatory changes. Studies have shown that as many as 43-57% of early cancers can be missed by this method. Thus, there is an important need for new endoscopic technologies which improve the ability of clinicians to identify precancerous lesions and early cancers with high sensitivity and specificity. The goal of this proposal is to develop, optimize and validate novel multi-modal, multi-scale optical imaging platforms for non-invasive, early detection of esophageal neoplasia based on optical imaging. We will collaborate with colleagues at Pentax, Inc. to design and test multi-modal endoscopic imaging systems for early detection of neoplasia in Barrett's esophagus. Widefield endoscopic imaging will be used initially to screen the surface area at risk to identify abnormal sites with high sensitivity; suspicious areas will then be imaged with much higher spatial resolution to achieve high diagnostic specificity. Both wide field and high resolution technologies will be integrated into a single endoscopic platform to increase the ease and accuracy of endoscopic cancer screening and surveillance. In sequential clinical studies, we will first separately optimize the performance of wide field endoscopic imaging and high resolution imaging. We will then integrate the wide field and high resolution imaging systems and validate their accuracy for the detection of neoplasia in subjects with Barrett's esophagus, the precursor to esophageal adenocarcinoma. Lastly, we will develop an image atlas of typical wide-field and high-resolution images, interpretation criteria, and histopathology to train future users and serve as an educational resource. PUBLIC HEALTH RELEVANCE: Improved identification and treatment of early cancers and precancerous lesions represents the most important opportunity to reduce the morbidity and mortality of cancer. This is particularly true for esophageal adenocarcinoma, a malignancy with a rapidly rising incidence rate and uniformly poor survival, primarily due to diagnosis at a late, incurable stage.

描述（由申请人提供）：食管腺癌（EAC）是美国发病率上升最快的癌症之一。不幸的是，诊断为 EAC 的患者的五年生存率仅为 10%。 EAC 主要发生于巴雷特食管 (BE) 患者。建议对高危人群进行内窥镜筛查和活检。然而，标准白光内窥镜检查经常会错过早期肿瘤形成的区域，这些区域在临床上通常与正常粘膜和/或炎症变化难以区分。研究表明，这种方法可以漏掉高达 43-57% 的早期癌症。因此，迫切需要新的内窥镜技术来提高临床医生以高灵敏度和特异性识别癌前病变和早期癌症的能力。该提案的目标是开发、优化和验证新型多模式、多尺度光学成像平台，用于基于光学成像的食管肿瘤的非侵入性早期检测。我们将与 Pentax, Inc. 的同事合作设计和测试多模式内窥镜成像系统，以早期检测巴雷特食管肿瘤。最初将使用宽视场内窥镜成像来筛查有风险的表面区域，以高灵敏度识别异常部位；然后将以更高的空间分辨率对可疑区域进行成像，以实现高诊断特异性。广域和高分辨率技术将被集成到一个内窥镜平台中，以提高内窥镜癌症筛查和监测的简便性和准确性。在序贯临床研究中，我们将首先分别优化广视野内窥镜成像和高分辨率成像的性能。然后，我们将整合宽视场和高分辨率成像系统，并验证其在巴雷特食管（食管腺癌的前兆）受试者中检测肿瘤的准确性。最后，我们将开发典型的宽视野和高分辨率图像、解释标准和组织病理学的图像图集，以培训未来的用户并作为教育资源。公共卫生相关性：改进早期癌症和癌前病变的识别和治疗是降低癌症发病率和死亡率的最重要机会。对于食管腺癌来说尤其如此，食管腺癌是一种发病率迅速上升且生存率普遍较低的恶性肿瘤，这主要是由于在晚期、无法治愈的阶段诊断所致。