{"title":"通过生成式人工智能技术检测糖尿病视网膜病变:综述","authors":"Vipin Bansal , Amit Jain , Navpreet Kaur Walia","doi":"10.1016/j.rio.2024.100700","DOIUrl":null,"url":null,"abstract":"<div><p>Diabetes, a burgeoning health issue, especially among the youth, stems from poor dietary habits and unhealthy lifestyles. India stands as the second most afflicted country, witnessing a rapid diabetes epidemic. Diabetic Retinopathy (DR), a significant complication, threatens vision loss and blindness. Early detection, alongside lifestyle adjustments, can manage DR effectively. Traditional methods for DR detection are time consuming, costly and require specialized skills. Computer assisted screening systems, leveraging technologies like Fundus images and Optical Coherence Tomography (OCT), streamline DR detection, with Artificial Intelligence (AI) playing a pivotal role. Technological advancements and abundant data fuel significant progress in AI-based DR screening, promising enhanced accuracy and efficiency, even in remote regions. In healthcare, “normal” and “abnormal” statuses characterize patient health. AI applications in healthcare often focus on anomaly detection, leveraging distinct data distributions. Generative architectures, originally designed for content generation, find application across various domains, including healthcare. By adjusting architecture and data pipelines, controlled and specific samples can be generated, offering solutions for anomaly detection.</p><p>This paper reviews fundamental aspects of diabetes and DR, exploring the utilization of generative AI in analyzing retinal data for DR detection. 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Diabetic Retinopathy (DR), a significant complication, threatens vision loss and blindness. Early detection, alongside lifestyle adjustments, can manage DR effectively. Traditional methods for DR detection are time consuming, costly and require specialized skills. Computer assisted screening systems, leveraging technologies like Fundus images and Optical Coherence Tomography (OCT), streamline DR detection, with Artificial Intelligence (AI) playing a pivotal role. Technological advancements and abundant data fuel significant progress in AI-based DR screening, promising enhanced accuracy and efficiency, even in remote regions. In healthcare, “normal” and “abnormal” statuses characterize patient health. AI applications in healthcare often focus on anomaly detection, leveraging distinct data distributions. Generative architectures, originally designed for content generation, find application across various domains, including healthcare. 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引用次数: 0
摘要
糖尿病是一个日益突出的健康问题,尤其是在年轻人当中,它源于不良的饮食习惯和不健康的生活方式。印度是糖尿病患者第二多的国家,糖尿病正在迅速流行。糖尿病视网膜病变(DR)是一种严重的并发症,威胁着视力丧失和失明。早期发现并调整生活方式可有效控制糖尿病。传统的糖尿病视网膜病变检测方法耗时长、成本高,而且需要专业技能。计算机辅助筛查系统利用眼底图像和光学相干断层扫描(OCT)等技术,简化了 DR 检测,其中人工智能(AI)发挥了关键作用。技术进步和丰富的数据推动了基于人工智能的 DR 筛查取得重大进展,有望提高准确性和效率,即使在偏远地区也是如此。在医疗保健领域,"正常 "和 "异常 "状态是患者健康的特征。医疗保健领域的人工智能应用通常侧重于异常检测,利用不同的数据分布。生成式架构最初是为内容生成而设计的,但在包括医疗保健在内的各个领域都有应用。通过调整架构和数据管道,可以生成受控的特定样本,为异常检测提供解决方案。本文回顾了糖尿病和 DR 的基本方面,探讨了生成式人工智能在分析视网膜数据以检测 DR 中的应用。本文还讨论了生成式人工智能的最新进展及其在医疗保健领域增强人工智能解决方案的潜力。
Diabetic retinopathy detection through generative AI techniques: A review
Diabetes, a burgeoning health issue, especially among the youth, stems from poor dietary habits and unhealthy lifestyles. India stands as the second most afflicted country, witnessing a rapid diabetes epidemic. Diabetic Retinopathy (DR), a significant complication, threatens vision loss and blindness. Early detection, alongside lifestyle adjustments, can manage DR effectively. Traditional methods for DR detection are time consuming, costly and require specialized skills. Computer assisted screening systems, leveraging technologies like Fundus images and Optical Coherence Tomography (OCT), streamline DR detection, with Artificial Intelligence (AI) playing a pivotal role. Technological advancements and abundant data fuel significant progress in AI-based DR screening, promising enhanced accuracy and efficiency, even in remote regions. In healthcare, “normal” and “abnormal” statuses characterize patient health. AI applications in healthcare often focus on anomaly detection, leveraging distinct data distributions. Generative architectures, originally designed for content generation, find application across various domains, including healthcare. By adjusting architecture and data pipelines, controlled and specific samples can be generated, offering solutions for anomaly detection.
This paper reviews fundamental aspects of diabetes and DR, exploring the utilization of generative AI in analyzing retinal data for DR detection. It also discusses recent advancements in Generative AI and their potential to enhance AI solutions in healthcare.
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