A novel ergonomic optical coherence tomography probe optimized for supine handheld angiography of young children and infants (Conference Presentation)

C. Viehland, Xi Chen, Du Tran-Viet, G. Waterman, Moseph Jackson-Atogi, C. Toth, J. Izatt
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Abstract

Optical coherence tomography angiography (OCTA) is an extension of OCTA that allows for non-invasive imaging of the retinal microvasculature. OCTA imaging of adult retinal diseases is area of active research in ophthalmology as OCTA can provide insight into the pathogenesis of many retinal diseases. Like these adult diseases, pediatric diseases such as retinopathy of prematurity (ROP) have a primarily vascular pathogenesis. However, table top OCTA systems require compliant, seated subjects and cannot be used on infants and young children. In this manuscript we describe the development of a non-contact handheld OCTA (HH-OCTA) probe for imaging of young children and infants in the operating room. The probe utilizes a novel, diverging light on the scanner optical design that provides improved performance over a traditional OCT scanner design. While most handheld OCT probes are designed to be held by the side of the case or by a handle, our operators tend to prefer to grip probes by the tip of the probe for supine imagine. The ergonomics of the HH-OCTA probe were designed to match this grip. The HH-OCTA probe used a 200 kHz OCT engine, has a motorized stage that provides +10 to -10 D refractive error correction, and weighs 700g. Initial OCTA imaging was performed in 9 children or infants during exam under anesthesia. The HH-OCTA images provide visualization of the retinal microvasculature in both normal and pathological eyes.
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一种新型的符合人体工程学的光学相干断层扫描探头,用于婴幼儿仰卧位手持式血管造影(会议报告)
光学相干断层扫描血管造影(OCTA)是OCTA的延伸,允许视网膜微血管的非侵入性成像。成人视网膜疾病的OCTA成像是眼科研究的活跃领域,因为OCTA可以深入了解许多视网膜疾病的发病机制。像这些成人疾病一样,儿科疾病如早产儿视网膜病变(ROP)主要是血管发病。然而,桌面OCTA系统需要顺从的、坐着的受试者,不能用于婴幼儿。在这篇手稿中,我们描述了一种非接触式手持式OCTA (HH-OCTA)探头的发展,用于在手术室中对幼儿和婴儿进行成像。该探头在扫描仪光学设计上采用了一种新颖的发散光,比传统的OCT扫描仪设计提供了更好的性能。虽然大多数手持式OCT探头被设计为由外壳侧面或手柄握住,但我们的操作员倾向于通过探头尖端握住探头,以进行仰卧想象。HH-OCTA探针的人体工程学设计与这种抓地力相匹配。HH-OCTA探针使用200 kHz OCT发动机,具有提供+10至-10 D屈光误差校正的机动级,重700克。9例儿童或婴儿在麻醉下检查时进行了首次OCTA成像。HH-OCTA图像提供了正常和病理眼睛视网膜微血管的可视化。
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