000009291 001__ 9291
000009291 005__ 20240124114320.0
000009291 0247_ $$2DOI$$a10.6083/5q47rp440
000009291 037__ $$aETD
000009291 245__ $$aHigh-performance optical coherence tomographic angiography platform
000009291 260__ $$bOregon Health and Science University
000009291 269__ $$a2021
000009291 336__ $$aCapstone
000009291 502__ $$bPh.D.
000009291 520__ $$aOptical coherence tomography (OCT) has become an indispensable ophthalmic diagnosis tool due to its fast, noninvasive, three-dimensional features and micrometer resolution. Its functional extension, OCT angiography (OCTA), has recently been translated into the clinic for replacing dye-based fluorescence angiography. However, the performance of currently available commercial OCT/OCTA systems are limited by the field of view, algorithm/system sensitivity, and lack of real-time scan quality evaluation capability. This dissertation presents technical improvements for both OCT systems and OCTA algorithms.
000009291 650__ $$aAngiography$$014747
000009291 6531_ $$aoptical coherence tomography
000009291 6531_ $$aophthalmologic diagnostic techniques
000009291 691__ $$aSchool of Medicine$$041369
000009291 692__ $$aDepartment of Biomedical Engineering$$041397
000009291 7001_ $$aWei, Xiang
000009291 8564_ $$90bcbdb22-83ff-47a7-a5e0-398547a4124f$$s3870466$$uhttps://digitalcollections.ohsu.edu/record/9291/files/Wei.Xiang.2021.pdf
000009291 905__ $$a/rest/prod/5q/47/rp/44/5q47rp440
000009291 909CO $$ooai:digitalcollections.ohsu.edu:9291$$pstudent-work
000009291 980__ $$aTheses and Dissertations