High-definition (HD) Optical coherence tomography (OCT)
High-definition (HD) Optical coherence tomography (OCT) is an advanced diagnostic tool used in ophthalmology to visualize and analyze the structures of the retina and optic nerve. By emitting light waves into the eye, it creates high-resolution cross-sectional images that provide valuable information for the diagnosis and management of various eye diseases, including glaucoma, diabetic retinopathy, and macular degeneration.
高清光學相干斷層掃描是眼科學中的先進診斷工具,用於視網膜和視神經結構的可視化和分析。它向眼睛發射光線,創建高分辨率的橫斷面圖像,這些圖像為診斷和治療各種眼部疾病提供了有價值的信息,包括青光眼、糖尿病視網膜病變和黃斑變性。
One of the key advantages of the HD-OCT is its ability to provide accurate and reliable measurements of the thickness of the retinal nerve fiber layer (RNFL) and the ganglion cell-inner plexiform layer (GCIPL). These measurements can be used to guide treatment decisions and track disease progression over time. The system's RNFL and GCIPL guided progression analysis is a powerful tool that helps ophthalmologists detect early signs of glaucoma and monitor its progression.
高清光學相干斷層掃描的一個關鍵優勢是它能夠提供準確可靠的測量視網膜神經纖維層(RNFL)和神經節-內膜層(GCIPL)的厚度。這些測量可以用於指導治療決策和跟踪疾病進展。該系統的RNFL和GCIPL引導進展分析是一個強大的工具,有助於眼科醫生檢測青光眼的早期徵兆並監測其進展。
The RNFL and GCIPL guided progression analysis in the HD-OCT compares measurements taken at different time points to detect changes in the thickness of these layers. These changes can be an indication of disease progression and help ophthalmologists make informed decisions about when to initiate treatment and how to adjust treatment over time.
在高清光學相干斷層掃描中,RNFL和GCIPL引導進展分析通過比較不同時間點的測量值來檢測這些層的厚度變化。這些變化可能是疾病進展的表現,有助於眼科醫生作出明智的治療決策,包括何時開始治療以及如何隨情況調整治療方案。
In addition to the RNFL and GCIPL guided progression analysis, HD-OCT offers a range of other advanced imaging capabilities that are useful in the diagnosis and management of various eye diseases. For example, the system's macular cube module can provide detailed images of the macula, allowing for the early detection and management of macular degeneration. The optic disc cube module can image the optic nerve head, providing valuable information for the diagnosis and management of glaucoma.
除了RNFL和GCIPL引導進展分析外,高清光學相干斷層掃描還提供了其他多種先進成像功能,用於診斷和治療各種眼部疾病。例如,該系統的黃斑立方模塊可以提供黃斑的詳細圖像,有助於早期發現和管理黃斑變性。視網膜盤立方模塊可以成像視神經盤,為青光眼的診斷和治療提供有價值的信息。
Overall, HD-OCT is a powerful diagnostic tool that offers a range of advanced imaging capabilities for the diagnosis and management of various eye diseases. Its RNFL and GCIPL guided progression analysis, in particular, is a valuable asset for the early detection and monitoring of glaucoma, a leading cause of blindness worldwide. With its ability to provide highly detailed images and measurements in real-time, HD-OCT has become an essential tool for ophthalmologists in the diagnosis and treatment of a wide range of eye conditions.
總體而言,高清光學相干斷層掃描是一種強大的診斷工具,提供多種先進的成像功能,用於診斷和治療各種眼部疾病。其中,RNFL和GCIPL引導進展分析對於早期檢測和監測青光眼等導致全球失明的主要原因之一的疾病非常有價值。憑藉其即時提供高度詳細的圖像和測量的能力,高清光學相干斷層掃描。
HD-OCT RNFL and ONH Analysis Report
HD-OCT Ganglion cell analysis
HD-OCT RNFL Guided Progression Analysis