Catalog excerpts
Swept Source Optical Coherence Tomography
Open the catalog to page 1See. Discover. Explore. The diagnostic power of Swept Source OCT Deep Range Imaging¹. “Swept Source adds a new dimension to OCT. The TOPCON DRI Swept Source OCT is easy to use, provides unique clinical information, and has improved my practice. For the first time, we can in-vivo visualize not only the vitreo-retinal interface but also the cortical vitreous which is important at the time when more and more therapies are delivered via intra-vitreal injections. Deeper imaging brings choroidal thickness, helping guide my clinical decisions. Seeing more helps guide my therapy and allows me to...
Open the catalog to page 2Welcome to the New Frontier in OCT Imaging. The DRI OCT Triton combines the world’s first2 Swept Source OCT technology with multimodal fundus imaging. Image Quality Triton’s Swept Source with its 100 kHz scanning speed and 1,050nm wavelength results in a clear and detailed images even for the deepest layers of the eye with short acquisition time. Visualize not only the retina and vitreous, but also the choroid and sclera1. Diagnostic capability Seeing deeper makes it possible to have a better understanding of many ocular pathologies1.With features such as OCT angiography, fundus...
Open the catalog to page 3Proliferative diabetic retinopathy Lateral: 12mm Courtesy: Prof. P. E. Stanga, Manchester Royal Eye Hospital, Manchester Vision Regeneration (MVR) Lab at N IHR/ Welcome Trust Manchester CRF & University of Manchester Courtesy: Prof. P. E. Stanga, Manchester Royal Eye Hospital, Manchester Vision Regeneration (MVR) Lab at N IHR/ Welcome Trust Manchester CRF & University of Manchester * FA photography and FAF photography can be performed using only DRI OCT Triton Plus. 1) Fabio Lavinsky, Daniel Lavinsky. Novel perspectives on swept‑source optical coherence tomography. Int J Retin Vitr (2016)...
Open the catalog to page 4Central serous chorioretinopathy Lateral: 12mm Courtesy: Prof. P. E. Stanga, Manchester Royal Eye Hospital, Manchester Vision Regeneration (MVR) Lab at N IHR/ Welcome Trust Manchester CRF & University of Manchester Courtesy: Prof. P. E. Stanga, Manchester Royal Eye Hospital, Manchester Vision Regeneration (MVR) Lab at N IHR/ Welcome Trust Manchester CRF & University of Manchester * FA photography and FAF photography can be performed using only DRI OCT Triton Plus.
Open the catalog to page 5Pathological myopia Lateral: 12mm Courtesy: Prof. P. E. Stanga, Manchester Royal Eye Hospital, Manchester Vision Regeneration (MVR) Lab at N IHR/ Welcome Trust Manchester CRF & University of Manchester Macular pucker Lateral: 12mm Courtesy: Prof. P. E. Stanga, Manchester Royal Eye Hospital, Manchester Vision Regeneration (MVR) Lab at N IHR/ Welcome Trust Manchester CRF & University of Manchester 1) Fabio Lavinsky, Daniel Lavinsky. Novel perspectives on swept‑source optical coherence tomography. Int J Retin Vitr (2016) 2:25
Open the catalog to page 6Image through cataract a, b, c courtesy of Kazuya Yamagishi, MD (Hirakata Yamagishi Eye Clinic, Japan)
Open the catalog to page 7Discover What Lies Beneath TOPCON’s SS OCT AngioTM combines OCT angiography with a Swept Source OCT. OCTARATM, a proprietary image processing algorithm, provides highly sensitive angiographic detection3, allowing for visualization of vascular structures even in the choroid and deeper retinal layers. High-sensitivity Imaging and Deeper Intravascular Flow Visualization1 Swept Source technology and OCTARATM allow the deeper structures to be visualized with less depthdependent signal roll-off 3. Additionally, the 1μm wavelength makes OCT Angiography imaging possible for patients with media...
Open the catalog to page 8OCTARATM OCTARATM is the image processing technology which extracts the signal changes derived from vascular flow using multiple OCT B-Scans acquired at the same position. It demonstrates high sensitivity for the detection of low blood flow in microvasculature3. Choroid (GA ) (3.0 x 3.0 mm) Courtesy of SriniVas R. Sadda, M.D., Courtesy: SriniVas R. Sadda, M.D., Doheny Eye Institute, UCLA Doheny Eye Institute, UCLA Choroid (CNV ) Courtesy: SriniVas R. Sadda, M.D., Doheny Eye Institute, UCLA RPC(Glaucoma) Courtesy: Kazuya Yamagishi, MD., Hirakata Yamagishi Eye Clinic, Japan Multimodal Viewing...
Open the catalog to page 9Discover What Lies Beneath Proliferative diabetic retinopathy SS OCT AngioTM Montage Courtesy: Akihiro Ishibazawa, MD, PhD. Asahikawa Medical University Graduate School of Medical Sciences, Hokkaido, Japan Before treatment Courtesy: Akihiro Ishibazawa, MD, PhD. Asahikawa Medical University Graduate School of Medical Sciences, Hokkaido, Japan After treatment Courtesy: Akihiro Ishibazawa, MD, PhD. Asahikawa Medical University Graduate School of Medical Sciences, Hokkaido, Japan
Open the catalog to page 10Branch retinal vein occlusion Courtesy:Yuichiro Ogura, MD, Professor and Chairman, Department of Ophthalmology and Visual Science, Nagoya City University, Nagoya, Japan
Open the catalog to page 11Discover more possibilities: see beyond and deeper OCTA metrics on Triton SS OCT Angio allows clinicians to objectively and quantitatively assess retinal vasculature, providing valuable insights into the patient’s eye health. Courtesy: Michael H. Chen, O.D.
Open the catalog to page 12Swept Source OCT Imaging 1,050nm wavelength The longer wavelength light provides better tissue penetration, allowing visualization into the deepest layers of the eye1. Courtesy: Professor Jose Maria Ruiz Moreno MD, University of Albacete, Spain Swept Source OCT technology; scanning speed of 100,000 A-scans/sec The fast scanning speed of 100,000 A-scans/sec enables capture of clear B-scans4 by acquiring more A-scans within a given image acquisition involuntary eye movements such as saccades time. This helps to reduce artifacts from Invisible scan lines The invisible 1,050nm wavelength light...
Open the catalog to page 13Projection image en face imaging allows for independent dissection of a depth range defined by two boundaries, selected from seven possible boundaries, by flattening the 3D data cube. Lamina Cribosa Original image Lamina Cribosa Courtesy: Prof. T. Nakazawa, MD,PhD, Tohoku University, Japan Flattened image Courtesy: Prof. T. Nakazawa, MD,PhD, Tohoku University, Japan Vitreous visualization Dynamic FocusTM Dynamic FocusTM on Triton allows for acquisition of images with near uniform focus and image quality throughout the entire depth of the image, which helps to enhance the typically weaker...
Open the catalog to page 14All Topcon Healthcare catalogs and technical brochures
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