ONE-STOP DREAM SOLUTION
Glaucoma
The various kinds of quantitative analysis provided by the DREAM OCT, such as measurements for ACA, RNFL, GCC, as well as the ONH vessel density, could be very helpful for screening and monitoring early-stage glaucoma. Meanwhile, the AS-OCTA could be a convenient and intuitive tool for the assessment of neovascular glaucoma.
ONE-STOP DREAM SOLUTION
Glaucoma
The various kinds of quantitative analysis provided by the DREAM OCT, such as measurements for ACA, RNFL, GCC, as well as the ONH vessel density, could be very helpful for screening and monitoring early-stage glaucoma. Meanwhile, the AS-OCTA could be a convenient and intuitive tool for the assessment of neovascular glaucoma.
Automatic Measurements for 360° Anterior Chamber Angle
Based on AI identification for some anatomical structures such as scleral spur, the DREAM OCT could provide automatic measurements for anterior chamber angle, including AOD, ARA, TISA, TIA, etc., to achieve a non-contact rapid assessment for glaucoma.
Automatic Measurements for 360° Anterior Chamber Angle
Based on AI identification for some anatomical structures such as scleral spur, the DREAM OCT could provide automatic measurements for anterior chamber angle, including AOD, ARA, TISA, TIA, etc., to achieve a non-contact rapid assessment for glaucoma.
High-resolution AS-OCTA
With the help of “Deep Layer” AI segmentation, the DREAM OCT could easily clarify the vessels around the limbus, and show the iris neovascularization very clearly. In addition, the DREAM Swept-Source engine could penetrate through the dense pigment on Asian iris much more easily, providing visualized imaging information for diagnosis and monitoring of NVG.
High-resolution AS-OCTA
With the help of “Deep Layer” AI segmentation, the DREAM OCT could easily clarify the vessels around the limbus, and show the iris neovascularization very clearly. In addition, the DREAM Swept-Source engine could penetrate through the dense pigment on Asian iris much more easily, providing visualized imaging information for diagnosis and monitoring of NVG.
RNFL & GCC Analysis
With the help of “Deep Layer” AI segmentation, the DREAM OCT could precisely identify the retinal nerve fiber layer (RNFL) and the ganglion cell complex (GCC), measure their thickness and compare with the normative database. The RNFL & GCC analysis plays a very important role in screening and monitoring early-stage glaucoma.
RNFL thickness analysis shows RNFL defect on temporal-inferior of the ONH.
GCC thickness analysis shows GCC thinning on temporal-inferior of the fovea.
RNFL & GCC Analysis
With the help of “Deep Layer” AI segmentation, the DREAM OCT could precisely identify the retinal nerve fiber layer (RNFL) and the ganglion cell complex (GCC), measure their thickness and compare with the normative database. The RNFL & GCC analysis plays a very important role in screening and monitoring early-stage glaucoma.
RNFL thickness analysis shows RNFL defect on temporal-inferior of the ONH.
GCC thickness analysis shows GCC thinning on temporal-inferior of the fovea.
ONH Vessel Density Analysis
Based on OCT angiography of ONH, the DREAM OCT could measure vessel density only for small vessels. As the large vessels have been excluded, this kind of analysis could show the injure of glaucoma on radial peripapillary capillary plexus (RPCP) much more objectively, providing more accurate data for early diagnosis and research work on glaucoma.
Vessel density analysis for superficial vascular complex
Vessel density analysis for small vessels of superficial vascular complex
ONH Vessel Density Analysis
Based on OCT angiography of ONH, the DREAM OCT could measure vessel density only for small vessels. As the large vessels have been excluded, this kind of analysis could show the injure of glaucoma on radial peripapillary capillary plexus (RPCP) much more objectively, providing more accurate data for early diagnosis and research work on glaucoma.
Vessel density analysis for superficial vascular complex
Vessel density analysis for small vessels of superficial vascular complex