DREAM OCT?: Deep imaging depth, Rapid sweeping speed, Extensive scan range, Accurate lesion detection, and Multimodal imaging capabilities

Introduction:

DREAM OCT?. DREAM stands for:

Deep imaging depth, Rapid sweeping speed, Extensive scan range, Accurate lesion detection, and Multimodal imaging capabilities.

-DREAM OCT? is an advanced imaging system that utilizes Swept-Source OCT and a unique algorithm to offer an unprecedented imaging depth of 12 mm for retina imaging and 16.2 mm for anterior segment imaging. The system has a fast scan speed of up to 400KHz, enabling it to cover an ultrawide field of 26 mm × 21mm on the retina with a single scan, and can detect tiny nascent vascular pathologies with high detection sensitivity.

-DREAM OCT? integrates a full set of imaging modalities, including Retinal OCT, Retinal OCTA, AS-OCT, AS-OCTA, and visualized biometry, to achieve accurate measurement of retina curvature and full eye imaging. The system's technology and features include being deep, rapid, extensive, accurate, and multimodal, which can achieve functions that were previously impossible.

-The system's applications include retina & vitreous, anterior segment, and ONH features, such as ultra-widefield OCT angiography, higher detection sensitivity, various and accurate quantitative analysis, automatic measurements, and high-resolution AS-OCTA. DREAM OCT? has numerous clinical and research applications, providing infinite possibilities for clinical diagnosis and research work.

DREAM OCT Technology Features:

-Deep: Achieves an unprecedented imaging depth of 12 mm for retina imaging and 16.2 mm for anterior segment imaging.

-Rapid: Has a scan speed of up to 400KHz, which eliminates motion artefacts and is crucial in high-resolution OCT angiography.

-Extensive: Can cover an ultrawide field of 26 mm × 21mm on the retina with a single scan and can uncover lesions toward the edge of the retina.

-Accurate: Capable of detecting tiny nascent vascular pathologies with high detection sensitivity and reduces artefacts to reveal true lesions. Provides accurate biometric measurements for clinical decisions.

-Multimodal: Integrates a full set of imaging modalities for challenging clinical and research applications. The combination of different modalities collaboratively achieves functions that were impossible before.

DREAM OCT? Applications

Retina & Vitreous

Anterior Segment

ACA & ONH-(Anterior Chamber Angle& ONH)

Retina & Vitreous:?

The DREAM OCT? provides excellent performance in the retina & vitreous field with ultra-widefield high-resolution imaging, higher detection sensitivity, and various quantitative analysis, which could provide infinite possibilities for both clinical diagnosis and research work.

-Ultra-Widefield OCT Angiography:?

The DREAM OCT? provides ultra-widefield OCT angiography with a range of 26 mm × 21 mm with one single scan, and the montage of over 200° field of view, which could provide much more diagnostic information for diseases with extensive lesions in a non-invasive and more efficient way.

-Higher Detection Sensitivity:?

The DREAM OCT? shows higher detection sensitivity for nascent tiny pathologies and complicated lesions, greatly reducing misdiagnosis with its strong penetrating power, optimized "True-Angiography" algorithm, and unique "Deep Layer" AI segmentation solution.

-Various and Accurate Quantitative Analysis:?

The DREAM OCT? ensures the accuracy of flow quantitative analysis, providing automatic measurements for FAZ, vessel density, flow area, etc. It can also provide choroidal vessel volume (CVV) and choroidal vessel index (CVI) to help research work on choroids.

-Higher Success Rate of Retinal OCT Scanning for Patients with Ocular Media Opacity:?

The DREAM OCT? penetrates ocular media opacity much more easily, providing much clearer OCT images of the fundus, which helps predict the prognosis of the surgery before making a decision.

Anterior Segment Features:

Screening before Refractive Surgeries: The DREAM OCT? provides comprehensive screening for corneal condition before refractive surgeries, including corneal thickness topography, corneal curvature diagram, corneal height diagram for both anterior and posterior surfaces, and corneal epithelial thickness topography.

-Higher Success Rate of Axial Length Measurements for Patients with Ocular Media Opacity:?

The DREAM OCT? penetrates severe opacity of the lens to measure axial length precisely based on visualized OCT imaging, providing reliable data for IOL calculation before surgery.

-AI Guided Automatic Measurements for AS-OCT: The DREAM OCT? uses AI technology to automatically identify structures and measure parameters such as anterior chamber depth, ICL vault, and corneal flap thickness, assessing the effect of refractive surgeries objectively.

-Super-Depth of AS-OCT Imaging Helps Make Surgical Plans and Assess the Results:?

The DREAM OCT? achieves super-depth imaging of 16.2mm for high-resolution AS-OCT images, providing a visualized monitoring tool for perioperative management, surgical planning, and effect assessment.

Anterior Chamber Angle & ONH Features:

Automatic Measurements for 360° Anterior Chamber Angle: The DREAM OCT? uses AI identification for anatomical structures to provide automatic measurements for the anterior chamber angle, achieving a non-contact rapid assessment.

-High-resolution AS-OCTA:?

The DREAM OCT? clarifies vessels around the limbus and shows new vessels on the iris clearly, penetrating through dense pigment on the iris, achieving visualized iris flow.

-RNFL & GCC Analysis:?

The DREAM OCT? precisely identifies RNFL and GCC with "Deep Layer" AI segmentation, achieving accurate thickness measurements for clinical screening and monitoring.

-ONH Vessel Density Analysis:?

The DREAM OCT? uses OCT angiography to measure vessel density for small vessels, showing injury on RPCP objectively, and providing accurate data for early diagnosis and research work.

In conclusion, the DREAM OCT? is a high-tech imaging system that uses Swept-Source OCT and a proprietary algorithm to provide an unprecedented imaging depth of 12 mm for retina imaging and 16.2 mm for anterior segment imaging. It has a fast scan speed of up to 400KHz, which helps to eliminate motion artifacts, and can cover an ultrawide field of 26 mm × 21mm on the retina with a single scan, allowing it to detect tiny nascent vascular pathologies with high detection sensitivity.

The DREAM OCT? integrates a full set of imaging modalities, including Retinal OCT, Retinal OCTA, AS-OCT, AS-OCTA, and visualized biometry, to achieve accurate measurement of retina curvature and full eye imaging. It has various applications in retina & vitreous, anterior segment, and ONH features, such as ultra-widefield OCT angiography, higher detection sensitivity, various and accurate quantitative analysis, automatic measurements, and high-resolution AS-OCTA. The DREAM OCT? provides clinicians and researchers with infinite possibilities for clinical diagnosis and research work.