CSO MS-39

Is the most advanced device for the analysis of the anterior segment of the eye. MS-39 combines Placido disk corneal topography, with high resolution OCT-based anterior segment tomography. The clarity of the cross-sectional images, with a 16 mm diameter, along with the many details of the cornea structure and layers revealed by the MS-39, will be appreciated by  anterior segment specialists. MS-39 provides information on pachymetry, elevation, curvature and dioptric power of both corneal sufaces.

In addition to anterior segment clinical diagnostics, MS-39 can be used in corneal surgery for refractive surgery planning. An IOL calculation module is also available, based on Ray-Tracing techniques, Additional tools allow MS-39 to perform accurate pupil diameter measuremets and the advanced analysis of tear film.

Key Features

• High-Resolution Corneal Imaging: Delivers exceptional sharpness in cross-sectional images across 16mm diameter, revealing detailed corneal layer structure and providing comprehensive pachymetry, elevation, curvature, and power information for both anterior and posterior corneal surfaces with clarity appreciated by corneal specialists.
• Advanced Epithelial & Stromal Mapping: Provides separate measurement and mapping of epithelial and stromal layers, addressing the epithelial masking effect that can obscure underlying corneal abnormalities, enabling clinicians to assess subtle surface irregularities and stromal changes critical for accurate diagnosis and surgical decision-making.
• Comprehensive Corneal Aberrometry: Offers complete aberrometric analysis with selectable contribution from anterior, posterior, or total cornea across multiple pupil diameters, presenting OPD/WFE maps and visual quality simulations (PSF, MTF, image convolution) to help clinicians understand and explain patients’ visual symptoms and optical performance.
• Integrated Keratoconus Screening: Provides essential ectasia detection analysis delivering important diagnostic information about corneal stability, helping clinicians identify at-risk patients and prevent complications associated with corneal ectasia before undertaking refractive or other corneal surgical procedures.
• Crystalline Lens Biometry: Features dedicated acquisition mode for precise measurement of crystalline lens thickness, anterior chamber depth (lens-to-cornea distance), and lens equator dimensions, enabling more accurate effective lens position (ELD) determination to refine intraocular lens power calculations for superior cataract surgery outcomes.

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