Aladdin Optical Biometry and Topography System
The Aladdin is an easy-to-use, combination optical biometer and full corneal typographer. The Aladdin Optical biometry and topography system is a cutting-edge diagnostic tool used in ophthalmology clinics to assess various aspects of the eye's structure and function. This advanced system combines optical biometry and corneal topography to provide comprehensive information about the patient's eyes.
Key features:
• Keratometry / Topography
• Keratoconus screening
• Pupillometry
• Aberrometry analysis (Zernike)
• Axial length
• Anterior biometry
• White to white
9-in-1 Features
9-in-1 features include optical coherence biometry, Placido topography, wavefront analysis of the cornea, IOL calculation suite, pupillometry, DICOM connectivity and the NEW RX/AL Trends Module. Posterior & Anterior interferometry Biometry results are complemented with anterior topography, Zernike analysis and pupillometry in one fast, accurate and easy acquisition.
RX/AL Trends Module
Experience the Aladdin RX/AL Trends Module:
The precise tool to monitor longitudinal changes in the eye. By combining manually entered refractive information with biometric data obtained by low-coherence interferometry, the Aladdin provides a quantitative report of the progression of changes in the eye’s refractive power. After the refraction values are entered, the Aladdin performs 7 critical measurements and provides a numerical analysis of the trends of the eye parameters related to changes in the axial length, corneal curvature, anterior corneal wave front analysis and other dimensional variations. Changes can be followed in periods of 3, 6 and 12 months providing a trend that can be used to track the progression of certain eye conditions.
Posterior & Anterior interferometry
Biometry results are complemented with anterior topography, Zernike analysis and pupillometry in one fast, accurate and easy acquisition. The Interferometer of Aladdin also provides anterior measurements such as the Central Corneal Thickness (CCT), Anterior Chamber Depth (ACD) and Lens Thickness. You get the complete picture for all cataract surgeries. Whether you are performing standard cataract surgery or premium IOL implantation, you will be screening for corneal aberrations, Keratoconus* and previous corneal refractive surgery procedures all at once. The Aladdin only requires just one Acquisition.
Onboard Barrett IOL Calculation Suite
Takes into account the posterior cornea considering the lens position for each individual patient instead of calculating IOL power by estimating lens
thickness based on patient’s age.
Considers the thickness and shape of the lens as well, which provides a more sophisticated way of predicting and translating the cylinder power. The formula can predict posterior corneal curvature without actually measuring it. The Aladdin system works by utilizing advanced optical technology to measure key parameters of the eye, including axial length, corneal curvature, anterior chamber depth, and lens thickness. These measurements are crucial for accurate preoperative planning in cataract surgery and refractive procedures such as LASIK. By obtaining precise biometric data, the Aladdin system helps ophthalmologists calculate the power of intraocular lenses (IOLs) needed to achieve optimal visual outcomes for cataract surgery patients.
In addition to optical biometry, the Aladdin system also performs corneal topography, which maps the curvature and shape of the cornea. This information is essential for diagnosing and managing corneal irregularities, such as keratoconus, corneal ectasia, and corneal astigmatism. By analyzing corneal topography, the Aladdin system aids in the detection of corneal abnormalities and guides treatment decisions, including the fitting of specialty contact lenses and the planning of refractive surgeries.
Overall, the Aladdin Optical biometry and topography system provides valuable insights into the structure and function of the eye, facilitating accurate diagnoses and personalized treatment plans for patients. By combining optical biometry and corneal topography, this innovative system helps ophthalmologists optimize surgical outcomes, improve visual quality, and enhance the overall patient experience.
