The Intelligent Thermal Control function dynamically adjusts the distribution of the laser spot to ensure that the thermal effect on the cornea is always maintained within the normal range. This means that the heat generated by the laser spot on each part of the cornea has enough time to dissipate and cool down. Although SCHWIND AMARIS has achieved extremely high treatment speeds, it is the control of the thermal effect that prevents any damage to the cornea due to prolonged exposure.
The Amaris treatment laser beam has the smallest spot diameter available at only 0.54 mm (FWHM), and the laser spot is ultra-Gaussian distributed, allowing for precise cutting while achieving an extremely smooth corneal stromal surface. High speeds are only advantageous if precision is guaranteed! An eye tracking frequency of up to 1050 Hz reduces the system delay time to less than 3 milliseconds, pinpointing the position of the eye at the time each laser pulse is fired.
Our innovation is the combination of high-frequency tracking and groundbreaking omni-directional eye tracking, which results in an unrivaled level of six-dimensionality that accurately compensates for all eye movements. SCHWIND's Customized Ablation Manager (CAM) software, which can be used for a wide range of refractive and therapeutic laser corneal surgery applications, is based on many years of clinical experience and is designed to help you achieve optimal surgical results. the CAM software is pre-installed on the SCHWIND Wavefront Aberration Combined Diagnostic System, which allows you to easily retrieve your patient's results without missing any important details. The CAM software is pre-installed on the SCHWIND Wavefront Aerial Combined Diagnostic System, allowing you to easily access your patient's diagnostic results without missing any important details.
The CAM software provides a number of surgical parameters that can be set independently, such as the correction target value, the optical zone, the reference value for corneal flap thickness, and the residual corneal stromal thickness. Surgical planning can be done on SCHWIND Wavefront Aberration Joint Diagnostic System before the day of surgery, or can be set directly after entering the Amax Excimer Laser Surgical System. The Optimized Refractive Keratectomy ORK-CAM module is used for the design of keratoconus excimer laser surgery.
Either the standard treatment mode, ablative cutting, or individualized cutting guided by corneal or whole-eye wavefront aberrations is performed using aspheric cutting modes, making the data import process easy and convenient.
Aberration-free aberrations allow patients to maintain their accustomed visual impressions by preserving the higher order aberrations that existed before the surgery to achieve optimal visual quality. The wavefront aberration-guided individualized cutting mode has a unique "selective aberration correction" function, which enables precise correction of higher-order aberrations. In addition, with the software's Minimize Depth/Volume function, the system automatically optimizes the volume and depth of cut to preserve as much corneal tissue as possible and shorten the cutting time.
For each treatment, the SCHWIND-CAM software compensates for the reduced cutting efficiency due to differences in corneal curvature and the tilted entry of the laser beam at the periphery of the cornea, ensuring that the exact amount of volume needed to be removed from the cornea is removed, dramatically reducing the dependence of the cutting program on the nomogram. The SCHWIND AMARIS excimer laser system is ergonomically designed, with all control panels well positioned, easily accessible and clearly labeled. The treatment process can be monitored and controlled via a 17" flat screen monitor. The orientation of the monitor is adjustable in all directions for the comfort of the operator and assistants. A small display in the operator's field of view also indicates key operating information.
The laser arm can be rotated up to 90 degrees, which is an advantage when preparing patients for surgery, and can also be used in conjunction with other medical equipment. The specially designed surgical bed also provides an extremely comfortable operating experience. A joystick allows the bed to be swiveled at different angles up to 90 degrees, making it easy to combine the bed with other surgical equipment. AMARIS has the highest cutting frequency available, up to 500 Hz, which is much higher than other excimer lasers available today (60 Hz - 400 Hz). Conventional surgery to correct 1 diopter of myopia (100 diopters of myopia) takes only 2.0 seconds, and the patient's intraoperative cooperation will be very easy.
During the procedure, AMARIS will use both high and low levels of laser energy density (to cut the corneal tissue), which ensures the speed of the procedure and a very smooth corneal stromal surface, resulting in faster healing and better visual quality. AMARIS AMARIS is equipped with the most advanced high-speed six-dimensional eye tracking system, which monitors eye movements in all dimensions. With a tracking speed of up to 1050Hz, any rapid and tiny movements of the eyeball can be detected during the surgery, and the laser emission position can be adjusted in time to ensure the safety and precision of the surgery.
In addition, the high-resolution real-time corneal thickness measurement function will monitor the corneal thickness changes throughout the entire process, so that the surgeon can grasp all the treatment data at all times, with a high safety baseline, avoiding postoperative corneal thinning and other adverse reactions. Germany SCHWIND company for AMARIS AMARIS excimer laser surgery system is equipped with the most complete and accurate wavefront aberration diagnostic platform, accurate and comprehensive analysis of the human eye's whole eye wavefront aberration and corneal wavefront aberration data, with the help of SCHWIND CAM surgical design software, to provide two kinds of on-line personalized correction program for the surgeon to select, the maximum possible perfect each patient's The result will be perfect for every patient.