MICRON M7
REFRACTIVE EXCIMER LASER
Explore the MICRON M7 Excimer Laser by touching the Hotspots.
LARGE TOUCHSCREEN MONITOR and KEYBOARD for easy user interaction.
MICROSCOPE including LED ILLUMINATION and auxiliary beams on a robotic arm. Large working distance and natural color LED for easy patient preparation and surgery control.
The UNIQUE ROBOTIC APPLICATOR moves down after FLAP CREATION either by mechanical microkeratome or Femtosecond Laser. It delivers the laser beam close to the eye to minimize environmental influences.
SMALL FOOTPRINT, LIGHT and MOBILE.
JOYSTICK CONTROL for a simple docking procedure and automated for patient eye centration.
SMART OPTICS DESIGN and LASER ENERGY MANAGEMENT minimizes operating costs and gas consumption.
Compact Laser Workstation
The MICRON M7 is designed for maximum patient comfort.
Straightforward optics design for precision and predictability.
Designed for cost-efficiency and low gas consumption.
Treatment Options
LASIK PRK, TEpi-PRK (Transepithelial PRK) with selectable zone sizes and Depth.
PresbyCOR(TM) PTK and optional Topography guided Treatments (planned).
Unique Beam Delivery Philosophy
We have redefined the traditional approach. With the MICRON M7 the patient lies still, microscope and beam applicator moves towards the patient on robotic arms – resulting in small system dimensions, less complex mechanics, large working distance and less dependence on environmental influences.
REVOLUTIONARY
The first laser in refractive surgery leading the light right to the eye via a robotic applicator.
MORE PRECISION
A combination of continuously working video eyetracker and docking eyepiece tracks eye movements and minimizes fixation saccades.
Robotic Arms
Our goal is to present the smallest excimer laser platform. To do so, we eliminated the need for a motorized patient bed. Instead, we are bringing the laser light to the eye via a specially designed mobile applicator which is attached to a robotic arm.
The main advantage of this approach is the large working distance during patient preparation and a small distance during treatment, minimizing environmental influences.
The slidable patient bed provides maximum patient comfort. When preparing surgery, all robotic arms are moved away from the patient. The patient will not experience the feeling of being ”block and locked into a machine” and lies relaxed during the whole procedure.
Auto Centration
Our video eyetracking system is connected to the controls of the robotic arms. Once the pupil is detected, the system automatically locks itself on the center of the patient’s pupil, following the movement within tracking range.
In case the eye moves out of eyetracking range during surgery, a re-centration just by pressing the center button can be achieved quick and easy.
A manual reposition of the bed by using the joystick is not neccessary anymore.
Safe and Fractional Ablation
Fractional ablation is our approach of treating the whole treatment zone in a combined spherocylindrical pattern from the beginning, increasing the refractive correction over time.
The randomized flying spot pattern distributes the individual laser pulses across the whole treatment zone from the beginning. Thus spreading the thermal impact on a larger area and minimizing the temperature increase on the stroma. This will reduce the risk of haze on surface ablation techniques such as PRK, EpiLasik or related treatment techniques.
As an additional advantage, any unintended surgery interruption poses less risk. The surgery can later be finished in a second session similar to re-treating an undercorrection.
Closed-up Operation & Plume Removal
The MICRON M7 uses patterned closed-up operation design that the applicator is only 80mm away from cornea. A very short and well defined clean operating zone can reduce the unpredicted interference by noisy macro environment. Our eye tracker module is located to the eye for best recognition and optimum IR illumination.
A special eyepiece with an integrated plume removal intake with applicator. It is located at an optimal position in relation to the corneal plane. The smoke plume is removed at the location of its highest density minimizing its influence on the laser beam quality. The plume is removed in such way, that the airflow will not affect the stromal hydration.
Cost Efficiency
The MICRON M7 uses a specially designed laserhead with large energy reserves for long active and passive gas lifetime. The laser generates a small and very homogeneous beam passing along several small mirrors with a very low energy density. This results in low costs for optics and long optics lifetime. The laser setup between surgeries only takes a few minutes. This allows fast and efficient working speed with little patient waiting times. The small footprint allows the laser to be installed even in challenging surgery theatres, minimizing the overhead cost of the clinic.
FEMTON F1
OPHTHALMIC
FEMTOSECOND
LASER
Explore the FEMTON F1 by touching the Hotspots.
TOUCHSCREEN MONITOR and GLASS KEYBOARD for easy user interaction.
SMALL FOOTPRINT, LIGHT AND MOBILE.
The specially designed ROBOTIC DELIVERY ARM is of compact design to fit under most operating microscopes and Excimer Lasers.
FLEXIBLE HEIGHT ADJUSTMENT RANGE for easy adaptation on existing patient beds. Designed to be combined to an already existing Excimer Laser and especially to the Micron M7 Excimer Laser.
Centration during docking is done automatically by using eyetracking technology. This can be toggled with the optional joystick.
The FEMTON F1 Philosophy
Our initial idea is to design a laser which is versatile, offering many treatment options.
Mobile for use in different operating rooms within the clinic. Upgradable and compatible to already existing Excimer Laser Systems or surgery tables.
Treatment Options
The FEMTON F1 Laser is open to a large number of applications. The basic configuration includes LASIK Flap, Refractive Lenticule Extraction, Intrastromal Pockets, Intrastromal Tunnels and optionally it can be extended for cataract surgery. More applications will be added.
INTUITIVE
All major functions can be controlled by the large touchscreen. The software is designed in an intuitive and straightforward way, leading the surgeon through the procedure. The automated centering feature with a single piece patient interface makes docking simple and safe.
MOBILE
The FEMTON F1 is stable, compact and mobile. It can be repositioned on the hospital floor, when not needed.
VERSATILITY
When designing the FEMTON F1 we ensured compatibility to most existing Excimer Laser systems. The laser can easily be moved and positioned near by to the patient bed.
Treatment Methods with the FEMTON F1
LASIK Flap
Refractive Lenticule Extraction
Intrastromal Pockets
Intrastromal Tunnels
Cataract (Optional)
The HexaScanTM Principle
The EXCELSIUS FEMTON F1 is using a unique scanning pattern creating high efficiency tissue cut with flexibilities on the size and type of applications.
The treatment area is divided into smaller hexagonal segments. The proprietary Femton F1 operating software is using a self learning algorithm determining the size and number of hexagons used for an optimum balance of speed and resolution for each treatment.
LASIK Flap
Hexagon sizes adjusted automatically for best speed and cut quality.
1. Flap rim, down cut can be customized
2. Hexagon sizes are optimized according to flap diameter
Refractive Lenticule Extraction
Hexagon sizes adjusted to ensure tissue saving technology can be realized to maximize the optical zone of lens.
Intrastromal Pockets
For Intrastromal Pockets the hexagon spacing is optimized for speed and optimum cut quality to minimize optical distortions when inserting a lenticule implant.
Intrastromal Tunnels
For Intrastromal Tunnels to ensure easy opening, tunnel width and depth as well as access cuts can be customized.
Patient Comfort and Unique Interface Design
The FEMTON F1 is designed for the best patient comfort. Similar to the MICRON M7 Excimer Laser, the delivery arm is moved aside for surgery preparation.The surgeon has full access and free microscope view to the patient eye for draping, applying topical anesthetics and general procedures.
Then the delivery arm is positioned over the eye to be treated. After docking the cut is performed.
During the cutting process the surgeon can observe the whole procedure via the integrated video system. After cutting the applicator arm is moved aside, and the treatment can be continued either by Excimer Laser for LASIK or using the operating microscope for other treatment types.
The FEMTON F1 uses a single piece patient interface. Optical interface and suction ring are made in one part. This makes the surgery setup quick and easy. Once centered and touching the eye, suction is applied to complete the docking procedure and fixate the eye.
PATIENT POSITIONING
Easy Positioning.
Move Laser towards patient bed, position and lock.
PREPARATION
Move robotic arm to the eye to be operated.
TREATMENT
Perform surgery.
TREATMENT
Move robotic arm out of the way.
TREATMENT
Easy Release.
Move laser away again when not needed anymore.
COST EFFICIENCY
When designing the FEMTON F1 system intensive attention was paid to easy serviceability and a straightforward modular structure.
This results in great stability and a small number of necessary spare parts. Only application interfaces which are intended for bilateral use are needed as acccessoires.
MODULAR DESIGN
The FEMTON F1 is a modularized design as one compact unit. The laser system weighs only 200 kg which make it easy to handle and transport.
Moving the laser away when not needed is easy. Also it can be moved towards a patient bed of an Excimer Laser or ophthalmic surgery table for various procedures.
The width of only 790mm allows passage through the most standard doors.
Modular Design
The MICRON M7 is a modularized design with a slidable patient bed. The laser system weighs only 370 kg which make it easy to handle and transport.FEMTON F1
OPHTHALMIC
FEMTOSECOND
LASER
Explore the FEMTON F1 by touching the Hotspots.
TOUCHSCREEN MONITOR and GLASS KEYBOARD for easy user interaction.
SMALL FOOTPRINT, LIGHT AND MOBILE.
The specially designed ROBOTIC DELIVERY ARM is of compact design to fit under most operating microscopes and Excimer Lasers.
FLEXIBLE HEIGHT ADJUSTMENT RANGE for easy adaptation on existing patient beds. Designed to be combined to an already existing Excimer Laser and especially to the Micron M7 Excimer Laser.
Centration during docking is done automatically by using eyetracking technology. This can be toggled with the optional joystick.
The FEMTON F1 Philosophy
Our initial idea is to design a laser which is versatile, offering many treatment options.
Mobile for use in different operating rooms within the clinic. Upgradable and compatible to already existing Excimer Laser Systems or surgery tables.
Treatment Options
The FEMTON F1 Laser is open to a large number of applications. The basic configuration includes LASIK Flap, Refractive Lenticule Extraction, Intrastromal Pockets, Intrastromal Tunnels and optionally it can be extended for cataract surgery. More applications will be added.
INTUITIVE
All major functions can be controlled by the large touchscreen. The software is designed in an intuitive and straightforward way, leading the surgeon through the procedure. The automated centering feature with a single piece patient interface makes docking simple and safe.
MOBILE
The FEMTON F1 is stable, compact and mobile. It can be repositioned on the hospital floor, when not needed.
VERSATILITY
When designing the FEMTON F1 we ensured compatibility to most existing Excimer Laser systems. The laser can easily be moved and positioned near by to the patient bed.
Treatment Methods with the FEMTON F1
LASIK Flap
Refractive Lenticule Extraction
Intrastromal Pockets
Intrastromal Tunnels
Cataract (Optional)
The HexaScanTM Principle
The EXCELSIUS FEMTON F1 is using a unique scanning pattern creating high efficiency tissue cut with flexibilities on the size and type of applications.
The treatment area is divided into smaller hexagonal segments. The proprietary Femton F1 operating software is using a self learning algorithm determining the size and number of hexagons used for an optimum balance of speed and resolution for each treatment.
LASIK Flap
Hexagon sizes adjusted automatically for best speed and cut quality.
1. Flap rim, down cut can be customized
2. Hexagon sizes are optimized according to flap diameter
Refractive Lenticule Extraction
Hexagon sizes adjusted to ensure tissue saving technology can be realized to maximize the optical zone of lens.
Intrastromal Pockets
For Intrastromal Pockets the hexagon spacing is optimized for speed and optimum cut quality to minimize optical distortions when inserting a lenticule implant.
Intrastromal Tunnels
For Intrastromal Tunnels to ensure easy opening, tunnel width and depth as well as access cuts can be customized.
Patient Comfort and Unique Interface Design
The FEMTON F1 is designed for the best patient comfort. Similar to the MICRON M7 Excimer Laser, the delivery arm is moved aside for surgery preparation.The surgeon has full access and free microscope view to the patient eye for draping, applying topical anesthetics and general procedures.
Then the delivery arm is positioned over the eye to be treated. After docking the cut is performed.
During the cutting process the surgeon can observe the whole procedure via the integrated video system. After cutting the applicator arm is moved aside, and the treatment can be continued either by Excimer Laser for LASIK or using the operating microscope for other treatment types.
The FEMTON F1 uses a single piece patient interface. Optical interface and suction ring are made in one part. This makes the surgery setup quick and easy. Once centered and touching the eye, suction is applied to complete the docking procedure and fixate the eye.
PATIENT POSITIONING
Easy Positioning.
Move Laser towards patient bed, position and lock.
PREPARATION
Move robotic arm to the eye to be operated.
TREATMENT
Perform surgery.
TREATMENT
Move robotic arm out of the way.
TREATMENT
Easy Release.
Move laser away again when not needed anymore.
COST EFFICIENCY
When designing the FEMTON F1 system intensive attention was paid to easy serviceability and a straightforward modular structure.
This results in great stability and a small number of necessary spare parts. Only application interfaces which are intended for bilateral use are needed as acccessoires.
MODULAR DESIGN
The FEMTON F1 is a modularized design as one compact unit. The laser system weighs only 200 kg which make it easy to handle and transport.
Moving the laser away when not needed is easy. Also it can be moved towards a patient bed of an Excimer Laser or ophthalmic surgery table for various procedures.
The width of only 790mm allows passage through the most standard doors.
