The LaserShot M is a static laser system where the embryo is moved to the laser
The LaserShot M is a static laser system where the embryo is moved to the laser by moving the stage of the microscope. The LaserShot M components include a laser module (1.48 microm infrared diode laser, class 1M), laser adapter to connect to the microscope, mirror block, laser objective (25 times), USB camera, Eye Ware Software, and an optional target pointer and foot switch. The EyeWare software controls the device components, operates the laser, and takes images and records videos of embryo undergoing laser procedures. The software determines how many holes are drilled along this line and controls/restricts laser firing parameters to minimize localized heating of the embryo during these procedures. These laser devices have been designed to be fitted to compatible inverted microscopes.
This submission includes two assisted reproduction laser systems, the LaserShot
This submission includes two assisted reproduction laser systems, the LaserShot M and the NaviLase. The LaserShot M is a static laser system where the embryo is moved to the laser by moving the stage of the microscope. The LaserShot M components include a laser module (1.48 micrometer infrared diode laser, class 1M), laser adapter to connect to the microscope, mirror block, laser objective (25X), USB camera, EyeWare Software, and an optional target pointer and footswitch. The NaviLase includes the same components as the LaserShot M, but also includes a motion module and a motion controller. These additional components allow the NaviLase to work in two modes, fixed and dynamic. In fixed mode, the NaviLase operates similarly to the LaserShot M. In dynamic mode, the laser can be directed to any location within the field of view. In addition, dynamic mode allows automated laser firing along a user-defined path (straight line, arc, etc.). The EyeWare software controls the device components, operates the laser, and takes images and records videos of embryo undergoing laser procedures. The software determines how many holes are drilled along this line and controls/restricts laser firing parameters to minimize localized heating of the embryo during these procedures. These laser devices have been designed to be fitted to compatible inverted microscopes.
The LaserShot M is a static laser system where the embryo is moved to the laser
The LaserShot M is a static laser system where the embryo is moved to the laser by moving the stage of the microscope. The LaserShot M components include a laser module (1.48 microm infrared diode laser, class 1M), laser adapter to connect to the microscope, mirror block, laser objective (25 times), USB camera, Eye Ware Software, and an optional target pointer and foot switch. The EyeWare software controls the device components, operates the laser, and takes images and records videos of embryo undergoing laser procedures. The software determines how many holes are drilled along this line and controls/restricts laser firing parameters to minimize localized heating of the embryo during these procedures. These laser devices have been designed to be fitted to compatible inverted microscopes.
This system is intended to be used to drill a small tangential bole in or to thi
This system is intended to be used to drill a small tangential bole in or to thin the zona pellucida of the embryo in selected in vitro fertilization (IVF) patients with otherwise poor prognosis for successful pregnancy outcome, such as advanced maternal age, prior failed IVF procedures, cryopreserved embryos, or abnormal zona pellucida morphology, and in lyE patients undergoing PGD to avoid genetic disease or aneuploidy.
This system is intended to be used to drill a small tangential bole in or to thi
This system is intended to be used to drill a small tangential bole in or to thin the zona pellucida of the embryo in selected in vitro fertilization (IVF) patients with otherwise poor prognosis for successful pregnancy outcome, such as advanced maternal age, prior failed IVF procedures, cryopreserved embryos, or abnormal zona pellucida morphology, and in lyE patients undergoing PGD to avoid genetic disease or aneuploidy.