Trypan Blue ophthalmic solutions are used to create and identify a landmark on the anterior capsule of an eye and thus identify a preferred location for an anterior capsulotomy during cataract surgery.

Disclosed are a reagent holder, a testing apparatus assembly, an aqueous humor collection device and an aqueous humor collection method. The reagent holder (9) comprises a holder body and a functional station arranged on the holder body, wherein the functional station comprises a fluid holding tube insertion hole (91) and an elastic component. The elastic component can elastically act on a fluid holding tube (106) in the case where the fluid holding tube (106) is inserted into the liquid holding tube insertion hole (91) so as to enable the fluid holding tube (106) to elastically move in the direction of the central axis of the hole of the fluid holding tube insertion hole (91). By means of using the reagent holder to elastically fix the fluid holding tube (106), the rigid collision between a fluid drawing device and a bottom wall of the fluid holding tube (106) can be converted into an elastic collision, so as to prevent a testing apparatus from triggering a firing pin protection function during the fluid drawing process, such that the depth to which the fluid drawing device can extend into the tube cavity of the fluid holding tube (106) is greatly increased, and the sample extraction amount is thus effectively increased.

A vitrectomy system includes a surgical cutting apparatus and a processor. The system includes a cutting assembly with an outer cutter and an inner cutter. The cutting assembly includes a housing containing a drive chamber, a spring chamber, at least a first diaphragm. The first diaphragm is adhered to the inner cutter and positioned between the drive chamber and the spring chamber. The system also includes a drive chamber valve to supply compressed air to the drive chamber and a spring chamber valve to adjust air pressure within the spring chamber. The processor is configured to pulse the drive chamber valve based on a desired cut rate to translate the inner cutter and adjust the air pressure within the spring chamber based on the desired cut rate to adjust the stiffness of the spring chamber.

A system and apparatus for increasing the amplitude of accommodation and/or changing the refractive power and/or enabling the removal of the clear or cataractous lens material of a natural crystalline lens is provided. Generally, the system comprises a laser, optics for delivering the laser beam and a control system for delivering the laser beam to the lens in a particular pattern. There is further provided apparatus for determining the shape and position of the lens with respect to the laser. There is yet further provided a method and system for delivering a laser beam in the lens of the eye in a predetermined shot pattern.

A handheld implantation device for implantation of a retinal tissue implant at an implantation site. The handheld implantation device includes a handheld implantation tool having a leading implantation tool end and a trailing implantation tool end, an implant holder for peripherally holding a retinal tissue implant including an uppermost viable retinal tissue and a lowermost basement membrane and a clinician-operated attachment arrangement for initial attaching the implant holder at the leading implantation tool end and subsequent selected detaching the implant holder therefrom at the implantation site for implantation of the implant holder together with the retinal tissue implant thereat.

Particular embodiments disclosed herein provide a surgical instrument comprising a device having a proximal end and a functional end configured to be inserted into a body part, an assembly having a proximal end and a distal end, a shaft coupled to the proximal end of the assembly, the shaft having a shaft housing, a bearing positioned around the assembly, wherein the bearing is configured to slide over the assembly, a hub having a sleeve tube. The basket comprises a plurality of grooved levers, each grooved lever having a proximal end received by the shaft housing and a distal end coupled to a tip of the basket, wherein compressing one or more of the plurality of grooved levers moves the bearing and the hub relative to the shaft and toward the functional end of the device, causing the sleeve tube to transition the device from the deactivated state to an activated state.

A microsurgical device and methods of its use can be used for treatment of various conditions including eye diseases, such as glaucoma, using minimally invasive surgical techniques. A dual-blade device can be used for cutting the trabecular meshwork (“TM”) in the eye. The device tip provides entry into the Schlemm's canal via its size (i.e., for example, 0.2-0.3 mm width) and configuration where a ramp elevates the TM away from the outer wall of the Schlemm's canal and guides the TM to first and second lateral elements for creating first and second incisions through the TM. The dimensions and configuration of the blade is such that an entire strip of TM is removed without leaving TM leaflets behind and without causing collateral damage to adjacent tissues.

A vitrectomy probe outfitted with a vitrectomy needle having a region of enhanced frictional character which may be referred to as an “augmented” surface region. This region may be utilized to interface with tissues such as the hyaloid membrane for forcibly shearing it from, for example, the underlying retina in a manner that avoids a degree of pulling forces on the retina in achieving the hyaloid detachment. By utilizing the vitrectomy probe to achieve the detachment, a subsequent intervention to introduce the probe for uptake of the sheared or detached hyaloid membrane material may also be avoided.

An image-guided tool and method for ophthalmic surgical procedures is disclosed comprising a processor, a display, an imaging system, and a memory communicatively coupled to the processor. The memory stores instructions executable by the processor and includes an artificial intelligence (AI) model. The processor is arranged to receive from the imaging system visual images in real-time of a surgical field during the ophthalmic surgical procedure and using the AI model to extract regions of interest in the surgical field. Upon selection of a region of interest by the AI model, the AI model develops operating image features based on the surgical instruments used in the region of interest and the phase of the surgical procedure being performed. Augmented visual images are then constructed that include the real-time visual image and the image features and surgical phase information. The augmented image is displayed on the display.

Provided is an intraocular lens injector 1 for injecting an intraocular lens 4 into an eye. The intraocular lens injector 1 includes a hollow body, a lens setting portion 11 provided inside the hollow body, and a slider 6 for advancing the intraocular lens 4 set on the lens setting portion 11. A space 72 into which a part of the rear side of the intraocular lens 4 is capable of moving downward is provided at a position α on the inner-circumference lower portion of the hollow body, a front limit of a range of motion of a portion of the slider 6 that abuts against the outer circumference of an optical portion 41 of the intraocular lens 4 being encompassed above the position α.