An ophthalmic radiation device having a substantially light-transparent wand configured to emit light propagating through the wand light from a series of illumination ports at least partially circumscribing a radioactive source disposed in the holder, thereby providing a visual reference for identifying a position of the radioactive source.

A light-guided, ophthalmic-treatment-system for administering therapeutic agents to, into or through the scleral wall of the eye globe using any one of a variety of therapeutic applicators in conjunction with either transcorneal or transpupillary viewing methods or both.

The disclosure pertains to a strontium-90 sealed radiological or radioactive source, such as may be used with treatment of the eye or other medical or industrial processes. The sealed radiological source includes a toroidal shaped strontium radiological insert within an encapsulation. The encapsulation includes increased shielding in the center thereof.

Methods and devices for minimally-invasive delivery of radiation to the posterior portion of the eye including a cannula comprising a distal portion connected to a proximal portion and a means for advancing a radionuclide brachytherapy source (RBS) toward the tip of the distal portion; a method of introducing radiation to the human eye comprising inserting a cannula between the Tenon's capsule and the sclera of the human eye and emitting the radiation from the cannula.

Brachytherapy applicator systems and methods of use such as methods of introducing radiation to a target using the brachytherapy applicator systems. The systems may feature a cannula attached to a handle, wherein the cannula has a distal portion connected to a proximal portion. A holder may be disposed at the tip of the distal portion for holding a radionuclide brachytherapy source (RBS). The RBS may be pre-loaded or loaded into the cannula at the time of treatment (or at an appropriate time prior to treatment).

A method of treating eyelid laxity in a subject comprising exposing a tarsal plate of an eye, and applying to at least part of the exposed tarsal plate a photosensitizer that initiates crosslinking in response to photo-activating radiation; and irradiating the exposed tarsal plate with photo-activating radiation to initiate crosslinking in the tarsal plate tissue.

Methods and devices for the application of beta radiation treatment following trabeculectomy for helping to prevent post-trabeculectomy wound reversion. The devices may feature a handle and a beta radiation source. The beta radiation source may include strontium-90, yttrium-90, potassium-32, or any other appropriate radiation source or combination thereof. The device may be used to expose a trabeculectomy wound to the radiation source following the surgical procedure. In some embodiments, a drug such as 5-fluorouracil or mitomycin c is used in combination.

Methods and devices for minimally-invasive delivery of radiation to the posterior portion of the eye including a cannula comprising a distal portion connected to a proximal portion and a means for advancing a radionuclide brachytherapy source (RBS) toward the tip of the distal portion; a method of introducing radiation to the human eye comprising inserting a cannula between the Tenon's capsule and the sclera of the human eye and emitting the radiation from the cannula.

A particle therapy apparatus for irradiating a diseased part of a patient's eye with a charged particle beam comprises a particle accelerator to generate the particle beam, a movable irradiation nozzle adapted to direct the particle beam towards the patient's eye according to different beam directions, and a patient support adapted to receive and hold the patient in a treatment position. The apparatus further comprises a pencil beam scanning subsystem configured to scan the particle beam over the diseased part of the patient's eye, a movable marker arranged in such a way that it is visible by the patient while he is in the treatment position and a controller configured to move said marker to a pre-determined and patient-specific position before starting an irradiation of the eye with the particle beam.

Methods and devices for minimally-invasive delivery of radiation to the eye (such as the posterior portion of the eye) including cannula systems with multiple treatment positions and/or multiple channels in the distal tip of the cannula systems. The channels can accommodate emanating sources and exposing a target at various treatment positions. The emanating sources may be annulus-shaped.