Apparatuses and methods for the treatment of glaucoma are provided. The instrument uses either cauterization, a laser to ablate, sonic or ultrasonic energy to emulsify, or mechanical cutting of a portion of the trabecular meshwork. The instrument may also be provided with irrigation, aspiration, and a footplate. The footplate is used to enter Schlemm's canal, serves as a guide, and also protects Schlemm's canal.

The present disclosure provides an intralocular-lens (IOL) or ophthalmic device including an optic and at least one haptic, at least a portion of which is formed from a photoresponsive shape memory polymer network, such as a polydomain azo liquid crystalline polymer network (PD-LCN). The present disclosure further provides systems and methods for adjusting the position of such an IOL or other ophthalmic device using polarized laser radiation.

The detailed characteristics of the red fluorescence of the human lensthat occurs at the seventh decade of lifeis recognized as an example of evolutionary photobiomodulation for repair of the retina, and then used as a paradigm for extending current parametric values for reproducible photobiomodulation. The new photobiomodulation parameters involve relative intensities for wavelength bands within the range of 600 nm to 900 nm.

An ophthalmic phototherapy device and associated treatment methods to expose an eye to selected multi-wavelengths of light to promote the healing of damaged or diseased eye tissue. The device includes a housing having an interior; an eyepiece disposed on the housing and configured and arranged for placement of an eye of the patient adjacent the eyepiece; a first light source producing a first light beam having a first therapeutic wavelength and disposed within the housing; a second light source producing a second light beam having a second therapeutic wavelength and disposed within the housing, where the second therapeutic wavelength differs from the first therapeutic wavelength by at least 25 nm.

A device and method for cutting or ablating tissue in a human or veterinary patient includes an elongate probe having a distal end, a tissue cutting or ablating apparatus located adjacent within the distal end, and a tissue protector extending from the distal end. The protector generally has a first side and a second side and the tissue cutting or ablating apparatus is located adjacent to the first side thereof. The distal end is structured to be advanceable into tissue or otherwise placed and positioned within the patient's body such that tissue adjacent to the first side of the protector is cut away or ablated by the tissue cutting or ablation apparatus while tissue that is adjacent to the second side of the protector is not substantially damaged by the tissue cutting or ablating apparatus.

The present disclosure is related to a treatment probe and method for treating dry eye. The treatment probe may include a thin stainless steel tip, a spacer to ensure proper contact and protect the skin of a patient, a sensor to provide temperature feedback to the power supply providing RF energy to the treatment probe. The treatment focuses on a patient's temple and periorbital area.

A method of treating, reducing, or alleviating a medical condition in a patient is disclosed herein. The method includes administering to a patient in need thereof a biocompatible drug comprising one or more antiviral medications together with one or more cell pathway inhibitors dissolved in a non-toxic semifluorinated alkane, the patient having one or more respiratory tract inflammatory diseases, the one or more cell pathway inhibitors blocking an inflammatory response of inflamed tissue without inhibiting an immune response of the patient, and the semifluorinated alkane evaporating quickly upon administration to the patient so as to leave the biocompatible drug at a desired treatment location. The administration of the biocompatible drug to the patient treats the one or more respiratory tract inflammatory diseases, reduces the symptoms associated with the one or more respiratory tract inflammatory diseases, and/or alleviates one or more respiratory tract inflammatory diseases.

Apparatuses and methods for the treatment of glaucoma are provided. The instrument uses either cauterization, a laser to ablate, sonic or ultrasonic energy to emulsify, or mechanical cutting of a portion of the trabecular meshwork. The instrument may also be provided with irrigation, aspiration, and a footplate. The footplate is used to enter Schlemm's canal, serves as a guide, and also protects Schlemm's canal.

Disorders of the eye can be treated by photobiomodulation therapy according to a device designed to direct light into a patient's eye, no matter the configuration of the eye. The device, including a printed circuit board that includes an array of light delivery devices and a heat sink lens, can be placed proximal to the patient's eye. The light delivery devices can be powered to generate light. The light can be directed into the patient's eye regardless of a position of the patient's eye.

Disclosed is a method of utilizing deuterons (nuclear particles consisting of a proton and a neutron) for charged particle radiotherapy. Compared with proton therapy, at their maximum treatment depth of 66 mm, 125 MeV deuterons possess 82-85% less beam straggling than protons. This difference enables better protection of radiosensitive critical tissues that may be in contact with a tumor. Alternatively, it enables higher doses to be delivered to the tumor, resulting in better tumor control. The implementation of deuteron therapy interchangeably alongside proton therapy requires minor modifications at modest cost to many existing proton therapy systems and provides a clinically useful hybrid particle therapy facility. A free-standing deuteron therapy facility that employs only deuterons is also described.