A phototherapeutic pair of glasses comprising a glasses frame, having a front frame and a pair of glasses legs pivotally connected to a corresponding transverse outer end of the front frame. A plurality of groups of a first physiotherapy LED lamp group are arranged on one side, facing the human face, of the front frame, and the first physiotherapy LED lamp group is distributed along the circumference of an eye. The physiotherapy LED lamp group is arranged on one side, facing the human face, of the front frame of the glasses. The physiotherapy LED lamp group irradiates the periphery of the eye to perform phototherapy on the periphery of the eye during the wearing process such that a beauty effect is achieved. Meanwhile, the wearer is not influenced, and the beauty enjoyment brought by phototherapy can be enjoyed in the entertainment process of watching television and the like.

Configurations are disclosed for a health system to be used in various healthcare applications, e.g., for patient diagnostics, monitoring, and/or therapy. The health system may comprise a light generation module to transmit light or an image to a user, one or more sensors to detect a physiological parameter of the user's body, including their eyes, and processing circuitry to analyze an input received in response to the presented images to determine one or more health conditions or defects.

Embodiments of the present disclosure are directed to a phototherapy eye device. In an example, the phototherapy eye device includes a number of radioluminescent light sources and an anchor. Each radioluminescent light source includes an interior chamber coated with phosphor material, such as zinc sulfide, and containing a radioisotope material, such as gaseous tritium. The volume, shape, phosphor material, and radioisotope material are selected for emission of light at a particular wavelength and delivering a particular irradiance on the retina (when implanted in an eyeball). The wavelength is in the range of 400 to 600 nm and the irradiance is substantially 10.sup.9 to 10.sup.11 photons per second per cm.sup.2.

Photobiomedulation therapy (PBMT) can be applied to the eye to treat optical neuritis, a sign of multiple sclerosis (MS). The light of PBMT can be directed into the eye, regardless of the position of the eye, by a device that includes an array of light delivery devices and a heat sink lens. The device can be placed proximal to the eye to direct the light into the eye. The light can have one or more wavelengths from 400-1100 nm and can be applied in at least one of a pulsed operating mode, a continuous operating mode, and a super-pulsed operating mode through the light source device to the skeletal muscle. The light signal is applied for a time sufficient to stimulate a phototherapeutic response in the retina and/or the optic nerve. PBMT applied in this manner provides a noninvasive, safe and effective treatment for optic neuritis.

In an embodiment, a sleep mask is provided, which may include a site (such as a pocket near the center of the forehead), for holding electronical components for implementing a circadian rhythm disorder treatment program. Optionally, the sleep mask may also include one or more holes for locating and securing light pipes that are connected to lights for producing lighting that adjust a user's circadian pattern based on the circadian rhythm disorder treatment program. Optionally, the sleep mask also includes adjustable straps.

A motion sickness countermeasure system for a user within a vehicle having a light array system configured to output visual stimuli presented in a field of view of the user; and a controller outputting a control signal to the light array system to activate the light array system in such a way as to mimic the visual input one would receive if one were to look outside the vehicle.

Apparatus and method for treatment of a human condition and more particularly for applying bio-electric microcurrent stimulation therapy to the human body, via an apparatus which connects to a micro-stimulation current generating device, and application of microcurrent stimulation therapy, that includes a headset device encircling the head, and connected to electrode strips (such as a one-use disposable chip-electrode array having a unique serial number or crypto code and other functionality that is used by the system to look up and deliver customized therapy to a particular patient having their own particular symptoms and medical history), which deliver the stimulation.

A portable device for the optical signal transmission from and to the human eye, in which it is proposed that a rod-shaped housing (1) is provided, on the two end regions of which at least one emitter (3) and/or detector of electromagnetic waves is arranged and which has a holding clamp (2) in its middle region, wherein a power supply for the respective at least one emitter (3) and/or detector as well as a control unit (8), which is connected to the at least one emitter (3) and/or detector, are provided within the rod-shaped housing. The invention provides a portable device for the optical signal transmission from and to the human eye, which can be worn with a high wearing comfort in a discreet manner in the vicinity of the head and, and in particular allows the device to be worn in parallel with commercially available spectacles. Furthermore, the handling, storage and transport of corresponding devices are greatly facilitated.

Systems and methods for monitoring properties of the cornea and controlling the crosslinking treatment. The thickness of the cornea during crosslinking may be measured by using ultrasonic reflections to determine an anterior distance (D.sub.1′) between a reference location (37) on a device resting on the eye and an anterior surface (66) of the cornea and to determine a posterior distance (D.sub.3′) between a posterior surface (63) of the cornea and an element of the eye such as an anterior surface (72) of the lens of the eye. These distances are subtracted from a reference distance (D.sub.0) between the reference location and the element of the eye. The reference distance (D.sub.0) may be determined using ultrasonic reflections to determine the corresponding anterior and posterior distances and the thickness (D.sub.2) of the cornea prior to crosslinking. The speed of sound in the cornea during crosslinking may be derived using the thickness (D2′) and time of flight of ultrasound through the cornea. The position of the cornea relative to a reference location may be determined. In still other embodiments, location of a surface of demarcation (86) within the cornea formed as a result of crosslinking may be determined. Still other embodiments provide for determination of one or more resonant frequencies of the cornea, and for measurement of responses of the cornea to applied forces, such as displacement and rebound velocity. The properties of the cornea may be used as proxies for the extent of crosslinking, and a light source (48, 348) used to induce crosslinking may be controlled in response to such proxies.

A phototherapy mask adapted to fit over the eye area of the user. The mask comprises a plurality of semiconductor light sources such as, but not limited to, light-emitting diodes (LEDs) or laser diodes, fiber optics, full spectrum light sources, RGB LEDs, piezo transducers, vibrational transducers (ultrasonic or otherwise), or a combination thereof, that provide therapeutic and rejuvenating effects to human tissue. The light sources are arranged so as to focus on the eye areas, and light enters through the eyes (open or closed). The light sources emit energy in the form of photons when switched on, which deliver energy to targeted tissue, penetrating the layers of skin and the eyes to produce a non-thermal photochemical effect at the cellular level.