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.

A heated mask assembly includes a pouch that may be worn on a user's face. The pouch is comprised of a fluid absorbent material such as cotton or the like. Thus, the pouch may be soaked with a heated fluid. A heat pack is removably positioned in the pouch. The heat pack may be heated thereby facilitating the heat pack to provide heat therapy to the user's face when the pouch is worn. The heat pack provides heat therapy to the user's sinus cavities. A strap is coupled to the pouch. The strap may be wrapped around the user's head thereby facilitating the pouch to be retained on the user's face.

A dry eye treatment device and method including a pliable thermal pack engageable upon a first side of a vibration ring is provided. The vibration ring has a second side adapted for positioning on the face of a user to communicate vibration to the eyelids of a user from the vibration ring, and heat or cold from a bulging portion of the thermal pack communicating through a pair of openings in the vibration ring. A cover forming a cavity on the face of the user to house the vibration ring and the thermal pack may also be employed.

The invention relates to electronic contact lens systems, methods for fabrication thereof, and uses thereof for treatment of ophthalmic diseases and conditions, for example, meibomian gland dysfunction.

The disclosure concerns a computer-controlled system for interval thermal therapy; the system including a control unit console configured for placement on a bench-top or similar setup, the console is connected to a hand-held thermal therapy application assembly, either by way of a cable extending between the hand-held assembly and the console, or via a cordless coupling therebetween. The hand-held assembly generally comprises a removeably applicator with a thermally conductive contact surface configured to communicate hot or cold thermal energy, or a combination of hot and cold thermal therapy in various intervals, the contact surface of the hand held assembly is used to contact a patient's body at a desired treatment site for effectuating various physiological treatments or therapies.

Disclosed is a self-heating thermal-insulation multilayer film comprising a structure of at least three layers, which from outside to inside are respectively: an outer layer (1) formed of an air permeable material; a heat-generating layer (2) loaded with heat-generating composition (21) that generates heat on contact with air, at least an upper sealing surface of the heat-generating layer that is in contact with the outer layer being formed of an air permeable material; and an thermal-insulation layer (3) formed of a material having waterproof and thermal-insulation properties. The present self-heating thermal-insulation film is structurally simple, is not constrained by environmental resources, does not require energy supply from an external energy source, is safe and stable, uniformly generates heat, and can effectively prolong heating time and reduce peak heating temperature. The present self-heating thermal-insulation film can be manufactured into a three-dimensional face mask, a face mask, or an eye mask.

An injection tool and associated methods are shown. Example tools and methods described provide cooling to numb a local area prior to an injection. The local numbing can be used to reduce or eliminate pain associated with the subsequent injection. In selected examples, circuitry and one or more sensors are used to calculate an appropriate contact time of a heat sink with the local region to best provide a desired amount of numbing.

Dry eye treatment apparatus and methods are described herein which generally includes a patch or strip affixed to the skin of the upper and/or lower eyelids to deliver heat or other forms of energy, pressure, drugs, moisture, etc. (alone or in combination) to the one or more meibomian glands contained within the underlying skin. The treatment strip or strips include one or more strips configured to adhere to an underlying region of skin in proximity to one or both eyes of a subject such that the one or more strips allow for the subject to blink naturally without restriction from the one or more strips. Moreover, the one or more strips may be configured to emit energy to the underlying region of skin and where the one or more strips are shaped to follow a location of one or more meibomiam glands contained within the underlying region of skin.

A thermal eye pod assembly for use in efficiently heating and/or cooling a plurality of thermal eye patch members, as desired. A portable thermal eye pod assembly for use in efficiently treating a user's recurring ophthalmic conditions, accelerating a user's healing process, and providing a user with a relatively faster means of pain relief.

A method of treating meibomian gland dysfunction is disclosed. The method includes directing RF energy to an internal portion of a meibomian gland, selectively targeting an obstruction within a duct of the meibomian gland with the applied RF energy to melt, loosen, or soften the obstruction, and expressing the obstruction from the duct of the meibomian gland. An apparatus for treating meibomian gland dysfunction is also disclosed. The apparatus comprises at least one RF electrode configured to direct RF energy to an internal portion of a meibomian gland located in an eyelid of an eye, the at least one RF electrode further configured to selectively target an obstruction within a duct of the meibomian gland with the applied RF energy to melt, loosen, or soften the obstruction. The apparatus also comprises at least one expressor configured to express the obstruction from the duct of the meibomian gland.