A device includes an angiography module, a phototherapy module, a carrier including an optical filter and accommodating the angiography module and the phototherapy module, and a control unit controlling operation of the angiography module and the phototherapy module. The angiography module includes infrared LEDs emitting infrared light through the optical filter to irradiate a limb of a subject, and an infrared sensor sensing a part of the infrared light reflected off the limb to generate a result, based on which the control unit generates an angiogram. The phototherapy module emits infrared light through the optical filter to irradiate the limb for phototherapy.

A pneumatic compression assembly that includes a sleeve having an outer layer and an inner layer that defines a sleeve interior configured to receive a body part of a user, and at least a first vibration assembly configured to provide vibration to the body part of the user. A plurality of inflatable compartments are arranged longitudinally along the sleeve between the inner layer and the outer layer. The first vibration assembly includes a plurality of vibration motors positioned between the inner layer and the outer layer of the sleeve.

A light-emitting diode (LED) therapy device and method of use is provided that increases healing of tissues by targeting damaged tissue at a predetermined wavelength and pulsed at a predetermined frequency. The device includes a housing and a light radiation module enclosed within the housing. The light radiation module includes an LED, a controller unit connected to the LED to control wavelength and pulsed frequency of the LED, and a rechargeable power source. The device also includes a light-diffusing member connected to the housing designed to diffuse light emitted from the LED to damaged tissue in a human cavity. Light in the red or near infrared range and pulsed at a Nogier frequency increases the effectiveness of the LED device to stimulate healing of damaged tissues. Particular devices include incorporation into a pacifier for healing an infant's gums, or nasal, auditory, vaginal, or anal cavities and adults or children.

Described herein are devices and methods used for providing comfort to an infant, and in particular, to devices and methods for introducing a therapy protocol to an infant in, for example, a neonatal intensive care unit.

A pneumatic compression assembly that includes a sleeve having an outer layer and an inner layer that defines a sleeve interior configured to receive a body part of a user, and at least a first vibration assembly configured to provide vibration to the body part of the user. A plurality of inflatable compartments are arranged longitudinally along the sleeve between the inner layer and the outer layer. The first vibration assembly includes a plurality of vibration motors positioned between the inner layer and the outer layer of the sleeve.

The disclosure features adaptive sleeves that include a sensor, an electronic processor connected to the sensor, an adjustable voltage source connected to the electronic processor, and a sleeve formed of a fabric material and including one or more deformable elements attached to or embedded within the fabric material and connected to the adjustable voltage source, where during operation of the adaptive sleeve, the electronic processor is configured to apply a force to a portion of a body of a sleeve wearer in proximity to a contracted muscle in the wearer's body by receiving an input electrical signal from the sensor, and adjusting the voltage source to apply an output electrical signal to the one or more deformable elements, the output electrical signal having a magnitude that is correlated with a magnitude of the input electrical signal.

An unattended approach can increase the reproducibility and safety of the treatment as the chance of over/under treating of a certain area is significantly decreased. On the other hand, unattended treatment of uneven or rugged areas can be challenging in terms of maintaining proper distance or contact with the treated tissue, mostly on areas which tend to differ from patient to patient (e.g. facial area). Delivering energy via a system of active elements embedded in a flexible pad adhesively attached to the skin offers a possible solution. The unattended approach may include delivering of multiple energies to enhance a visual appearance.

In some embodiments, an apparatus comprises a housing, an emitter, and an electronic circuit. The housing is configured to fit within a patient's mouth. The emitter is at least partially encased within the housing. The emitter is configured to emit an effective amount of light to the alveolar soft tissue when the housing is disposed within the mouth. The electronic circuit is operatively coupled to the emitter. The electronic circuit is configured to control the emitter when the housing is disposed within the mouth and the apparatus is in use during orthodontic treatment. The apparatus and its use for regulating tooth movement or maintaining or improving oral tissue health are disclosed herein.

This invention relates to a therapeutic device for treating a human or animal body, comprising an array of infrared-emitting elements in an attachment means for attaching to the body part to be treated, said infrared-emitting elements being in the form of sintered ceramic plates and made from a mixture of infrared-emitting oxides having specific spectral luminance covering at least a part of the 3-7 micrometer wavelength spectrum and having a peak wavelength between 3 and 7 micrometers, that provides an effective means to healing the body. A locally administrable heating means may be used for escalated healing effects.

A light-monitoring apparatus includes a power source, a light detector, a computer processor coupled with the power source and in communication with the light detector and configured to receive and record light exposure detected by the light detector, an output device coupled with the computer processor, and a computer-readable medium coupled with the computer processor and storing instruction code for summing the recorded light exposure from the computer processor over time and communicating a signal to the output device to generate and communicate a signal indicating that a cumulative threshold light exposure for achieving a health benefit has been reached. The apparatus can accordingly be used by an individual to monitor cumulative light exposure from both natural and artificial sources, e.g., in the treatment of seasonal or non-seasonal depression.