Methods and apparatuses for use in screening for and assessing neuropathies, such as severe diabetic neuropathies of the feet, also known as Loss of Protective Sensation (“LOPS”). The methods and apparatuses described herein employ a kit including one or more of an insert having at least one testing instrument attached thereto, the at least one testing instrument comprising at least a holder and a monofilament; an enclosure including inner compartments for holding and securing the insert; a folder having one or more pockets for securing the insert and one or more of a mirror, a packet and other material, such as instructions. The apparatuses safely secure and protect the testing instrument(s) so that the risk of breaking or otherwise damaging the testing instruments during storage and/or shipping is significantly reduced. The methods and apparatuses are easy and low cost to manufacture, easy to use, scalable, and allow users to self-screen/test for, among other things, severe diabetic neuropathies of the feet.

The present invention includes and provides a method of delivering a medicament to an eye of a subject in need thereof a solution, the method comprising: (a) providing droplets containing the medicament with a specified average size and average initial ejecting velocity; and (b) delivering the medicament to the eye, where the droplets deliver a percentage of the ejected mass of the droplets to the eye.

The disclosure relates to medical databases, remote monitoring, diagnosis and treatment systems and methods. In one particular embodiment, a system for remote monitoring, diagnosis, or treatment of eye conditions, disorders and diseases is provided. This method generally includes administering a stream of droplets to the eye of a subject from an ejector device, and storing data related to the administration in a memory of the ejector device. The data may then be monitored and analyzed.

A device for measuring facial anatomical parameters is provided. The device has a vertical bar having a top portion, middle portion, and a bottom portion and a horizontal slide adjustably affixed to the vertical bar. It has a forehead positioner pivotably and adjustably affixed to the top portion of the vertical bar, wherein the forehead positioner receives a forehead of the patient, a first mirror adjustably affixed to the left portion of the horizontal slide, wherein the first mirror is slidable along the horizontal slide, and wherein the first mirror rotates around its own Y-axis, and a second mirror adjustably affixed to the right portion of the horizontal slide, wherein the second mirror is slidable along the horizontal slide. A measuring grid on or proximate both the first mirror and the second mirror, wherein the measuring grids allows an examiner to accurately measure a point of interest of the facial anatomic parameters.

One implementation of the present disclosure is an apparatus including a mirror frame configured to support a mirror substrate that provides a reflection of one or more users in proximity of the mirror cabinet, a sensor cavity coupled to the mirror frame and a controller configured to analyze data received from the temperature sensor.

A smart mirror can show live or recorded streaming video of an instructor performing a workout in a package that is attractive and unobtrusive enough to hang in a living room. The smart mirror includes a mirror surface with a fully reflecting section and a partially reflecting section. A display behind the partially reflecting section shows the video when the smart mirror is on and is almost invisible when the smart mirror is off. The smart mirror also has a speaker, a microphone, and a camera to enable a user to view the video content and interact with the instructor. The smart mirror may connect to the user's smart phone, a peripheral device (e.g., a Bluetooth speaker) to augment user experience, a biometric sensor to provide biometric data to assess user performance, and/or a network router to connect the smart mirror to a content provider, an instructor, and/or other users.

Described herein is an ocular fundus imaging apparatus (11) including and an illumination module (140) and an imaging module (141). The illumination module (140) includes light sources (103, 104) configured to generate light at wavelengths within a desired spectral range. A first optical assembly is provided to shape and direct the light onto an eye (102) of a subject. A tuneable bandpass filter (109) selects a wavelength sub-interval within the desired spectral range. The imaging module (141) includes a second optical assembly to collect light returned from the eye (102) of the subject and to project the returned light from the eye (102) onto an image sensor (113). The second optical assembly includes one or more optical elements capable of compensating for ocular variation. The image sensor (113) is configured to image the returned light to generate an image of the ocular fundus at the wavelength sub-interval.

A device including a mirror which reflects incident light from a user facing a front surface of the mirror to present a reflected image of the user and which transmits incident light from a rear surface of the mirror; and at least one display arranged behind the mirror for displaying content superimposed on at least a portion of the reflected image of the user. The display is configured to display at least one visual element of the content on a black toned background. The display and the mirror are configured to create a holographic effect for the at least one visual element by an additional projection of the at least one visual element on the mirror, and, for generating the additional projection, a front side of the display at which the content is displayed is arranged at a predetermined minimum distance to the rear surface of the mirror and the mirror has a predetermined transparency-opacity ratio.

A smart makeup mirror device having a display and integrating with an artificial intelligence voice assistant, including: a main body; a display mirror unit rotatably mounted in the main body; and a speaker mounted in the main body to output a sound, where the display mirror unit includes: a leg configured to be docked at the main body; a display module that outputs an image by implementing a preset display mode based on a voice signal or a touch signal of a user; and a makeup mirror in which a portion of the makeup mirror is configured to reflect a light and another portion of the makeup mirror is configured to transmit an image output from the display module, and where an insertion groove where leg can be inserted is provided in the upper portion of the main body.

A smart makeup mirror device having a display and integrating with an artificial intelligence voice assistant, including: a main body; a display mirror unit rotatably mounted on the main body; and a speaker mounted in the main body to output a sound, where the display mirror unit includes: a display module that outputs an image by implementing a preset display mode based on a voice signal or a touch signal of a user; and a makeup mirror in which a portion of the makeup mirror is configured to reflect a light and another portion of the makeup mirror is configured to transmit an image output from the display module, where the main body includes: a mounting portion configured to hang on a wall space.