Treatment systems, methods, and apparatuses for improving the appearance of skin or other target regions are described. Aspects of the technology are directed to improving the appearance of skin by tightening the skin, improving skin tone or texture, eliminating or reducing wrinkles, increasing skin smoothness, or improving the appearance sites with cellulite. Treatments can include cooling a surface of a patient's skin and detecting freezing in the cooled skin. The tissue can be cooled after the freeze event is detected so to maintain the frozen state of the tissue to improve the appearance of the treatment site.

An integrated system for increasing skin rejuvenation of a region of a patient's skin and treating subcutaneous fat associated with the region is provided. The system includes at least one first applicator having one or more RF electrodes adapted to be placed on the region of the patient's skin without penetrating the skin. At least one of said RF electrodes is configured to apply RF energy to the region of the patient's skin to heat up to a temperature in a specified temperature range. The system also includes at least one second applicator, in communication with an optical system. The optical system includes at least one laser source and is adapted to provide homogeneous illumination to the skin surface to effect at least one target tissue at a given depth range and power density range.

A skin treatment apparatus, such as a microdermabrasion or dermaplaning apparatus, includes a housing having a top end and a bottom end, a treatment head attached to the top end of the housing and arranged to exfoliate skin within a treatment area, and a cooling member provided on the bottom end of the housing arranged to cool skin within the treatment area.

Provided herein are systems, compositions, and methods for improving one or more skin characteristics in a subject. These systems, compositions, and methods are configured to cool the subject's skin at a target site to a degree that alters adipocyte signaling but does not produce significant destruction of subcutaneous lipid-rich cells. In some embodiments, alteration of adipocyte signaling produces an improvement in one or more skin characteristics.

A method and system in accordance with a particular embodiments of the technology includes applying a substance onto skin of a human subject. An applicator is then applied to the subject to cool a region of the subject. After cooling the tissue, a nucleation initiator is used to initiate a freeze event in the tissue. The nucleation initiator can be an ice crystal that inoculates the skin upon contact to create a predictable freeze event therein. The time of contact between the ice crystal and the skin can be controlled to achieve desired effects.

A skin treatment apparatus, such as a microdermabrasion or dermaplaning apparatus, includes a housing having a top end and a bottom end, a treatment head attached to the top end of the housing and arranged to exfoliate skin within a treatment area, and a cooling member provided on the bottom end of the housing arranged to cool skin within the treatment area.

The apparatus includes a moxibustion container assembly for localized application of therapeutic herbal smoke originated from gas-producing combustible material, an air pump connectable to the moxibustion container assembly via an inlet tube to supply air to the moxibustion container assembly, a vacuum pump connectable to the moxibustion container assembly via an outlet tube to create a partial vacuum to draw air from the moxibustion container assembly and exhaust air thereafter, and an air purifier connected to the vacuum pump to remove the contaminants in the air exhausted from the vacuum pump.

Disclosed herein is a method to enable a user to use a hypothermia system to cool a body part involved in cancer therapy or in brain trauma. The method enables the user to operate the hypothermia system by her- or himself and still be mobile. The hypothermia system comprises a conformal cap system, a thermally conductive liquid located between the body part to be cooled and the cap system, thermal transfer fluids, phase change materials, thermally insulated cooler, physical measuring devices, mechanical and electrical components, a ‘smart’ user interface device, a battery, and an uninterruptible power controller. The method allows a user to control the rate of and temperature of cooling down the body part, exhibits parameters associated with the process of cooling the body part, provides alerts if necessary, is portable and entirely self-managed. The hypothermia device is in communication with and can be controlled by an application installed on a smart device, such as a phone. The method of using the hypothermia system can help to eliminate hair loss caused by the side effects of certain chemotherapy treatments or to reduce the metabolic rate of ischemic tissue to prevent or minimize the severity of swelling.

The invention pertains to a method for operating a cryocabin arrangement 100 with an open-top cabin 10, a cooling unit 20 and a number of fluid circulation units 30. The method comprises receiving user-specific data comprising at least temperature indications measureable, by a number of sensor devices, at skin surface of the user upon delivery of cooling fluid 201 into the cabin via the cooling unit followed by intake and recirculation of said cooling fluid by fluid circulation units, which further return recirculated cooling fluid 301 inside said cabin, and based on said user-specific data, selectively adjusting distribution of said cooling fluid 201, 301 inside the cabin, in terms of at least speed and/or direction of a fluidic flow, to a predetermined level during an operation cycle.

A reconfigurable, foldable, and manually transportable infant radiant warmer. In a collapsed configuration, the warmer consumes a minimal amount of space and can be manually transported easily. In a deployed configuration, the warmer provides open access to an infant lying on a bed platform for receiving resuscitative therapy and warmth from a radiant heater disposed upon an adjacent mast. The reconfigurable infant radiant warmer includes mutually reconfigurable bed, mast, and suspension modules. The mast module and the suspension module may be selectively moved relative to the bed module to achieve the collapsed configuration.