Abstract: Treatment systems, methods, and apparatuses for improving the appearance of skin or other target regions are described as well as for providing for other treatments. 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 of cellulite. Treatments can include cooling a surface of a patient's skin and detecting at least one freeze event in the cooled skin. The treatment system can continue cooling the patient's skin after the freeze event(s) are detected so to maintain at least a partially frozen state of the tissue for a period of time.

Abstract: Treatment systems, methods, and apparatuses for improving the appearance of skin or other target regions are described as well as for providing for other treatments. 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 of cellulite. Treatments can include cooling a surface of a patient's skin and detecting at least one freeze event in the cooled skin. The treatment system can continue cooling the patient's skin after the freeze event(s) are detected so to maintain at least a partially frozen state of the tissue for a period of time.

Abstract: A method in accordance with a particular embodiment of the present invention includes increasing a concentration of a modified or unmodified saccharide within a subject's skin, applying an applicator to the subject's skin, and cooling the subject's skin via a heat-transfer surface of the applicator. The saccharide within the subject's skin can enhance a resistance of at least some cells within the subject's skin to damage associated with the cooling. A corresponding system includes the applicator, the saccharide, and an energy-delivery device. The energy-delivery device can be configured to apply ultrasound, optical, thermal, or another type of energy to the subject's skin to drive the saccharide into the subject's skin. The system can also include a penetration enhancer configured to enhance penetration of the saccharide into the subject's skin. The penetration enhancer can be applied with the saccharide or separately.

Abstract: Compositions and formulations for use with devices and systems that enable tissue cooling, such as cryotherapy applications, for alteration and reduction of adipose tissue are described. Aspects of the technology are further directed to methods, compositions and devices that provide protection of non-targeted cells (e.g., non-lipid-rich cells) from freeze damage during dermatological and related aesthetic procedures that require sustained exposure to cold temperatures. Further aspects of the technology include systems for enhancing sustained and/or replenishing release of cryoprotectant to a treatment site prior to and during cooling applications.

Abstract: Compositions and formulations for use with devices and systems that enable tissue cooling, such as cryotherapy applications, for alteration and reduction of adipose tissue are described. Aspects of the technology are further directed to methods, compositions and devices that provide protection of non-targeted cells (e.g., non-lipid-rich cells) from freeze damage during dermatological and related aesthetic procedures that require sustained exposure to cold temperatures. Further aspects of the technology include systems for enhancing sustained and/or replenishing release of cryoprotectant to a treatment site prior to and during cooling applications.

Abstract: A method and system in accordance with a particular embodiments of the technology includes applying a substance onto skin of a human subject. The applied substance can include a freezing point depressant and a liposome, an oil-in-water emulsion, a water-in-oil emulsion, or an oil-in-oil emulsion and can be configured to protect or target tissue. The substance and a surface of the skin can be cooled using the applicator to treat acne and other skin conditions.

Abstract: 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.

Abstract: A method and system in accordance with a particular embodiments of the technology includes applying a substance onto skin of a human subject. A subject's skin can be altered to facilitate absorption of applied substances. A substance can be applied to altered skin so that the substance is absorbed into the skin. The treatment site can be cooled to initiate a freeze event in the skin to freeze tissue. The substance can be a coupling media that promotes or inhibits freezing of tissue.

Abstract: A method and system in accordance with particular embodiments includes applying a substance onto skin of a human subject. A method for treating a subject's skin includes applying a hydrogel to the skin which contains the substance. The hydrogel and the skin are cooled using a cooling applicator to treat tissue via the cooling treatment by either freezing or not freezing tissue.

Abstract: Systems for treating a subject's tissue can include a thermally conductive cup, a sealing member, and/or a liner assembly. The systems can include an applicator capable of being reconfigured for a particular treatment site. Components of the applicator can be replaced to achieve a desired configuration. The replaceable components can include contoured heads, liners, and/or sensors. The applicator can draw a vacuum to install various components and/or draw tissue into the applicator. The applicator can cool and/or heat the tissue to affect targeted tissue.

Abstract: A method and apparatus in accordance with a particular embodiment of the present invention includes applying adhesive onto skin of a human subject. An applicator is then brought into contact with the adhesive such the adhesive is disposed between the applicator and the subject's skin. The applicator is activated to cool a tissue region via the subject's skin, via the heat-transfer surface of the applicator, and via the adhesive. While the tissue region cools, the adhesive also cools, thereby reversibly strengthening adhesion between the subject's skin and the heat-transfer surface and forming a strong bond therebetween. The strengthened adhesion inhibits any movement of the applicator relative to the skin. After cooling the tissue region, the adhesive is warmed, thereby weakening the adhesion which allows the heat-transfer surface of the applicator to be easily separated from the skin.

Abstract: Treatment systems, methods, and apparatuses for improving the appearance of skin and other treatments are described. Aspects of the technology are directed to improving the appearance of skin by transcutaneously cooling and affecting nerve tissue so as to inhibit facial muscular contractions and thereby reduce dynamic wrinkling. A non-invasive nerve cooling device can be applied to the subject's head to attenuate nervous system signals to facial muscles.

Abstract: A method of reducing the level of pain experienced by a patient during a pain-inducing dermatological treatment by using non-pharmacologic means is described. The method employs the use of multiple bursts of a gas to stimulate a touch sensation in or near the tissue to be treated using the dermatological treatment in order to reduce and/or relieve pain. The method can be used alone or can be used in combination with other non-pharmacologic and/or pharmacologic methods of relieving pain in order to make a patient more comfortable during or following the dermatological treatment.

Abstract: Systems and methods that enable tissue cooling and delivery of energy for altering tissue are described herein. Aspects of the disclosure are directed to, for example, heating tissue at treatment zones to ablate, denature, reorganize, coagulate, or otherwise alter the tissue to affect the cosmetic appearance of the patient. The method can include, for example, removing heat from the target region of the human subject before, during, and/or after energy delivery to cool tissue to a temperature below normal body temperature to inhibit pain.

Abstract: Treatment systems, methods, and apparatuses for improving the appearance of skin or other target regions are described as well as for providing for other treatments. 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 of cellulite. Treatments can include cooling a surface of a patient's skin and detecting at least one freeze event in the cooled skin. The treatment system can continue cooling the patient's skin after the freeze event(s) are detected so to maintain at least a partially frozen state of the tissue for a period of time.

Abstract: 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.

Abstract: Compositions and formulations for use with devices and systems that enable tissue cooling, such as cryotherapy applications, for alteration and reduction of adipose tissue are described. Aspects of the technology are further directed to methods, compositions and devices that provide protection of non-targeted cells (e.g., non-lipid-rich cells) from freeze damage during dermatological and related aesthetic procedures that require sustained exposure to cold temperatures. Further aspects of the technology include systems for enhancing sustained and/or replenishing release of cryoprotectant to a treatment site prior to and during cooling applications.

Abstract: Disclosed herein are systems and methods for preferentially heating subcutaneous tissue. Systems for heating subcutaneous tissue may comprise one or more radio-frequency (RF) electrodes having contoured tissue contacting surfaces, such as electrodes with concave or convex surface contours. Methods may comprise applying RF voltage or current from one or both of the handpieces to attain a target tissue and/or electrode temperature and to maintain the tissue and/or electrode at that temperature.

Abstract: A handheld apparatus for delivering optical energy to fractionally resurface skin of a consumer is configured to be used by the non-physician consumer. The handheld apparatus includes a housing dimensioned for manual grasping and manipulation. The housing encloses a laser and an optical pattern generator having a rotatable component with a plurality of reflective segments that rotate through an optical beam from the laser to deflect and divide the optical beam into pulses that propagate from the housing and form a fractional pattern at the skin surface. The handheld apparatus also includes a transducer associated with fins on the rotatable component to generate signals for each pulse of electromagnetic radiation, the signals being monitored by a controller to enable an end of dose indication for the consumer when the treatment is completed.

Abstract: The present invention relates to a method and apparatus for using an imaging detector to image an optical pattern created by illumination of a viscous material that is applied to the skin. The viscous material forms a detectable pattern that can be imaged by the imaging detector. In some examples, the viscous material is reflective and allows reflection from an illumination source to create an optical pattern on the imaging detector. In other cases, the variation in thickness of an absorbing or scattering viscous substance can be imaged by the detector. Polarized illumination and detection can be used to enhance the response.