A system and method for providing Anal Perineal Prostate Vaginal Pelvic Floor contrast therapy are presented. The system may comprise a human interface device, fluid tubing, a pump, and a reservoir. The system may be operable to apply any combination of heat, cold, and pressurized compression to a therapy recipient and demonstrates particular utility for treating anal-prostate-perineal and vaginal areas. The system may be operable to impart a desired therapy temperature to the human interface device and to expand a membrane containing a therapy fluid. The expanded membrane may conform to the contours of a therapy site. Operation of the human interface device may be controlled using a remote-control device. The therapy recipient may be able to control the temperature of the fluid circulating through the membrane and may be able to control the pressure of the fluid within the membrane.

The present invention generally relates to improved medical devices, systems, and methods, with exemplary embodiments providing improved cooling treatment probes and cooling treatment methods and systems. In some embodiments, freezing of the skin may be desirable to effect the hypopigmentation of the skin of the patient. Generally, embodiments may limit supercooling of the skin of the patient during a cooling treatment. Additionally, embodiments may limit adverse side effects such as hyperpigmentation. It has been found that the freezing behavior (frequency and time to freeze) can be modified by adjusting the thermal parameters of the cooling applicator. Accordingly, in some aspects of the invention, a method of treating the skin may be provided where the thermal parameters of the cooling applicator are adjusted during treatment.

Methods and systems for providing pain therapy by utilizing cold/heat-assisted distributed vibration therapy. The pain therapy device includes a plurality of vibration motors that are located along a grid. The device is portable and can be adaptable to the body part requiring pain therapy.

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 kit for the assembly of a cryogenic chamber, including at least four wall modules including respective bodies of insulation; wherein the at least four wall modules include at least two end wall modules and at least two lateral wall modules; wherein the at least four wall modules include at least one vent wall module including a lumen surrounded by insulation, a connector extending from a surface of the vent wall module to the lumen, and a vent extending from the surface of the vent wall module to the lumen, wherein the connector is in fluid communication with the vent via the lumen; and an air chiller that is connectable to the connector of the vent module such that the air chiller is in fluid communication with the vent.

A heating device includes: a temperature change unit that changes a temperature of a temperature change area; an induction unit that applies a stimulus to an induction area; and a controller, wherein the induction area is an area on skin surface, or an area that occupies a space that can be perspectively projected on the skin surface, the induction area is an area that does not overlap with the temperature change area, the induction unit applies at least one of a tactile stimulus and a visual stimulus to the induction area, the controller executes a first control for changing a temperature of a first temperature change area of the temperature change area and a second control for applying a stimulus to a first induction area of the induction area, and the second control is performed in accordance with the first control.

A pain-reducing injection apparatus to enhance the safety, efficacy, and efficiency of injection procedures which utilize topical pain-reducing measures. Apparatuses and methods of use provide pain reduction through thermal cooling of an injection region or vibrating the region or both, and optionally include safety shielding and lockout features.

Disclosed herein is a system, apparatus and method directed to patient temperature control. The system can include a control module configured to provide fluid that is heated or cooled, a heating and cooling system configured to couple with the control module and receive the fluid, and a temperature sensor coupled to the control module, the temperature sensor configured to measure a body temperature of a patient and provide signals to the control module that indicate the body temperature. The system can include a neurostimulation device coupled to the control module to provide neurostimulation to the patient. The control module can include logic, stored on non-transitory, computer-readable medium that, when executed by one or more processors, causes performance of operations including generation and transmission of first instructions to the neurostimulation device causing initiation of a first neurostimulation procedure.

A hand-held or wearable device for cooling tissue of an eye of a patient is disclosed. In one aspect, the device includes a reservoir having fluid therein and a support connected to the reservoir and configured to be positioned on a face of the patient. The device also includes a nozzle positioned proximate to the support and fluidically connected to the reservoir, the nozzle configured to pass the fluid from the reservoir onto a surface of the eye. The device further includes a cooling element configured to cool the fluid from the reservoir such that it exits the nozzle at a temperature of between −100° C. and 15° C. The device further includes an ultrasonic vibrator positioned near the nozzle and configured to generate mist from at least part of the fluid.

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.