Disclosed is an apparatus for treating tissue. The apparatus includes a chamber having an opening, the chamber configured to, when placed proximate to the tissue, cause periodic movement of an area of the tissue raised towards the opening of the chamber, and one or more energy transmitting elements to apply energy to at least a portion of the area of the tissue.

A collar-type massage device has at least two longitudinal, dimensionally-stable massage organs, each massage organ including an electric motor and at least two massage elements that are spaced apart from one another in the longitudinal direction of the massage organ and that can be rotatably driven by the electric motor, a flexible collar housing being provided which includes at least two storage spaces for the longitudinal massage organs, these spaces being separated from one another and oriented in the transverse direction of the collar-type massage device, and the spaces being delimited by a body-side inner surface element and a storage space delimiting surface element. A flexible hook-and-loop device projects laterally away from the flexible collar housing.

Methods and systems for treating skin, such as stretch marks through deep tissue tightening with ultrasound are provided. An exemplary method and system comprise a therapeutic ultrasound system configured for providing ultrasound treatment to a shallow tissue region, such as a region comprising an epidermis, a dermis or a deep dermis. In accordance with various exemplary embodiments, a therapeutic ultrasound system can be configured to achieve depth with a conformal selective deposition of ultrasound energy without damaging an intervening tissue. In addition, a therapeutic ultrasound can also be configured in combination with ultrasound imaging or imaging/monitoring capabilities, either separately configured with imaging, therapy and monitoring systems or any level of integration thereof.

Embodiments of the present disclosure are directed to systems, devices, and methods of inducing physical effects in tissue, such as dermis, adipose, musculoskeletal, vascular, hepatic tissue, using unfocused or planar, non-cavitating acoustic shock waves. The physical effects include disruption of fibrous extracellular matrix of the targeted tissues. Embodiments of the present disclosure include applying rapid acoustic pulses (e.g., shock waves) to cause a breakdown in the fibrous extracellular matrix to reduce the appearance of cellulite or scars in a treatment area. Such unfocused or planar, non-cavitating acoustic shock waves may induce a tissue reaction, such as reduction of fibrosis, induction of angiogenesis, or lymphangiogenesis.

A method and a system for treating skin tissue are provided. At least one heat generating element is configured to modify temperature of the skin tissue, a muscle stimulating element is configured to provide muscle stimulation to a muscle layer located below the skin tissue, a handheld applicator is configured to be placed in vicinity of the skin tissue to deliver said temperature modification from said at least one heat generating element to the skin tissue and said muscle stimulation from said muscle stimulating element to the muscle layer located below the skin tissue; and a control board configured and operable to activate the at least one heat generating element and the muscle stimulating element according to respective activation patterns; thereby providing one or more treatments to the skin tissue.

Systems and methods for treating fluid stasis employ an airstream to move static fluid to one or more natural drainage areas for static fluid. A system for treating fluid stasis includes an airstream nozzle and an airflow generator for supplying an airflow to the airstream nozzle. The airflow nozzle is configured to output an airstream configured to be directed onto a patient to induce shear-thinning of static fluid and movement of static fluid toward one or more natural drainage areas for static fluid.

Devices and methods for tissue treatment produce a mechanical stimulation therapy and electromagnetic field therapy. The mechanical stimulation therapy provides stimulation of blood circulation and stimulates treated cells. The electromagnetic field enables thermal treatment of tissue. Combination of both therapies improves soft tissue treatment, mainly connective tissue in the skin area and fat reduction.

A light emitting apparatus for use in selected areas of a body of a user, comprising: a flexible wrap; a plurality of lights arranged on the wrap, the wrap is configured to be wrapped around at least one selected area of the body such that the lights face the at least one selected area of the body, wherein each of the plurality of lights are configured to emit a light at a predetermined wavelength to the at least one selected area to perforate one or more fat cells present at the at least one selected area to drain content of the one or more fat cells when a power is supplied to the plurality of lights, the predetermined wavelength is between a range of 630 nm and 635 nm; and a vibration-generating module configured to generate a vibration for stimulating the at least one selected area of the body.

Methods and systems for treating skin, such as stretch marks through deep tissue tightening with ultrasound are provided. An exemplary method and system comprise a therapeutic ultrasound system configured for providing ultrasound treatment to a shallow tissue region, such as a region comprising an epidermis, a dermis or a deep dermis. In accordance with various exemplary embodiments, a therapeutic ultrasound system can be configured to achieve depth with a conformal selective deposition of ultrasound energy without damaging an intervening tissue. In addition, a therapeutic ultrasound can also be configured in combination with ultrasound imaging or imaging/monitoring capabilities, either separately configured with imaging, therapy and monitoring systems or any level of integration thereof.