Embodiments disclosed herein mitigate motion sickness by disrupting, controlling, or influencing anatomy of the vestibular system. An embodiment may induce vibrations in the vestibular system, including otoliths and/or semicircular canals of the inner ear, causing noisy or unreliable sensory information to be sent to the brain from the vestibular system. Due to the noisy or unreliable quality, the brain, as part of a normal physiological response, may rely less on sensory information from the vestibular system and rely more on other sources, thereby mitigating the motion sickness response, vertigo, vestibular migraines, and other physiological responses to inconsistent sensory information. Vibrations in the vestibular system may be induced by an agitator placed on an individual's head near the vestibular system, or by a transducer placed near the eardrum or directly on an individual's head. Some embodiments may optionally include implantable components in addition to extracorporeal components.

This present invention discloses a fascial gun having a function of intelligently adjusting striking, including a fascial gun body and an electric power device. The fascial gun body includes a fascial gun housing and a massage head, and the fascial gun housing is provided therein with a main circuit board with an MCU, a motor electrically connected to the main circuit board, and a reciprocating mechanism connected to an output shaft of the motor. The electric power device supplies electric power to the main circuit board, the reciprocating mechanism is provided with a sliding shaft which penetrates through the fascial gun housing and is connected to the massage head, the main circuit board is electrically connected to a detection device used for detecting the operating state of the fascial gun, and the MCU controls the rotation speed of the motor according to information sent by the detection device.

Sex toy as a vibrator for erogenous stimulation, including an electric motor drive that rotationally drives at least one eccentric inertial mass. The inertial mass eccentrically rotates in a rotational frequency range, and therefore the vibrator vibrates in this frequency range and thus in its working oscillation frequency range. The diameter of the motor drive is between 5 mm and 50 mm. The vibrator is designed in such a way that during operation it is virtually acoustically imperceptible.

A massage device integrated with electrical pressing, tapping and vibration functions includes a main body including a PCB, a battery, a first vibration motor and a telescopic member, and a soft rubber shell surrounding around the main body; the PCB electrically connected to the battery and the first vibration motor connected with the telescopic member exposed the main body; the soft rubber shell including a massaging portion at an exposed position of the telescopic member, a bottom portion of the massaging portion connected with the telescopic member; the first vibration motor configured to rotate and vibrate to drive the telescopic member to reciprocate up and down and drive the massaging portion to press, pat and adsorb a portion touched with human body. The present structure can combine various massage ways to massage a sexual response area of the human body so as to strengthen massage effect and enhance massage experience.

A Multi-function Pelvic Trigger Point Massage Wand is a handheld device for the treatment of pelvic pain and pain/discomfort caused by related urinary and sexual dysfunctions. The device provides an adjustable combination of heat, vibration, electric stimulation, electromyography, photoplethysmography pulse oximetry, and biofeedback, depending on the treatment regimen desired. A metal sensor band around the release-end of the wand conducts electromyography and electrical stimulation. Photodiode sensors are coupled with green and infrared LEDs to calculate the users heart rate and blood flow. A sensor for biofeedback measurement assigns data produced from electrical stimulation sensors, electromyography sensors, photodiode sensors and the biofeedback/pressure measuring function to a smart device with operating software created specifically for the pelvic trigger point wand. The information output is collected and analyzed to show the results of different treatment techniques.

A hand-attached controlled eccentric vibration device, configured to be attached to a back of a hand of a first person giving a massage to a second person receiving the massage. The hand-attached controlled eccentric vibration device includes a unit body made of rigid material in a form of a box and comprises a compartment to enclose at least one motor, a controller, and a battery therein. The bottom of the unit body has a curved shape to be fitted with the back of the hand of the first person. Further, the unit body is attached to the back of the hand of the first person by means of a skin attachment part.

A health-regain device, includes a driving portion; a health-regain portion, which is disposed on one side of the driving portion; and a control module, which is communicably connected to the driving portion, wherein the control module controls the driving portion driving the health-regain portion in rhythmic reciprocating motion.

A vibratory pool noodle for supporting a user to remain afloat in water and also provides vibration massage to different body parts of the user. The vibratory pool noodle includes an outer core made from a buoyant material, the outer core is hollow, the outer core of a prolonged tubular shape having a proximal end and a distal end; an inner core encased in the outer core, the inner core made of a pliable material; and a vibration motor encased in the outer core, the vibration motor impart vibrations to the vibratory pool noodle which in turn can transfer the vibrations to the one or more body parts of the user in contact with the vibratory pool noodle for massaging the one or more body parts.

A gastrointestinal treatment system including a gastrointestinal capsule adapted to treat a subject following ingestion of the gastrointestinal capsule. The gastrointestinal capsule includes: (a) a housing; (b) a vibrating agitator, powered by the battery, the vibrating agitator adapted such that, in a first vibrating mode of operation, the housing exerts vibrations on an environment surrounding the capsule; (c) a power supply disposed within the housing and adapted to power the vibrating agitator; and (d) a controller adapted, in response to receipt of an activation input, to activate the vibrating agitator to operate in the first vibrating mode of operation at at least one predetermined time of day. The system and method may be used to treat an ailment of the gastrointestinal tract and/or to mitigate at least one symptom of jetlag in a subject travelling from an origin location to a destination location.

An ingestible gastrointestinal capsule (GIC) for mechanically stimulating a segment of the gastrointestinal (GI) wall by alternately and repeatedly pressurizing, and/or vibrating it is provided. The GIC is programmed to being activated following a predefined time delay. The activated GIC agitates, shakes, rattles, jolts, vibrates and/or moves in a reciprocal expanding and contracting motion thereby mechanically stimulating the adjacent segment of the GI wall at a targeted location. Activation of the GIC may include a number of automatically accomplished partial activations, such as when the time elapsed from the moment of setting the GIC on equals a predefined time delay; when the mechanical load applied onto the GIC exceeds, and/or gets lower than a respective predefined level of mechanical load; when the ambient pH reaches a predefined level, or changes, and/or a temperature associated with the user reaches a predefined threshold. Agitation is accomplished by an agitation mechanism embedded in the GIC. Such agitation mechanism includes an unbalanced weight attached to the shaft of an electric motor, an actuator implemented by, such as an electric solenoid, an electro-active polymer (EAP), a dielectric elastomer actuator (DEA), embedded in a GIC of the invention.