The present disclosure relates to devices, systems and methods for improving patient adherence with respect to HFCC therapy. A therapy system of the present disclosure may include a percussive pulsing therapy device configured for delivering pulsating or intermittent airflow to a patient device, such as a patient vest worn by a patient. The airflow delivered to the patient vest may have an air pressure and a frequency, each of which may be adjustable in some embodiments. A therapy system of the present disclosure may additionally include a controller, a database, and one or more sensors. The controller and/or one or more sensors may record therapy data for a therapy session. Based on the recorded therapy data, the system may provide encouragement, advice, motivation, and/or options or information to a user by way of skills training, goal setting, feedback, reinforcement, environmental prompts, social support, and/or other patient interventions.

The lacrimal duct therapy device includes a frame assembly and an actuator assembly mounted on the frame assembly. The actuator assembly includes a contact assembly and a motor assembly configured to drive the contact assembly. The contact assembly includes at least one cam member having a base portion and a lobe portion and at least one arm member. The at least one cam member is mounted on a rod member attached to the motor assembly for rotation therewith. The at least one cam member bears against a leg member pivotally attached to the frame assembly, the leg member terminating in a knob bearing against the user's lacrimal duct region. Actuation of the motor periodically pivots the leg member so that the knob massages the lacrimal duct.

An adjustable air bladder apparatus is provided. The apparatus includes an outer enclosure, a first interior section within the outer enclosure that contains a plurality of air bladders, a second interior section within the outer enclosure that contains a support layer, and an air pump pneumatically coupled to the plurality of air bladders, where the air pump is configured to selectively supply pressurized air to the air bladders independently through a pneumatic coupling. The pneumatic coupling includes one or more supply valves, outlet valves, and pressure sensors coupled to each air bladder or to one or more groupings of air bladders. A control device is provided for monitoring the pressure within the air bladders and for controlling an amount of air provided to or released from the bladders or groupings of bladders. A method of providing rolling massage with the apparatus is also disclosed.

A device for providing sexual stimulation to an anatomically male user includes a main body including a stimulating portion, an encirclement portion, and a drive unit. The encirclement portion extends from at least one side of the main body, and defines a cylindrical hollow region which at least partially encircles a body part of a user that is received in the encirclement portion. The drive unit is disposed in the main body and is configured to drive the stimulating portion to apply a reciprocating stimulation, including a tapping stimulation, to at least a portion of the body part of the user that is received in the encirclement portion.

A percussive massage device includes a housing. The housing defines a handle portion and a corner where the handle portion meets another portion of the housing. The percussive massage device also includes a motor contained within the housing, a reciprocation shaft coupled to the motor and configured to reciprocate when the motor is active, and a heart rate sensor located at the corner.

Systems and processes for determining pressure settings for a percussive massage applicator are described. According to one embodiment, a method comprises obtaining an operational current measurement of the motor when the motor has a load. difference value is determined between the current measurement and the operational current measurement. The difference value is compared to two or more predetermined ranges of values that correspond to a pressure level of the percussive applicator. The pressure level may be provided as feedback to the user.

Described herein are systems, methods, and devices for providing percussive massage therapy with voice activation features. A percussive massage device including a housing, a motor, a switch, a microphone, a speaker, and a controller is described. The controller of the percussive massage device includes at least one processor and a memory, and the controller is coupled to the switch, the microphone, and the speaker. The controller of the percussive massage device is configured to receive, from the microphone, a voice input of a user of the percussive massage device, perform, by the at least one processor, speech recognition of the voice input, determine, by the at least one processor, an audio output based on the speech recognition of the voice input, and transmit an audio signal to the speaker to transmit the audio output to the user of the percussive massage device.

The present invention discloses a fascia gun with a retractable handle, which relates to the technical field of massagers and comprises a body and a handle, wherein the handle comprises a handle housing, a handle sleeve rod, a battery cover and a handle connector, wherein the handle housing is sleeved outside the handle sleeve rod, and the outer diameter of the battery cover is larger than the inner diameter of the handle connector; a first protrusion is arranged on the outer surface of the handle sleeve rod, and the first protrusion comprises an integrally arranged middle arc surface and connecting arc surfaces connected to both sides of the middle arc surface; a first groove is arranged on the inner surface of the hand shell along its axial direction, and the shape and size of the first groove are the same as those of the first protrusion; when the first protrusion is located in the first groove, the handle sleeve rod is connected to the handle housing with a clearance fit, and when the first protrusion slides out of the first groove, the handle sleeve rod is connected to the handle housing with a tight fit; the invention adopts a simple structure to realize the telescopic and locking functions of the handle, which is convenient for massaging the back, waist and other parts.

Systems and methods of monitoring medical therapies performed by wearable devices using electrical probes. In one example, a pulmonary physiotherapy device implements a treatment protocol function gated and modulated using electrical impedance sensors and metrics. The sensors operate to measure electrical impedance of bodily tissue. An electronic controller controls operation of the wearable device. The medical therapy can be modified based on the impedance measurements to maximize efficacy.

A hammering mechanism with hammering and clamping functions and a neck massage device having the same are provided. The hammering mechanism includes a driving assembly, a hammer arm assembly, a first transmission assembly for converting the rotational motion generated by the driving assembly into a piston motion, and a second transmission assembly for transmitting the rotational motion generated by the driving assembly to the hammer arm assembly. The first transmission assembly and the second transmission assembly are in transmission connection with the driving assembly, and the first transmission assembly and the second transmission assembly are in transmission connection with the hammer arm assembly. When the hammer arm assembly entirely performs a reciprocating motion within an arc area, a hammering effect is achieved, and when the hammer arm assembly reciprocates back and forth within an area of each sub-central angle, a clamping effect is achieved.