Proposed are methods and systems for thermally and/or vibrationally stimulating at least one of a laryngeal nerve or a thyroid using a neckband stimulator to treat at least one of a swallow disorder, a voice disorder, chronic cough, or thyroid related diseases. The neckband stimulator may include first and second thermal energy providers each providing a thermal energy on a surface thereof. The neckband stimulator may include first and second conductive pads configured to receive the thermal energy. The method may include placing the neckband at least partially around a neck of a patient, and moving the neckband such that the conductive pads contact different portions of the neck. The method may also include controlling the thermal energy providers to thermally conduct heat away from or to at least one of the laryngeal nerve or thyroid through the conductive pads.

Proposed are methods and systems for thermally and/or vibrationally stimulating at least one of a laryngeal nerve or a thyroid using a neckband stimulator to treat at least one of a swallow disorder, a voice disorder, chronic cough, or thyroid related diseases. The neckband stimulator may include first and second thermal energy providers each providing a thermal energy on a surface thereof. The neckband stimulator may include first and second conductive pads configured to receive the thermal energy. The method may include placing the neckband at least partially around a neck of a patient, and moving the neckband such that the conductive pads contact different portions of the neck. The method may also include controlling the thermal energy providers to thermally conduct heat away from or to at least one of the laryngeal nerve or thyroid through the conductive pads.

A neck therapy device supports the head of a patient in a supine, side-lying or prone position to eliminate the effects of gravity on the cervical vertebrae and associated musculature. A sliding platform supporting the head permits frictionless turning throughout full cervical motion and a cervical support can target a particular cervical vertebra to isolate motion to superior vertebrae. The cervical support is also used to apply traction and pressure to cervical muscles and vertebrae to effect soft-tissue mobilization and activate and strengthen cervical muscles.

A device configured for a vehicle for supporting and massaging a neck of a passenger is provided. The device is configured such that a neck support pad is integrally formed on a lower end portion of a headrest to hold up and support the neck of a passenger, and a massage device is mounted in the neck support pad to massage the neck of the passenger, thus stably supporting and massaging the neck of the passenger sitting on a seat.

A user-actuated dynamic tension traction device is disclosed. According to various embodiments of the present disclosure, a traction device passively applies traction force to a user through the use of one or more rubber or elastic resistance bands coupled to a neck collar worn by the user. The resistance bands are anchored to a stationary surface (in a preferred embodiment a door). Traction is passively applied to the user, rather than actively, as the user moves his or her body away from the surface to which the resistance bands are anchored. As the user moves backward and stretches the resistance bands, tension is incrementally exerted by the resistance bands on the neck collar, and traction is gradually applied to the user's spine.

Certain embodiments are directed to a biofluid flow assist device comprising (a) a collar configured to wrap at least partially around a subject's neck or limb; (b) at least one biofluid flow assist mechanism configured to be position over a target when the collar is positioned on the subject's neck or limb; and (c) a controller operatively connected to the biofluid flow assist mechanism. In certain aspects the biofluid is blood, lymph, and/or cerebrospinal fluid (CSF).

An apparatus and method for training muscle strength and mobility in the neck, and providing a dynamic resting position without pressure on the neck, of a person when in lying position is disclosed. The apparatus includes a base element, a head support suspended floating above the base element, and a neck support rising from the base element. The neck support provides a fulcrum that defines head movement to a pivoting motion about a first axis (X) which runs sideways substantially along the shoulder line of the body, a pivot connection between the head support and the base element defines head movement to a pivoting motion about a second axis (Y) transversely to the first axis, and by its floating suspension the head support defines head movement to a pivoting motion about a third axis (Z) running in the longitudinal direction of the neck and body.

Described herein are wearable sensory stimulation and monitoring devices that can be worn around the back of the neck along and in contact with the spine.

Apparatuses described herein stimulate one or more senses including auditory, tactile or olfactory. Apparatuses are also described that allow for sensing and monitoring of physiologic parameters such as heart rate, blood pressure and movement. The device also has features that allow for easy attachment or integration to articles worn on the head such as augmented reality and virtual reality accessories to provide visual stimulation and entertainment.

A device and method for performing cardiopulmonary resuscitation (CPR) on a patient. The device is an extendable airway bridge which is initially in a collapsed or storage configuration. The airway bridge is made of a lightweight, inexpensive material such as high strength cardboard. Upon use, the airway bridge is unfolded and then fixed into an operating configuration through a number of hook and latch fabric portions or an adhesive or glue. Once in the operating configuration, the patient is laid onto the airway bridge which holds the patient in a position so as to prevent occlusion of the patient's oral airway. CPR may then be performed on the patient. After use, the airway bridge may be released and then brought back into the collapsed or storage configuration or, alternatively, simply disposed of.

A traction device has a frame, a first bladder portion, a second bladder portion, and a third inflatable bladder portion. The first bladder expands in an outward direction a distance greater than in a transverse direction. The second bladder expands in a first angular direction. The second bladder is positioned generally inferior to and to the side of the first bladder. The third bladder expands in a second angular direction. Upon expanding in the outward direction, the first bladder bears against the back of the user's neck. Upon expanding in the transverse direction, the first bladder applies an angular traction to the cervical spine. Upon expanding in the first angular direction, the second bladder bears angularly against the back of the user's upper thoracic region. Upon expanding in the third angular direction, the third bladder bears angularly against the user's occiput.