A training apparatus is disclosed, comprising: a top structure, a bottom structure, and a traction structure disposed between the top structure and the bottom structure, and wherein the traction structure is configured to be retractable along an axial direction of the top or bottom structure to achieve relative movement between the top structure and the bottom structure.

A laryngeal nerve exciting system includes a collar holding a bridge, or a neckband, pressing soft tissue nerve exciters against a patient's neck providing a source of vibrations to stimulate the laryngeal nerve through the larynx. At least one exciter, and preferably two exciters, provide vibrations at preferably 70 Hz to 110 Hz and sufficiently strong to penetrate to the laryngeal nerve. The exciters may be held by the collar circling the neck, or by the neck band partially circling the neck. The therapy system includes a Personal Digital Assistant (PDA) and software which wirelessly connects, monitors, and triggers the device. The system may be used to treat dysphagia, chronic cough, and spasmodic dysphonia.

A laryngeal nerve exciting system includes a collar holding a bridge, or a neckband, pressing soft tissue nerve exciters against a patient's neck providing a source of vibrations to stimulate the laryngeal nerve through the larynx. At least one exciter, and preferably two exciters, provide vibrations at preferably 70 Hz to 110 Hz and sufficiently strong to penetrate to the laryngeal nerve. The exciters may be held by the collar circling the neck, or by the neck band partially circling the neck. The therapy system includes a Personal Digital Assistant (PDA) and software which wirelessly connects, monitors, and triggers the device. The system may be used to treat dysphagia, chronic cough, and spasmodic dysphonia.

A massage device that includes a dorsal brace, a dorsal projection, and a first and second arm. The dorsal projection attaches to the dorsal brace. The first arm connects to a first end of the dorsal brace and the second arm connects to a second end of the dorsal brace. Both arms extend in the same direction and are substantially parallel to each other. Also disclosed is a massage device that includes a dorsal brace, a plurality of dorsal projections, and a first and second arm. One or more of the plurality of dorsal projections attach to the dorsal brace. The first arm connects to a first end of the dorsal brace and the second arm connects to a second end of the dorsal brace. Both arms extend in the same direction and are substantially parallel to each other.

An inversion table that incorporates additional therapies, such as massage, traction, and heat. Therapeutic elements of the inversion table may be programmable, so that settings are cycled automatically through preprogrammed patterns. The table may have one or more back massage elements that travel along tracks in the table to massage different portions of the back, and similar neck massage elements that massage different portions of the neck. Traction actuators may apply traction forces to the head and the legs. One or more heating pads may apply heat to any portion of the body. Settings for the therapeutic elements may be controlled by a processor that may execute stored therapy programs, or may respond to user input from a controller or a smartphone.

A training apparatus is disclosed, comprising: a top structure, a bottom structure, and a traction structure disposed between the top structure and the bottom structure, and wherein the traction structure is configured to be retractable along an axial direction of the top or bottom structure to achieve relative movement between the top structure and the bottom structure.

A laryngeal nerve exciting system includes a collar holding a bridge, or a neckband, pressing soft tissue nerve exciters against a patient's neck providing a source of vibrations to stimulate the laryngeal nerve through the larynx. At least one exciter, and preferably two exciters, provide vibrations at preferably 70 Hz to 110 Hz and sufficiently strong to penetrate to the laryngeal nerve. The exciters may be held by the collar circling the neck, or by the neck band partially circling the neck. The therapy system includes a Personal Digital Assistant (PDA) and software which wirelessly connects, monitors, and triggers the device. The system may be used to treat dysphagia, chronic cough, and spasmodic dysphonia.

A laryngeal nerve exciting system includes a collar holding a bridge, or a neckband, pressing soft tissue nerve exciters against a patient's neck providing a source of vibrations to stimulate the laryngeal nerve through the larynx. At least one exciter, and preferably two exciters, provide vibrations at preferably 70 Hz to 110 Hz and sufficiently strong to penetrate to the laryngeal nerve. The exciters may be held by the collar circling the neck, or by the neck band partially circling the neck. The therapy system includes a Personal Digital Assistant (PDA) and software which wirelessly connects, monitors, and triggers the device. The system may be used to treat dysphagia, chronic cough, and spasmodic dysphonia.

A laryngeal nerve exciting system includes a collar holding a bridge, or a neckband, pressing soft tissue nerve exciters against a patient's neck providing a source of vibrations to stimulate the laryngeal nerve through the larynx. At least one exciter, and preferably two exciters, provide vibrations at preferably 70 Hz to 110 Hz and sufficiently strong to penetrate to the laryngeal nerve. The exciters may be held by the collar circling the neck, or by the neck band partially circling the neck. The therapy system includes a Personal Digital Assistant (PDA) and software which wirelessly connects, monitors, and triggers the device. The system may be used to treat dysphagia, chronic cough, and spasmodic dysphonia.

An example of an automated external defibrillator (AED) includes a housing including a lid, printed graphical instructions indicating sequential steps for treatment of a patient with the AED, a speaker configured to provide audible messages associated at least in part with the printed graphical instructions, and defibrillation electrodes stored under the lid and configured for application during the treatment of the patient according to steps including a step of peeling a left electrode pad from a liner of the left electrode pad, a step of applying the left electrode pad to the patient, a step of peeling a right electrode pad from a liner of the right electrode pad, and a step of applying the right electrode pad to the patient.