Abstract: A method of examining a bodily function. A first set of frequency characteristics and amplitude characteristics of a first electrical signal deriving from rhythmic activity of a nerve in a living body is detected at a first condition. The nerve is stimulated to a second condition and a second set of frequency characteristics and amplitude characteristics of a second electrical signal deriving from the rhythmic activity of said nerve is detected. The fundamental frequency present in the frequency characteristics is identified. From the fundamental frequency the frequencies corresponding to a plurality of octaves of said fundamental frequency are calculated. The amplitude of said electrical signals at said octaves is identified. For said first signal a first amplitude ratio is calculated being the ratio of the amplitude difference between a first pair of said octaves, and the amplitude difference between a second pair of said octaves.
Abstract: A hand-held device (10) for creating a pressure change in a person's ear canal. It has an interior space forming an air chamber (50), a plunger (58) and a valve means (52) frictionally engaged with said plunger (58), a tube (14) with an earpiece (48), and a finger-actuated diaphragm (60) in an external wall of the air chamber (50). The diaphragm (60) moves the plunger (58) from a resting position, and in a first direction. A spring (56) returns the diaphragm (60) to its undepressed position. Initial movement of the plunger (58) in said first direction from said resting position displaces the valve (52) from a first position to a second position at which the valve means (52) is stopped from further movement in said first direction. Further movement of the plunger (58) in said first direction causes the plunger (58) to slide relative to the valve (52). The device (10) is intended for treatment of Mënière's disease and ear pain from other causes.
Type:
Grant
Filed:
May 19, 2004
Date of Patent:
August 3, 2010
Assignee:
Burkhard Franz Pty. Ltd.
Inventors:
Burkhard Franz, Richard Michael Stephens, Christopher Leslie Peters