Patent ID: 7021314

Claim:
A stoma stent for a tracheostomy, comprising: a hollow tube having an open first end, an opposite open second end, a smooth exterior surface and smooth interior surface, said interior surface defining a tube interior, said first end and second end defining a tube longitudinal axis; a pair of angled flanges at the tube second end extending radially outward from the tube exterior surface away from a tube central longitudinal axis; a frusto-conic forward portion having an inner surface and an outer surface, said forward portion being joined to said tube open first end, said tube open first end and forward portion forming a junction with an initial diameter matching an inner diameter of the tube, said forward portion expanding forwardly and outwardly and terminating in a rounded rim, said rim defining a stoma stent proximal end, said forward portion having a longitudinal central axis coincident with the longitudinal central axis of the tube, wherein the tube second end defines a stent distal end; a circular, thin flap within said tube interior joined directly to the tube interior surface, said flap having a diameter slightly greater than the diameter of the tube interior, said flap having a perimeter and being radially connected along a portion of said perimeter to the tube interior surface adjacent to the tube first end, said flap adapted to being in a closed position transverse to the longitudinal axis of said tube during patient exhalation and in an open position during inhalation; a radial channel formed in the forward portion inner surface adjacent to the junction; a retaining ring adapted to being inserted into the channel, said ring having an inner opening with a diameter slightly less than the diameter of the tube interior, said retaining ring providing a locking detent for the flap during exhalation; two opposed holes formed in said forward portion near to the rim; and a plurality of baffles in the tube interior, said baffles being comprised of a plurality of staggered posts attached to the tube interior surface.