Abstract: Hearing aid devices, methods of manufacture, methods of use, and kits are provided. In certain aspects, the hearing aid devices comprise an apparatus having a transducer and a retention structure comprising a shape profile corresponding to a tissue of the user, and a layer of elastomer.

Abstract: Hearing aid devices, methods of manufacture, methods of use, and kits are provided. In certain aspects, the hearing aid devices comprise an apparatus having a transducer and a retention structure comprising a shape profile corresponding to a tissue of the user, and a layer of elastomer.

Abstract: Embodiments of the invention are directed to a microactuator including using (i) an ingress membrane mounting ring adhesive positioned on an ingress membrane mounting surface to mount an ingress membrane and (ii) a flexible encapsulation shield mounted on a support band and extending over the ingress membrane mounting ring and (iii) a first reed adhesive connecting the ingress membrane to a microactuator reed at an ingress membrane reed opening and (iv) a second reed adhesive positioned on and covering the first reed adhesive, the second reed adhesive extending from the ingress membrane to the microactuator reed.

Abstract: An improved microactuator for use in a contact hearing aid, wherein the microactuator includes a one-piece membrane. The one piece membrane being adapted to prevent moisture from entering the microactuator through the microactuator reed opening when the contact hearing aid microactuator is placed in the ear canal of a patient.

Abstract: Hearing aid devices, methods of manufacture, methods of use, and kits are provided. In certain aspects, the hearing aid devices comprise an apparatus having a transducer and a retention structure comprising a shape profile corresponding to a tissue of the user, and a layer of elastomer.

Abstract: Embodiments of the invention are directed to a microactuator including using (i) an ingress membrane mounting ring adhesive positioned on an ingress membrane mounting surface to mount an ingress membrane and (ii) a flexible encapsulation shield mounted on a support band and extending over the ingress membrane mounting ring and (iii) a first reed adhesive connecting the ingress membrane to a microactuator reed at an ingress membrane reed opening and (iv) a second reed adhesive positioned on and covering the first reed adhesive, the second reed adhesive extending from the ingress membrane to the microactuator reed.

Abstract: Hearing aid devices, methods of manufacture, methods of use, and kits are provided. In certain aspects, the hearing aid devices comprise an apparatus having a transducer and a retention structure comprising a shape profile corresponding to a tissue of the user, and a layer of elastomer.

Abstract: A method and apparatus for scarifying fruit by advancing at least one pair of opposed knives contemporaneously into an article of fruit (typically a frozen cranberry or other article of frozen fruit) through at least two locations on the surface of the fruit, such that none of the knives advances so far into the fruit that its tip protrudes out from the fruit. In embodiments which scarify frozen cranberries, each of the knives typically penetrates not more than about 7 mm, or in some cases not more than about 1 mm or 2 mm into the fruit. In some embodiments, each knife has a concave distal surface (for fitting against a convex article of fruit) with a pin protruding distally (e.g., by an amount in the range from about 1 mm to about 7 mm) from the distal surface.

Abstract: A method and apparatus for scarifying fruit by advancing at least one pair of opposed knives contemporaneously into an article of fruit (typically a frozen cranberry or other article of frozen fruit) through at least two locations on the surface of the fruit, such that none of the knives advances so far into the fruit that its tip protrudes out from the fruit. In embodiments which scarify frozen cranberries, each of the knives typically penetrates not more than about 7 mm, or in some cases not more than about 1 mm or 2 mm into the fruit. In some embodiments, each knife has a concave distal surface (for fitting against a convex article of fruit) with a pin protruding distally (e.g., by an amount in the range from about 1 mm to about 7 mm) from the distal surface.