Introduced here are pressure-mitigation systems able to mitigate the pressure applied to a human body by a surface and associated methods for operating the same. A system can include a pressure-mitigation surface with a plurality of chambers whose pressure can be varied by a controller that regulates the flow of fluid produced by a pump. The plurality of chambers may be arranged in a geometric pattern designed to mitigate the pressure on a specific anatomic region when the human body is arranged over the pressure-mitigation surface.

A nose wiping device comprises a knobbed base structure, a cover enclosing the knobbed base structure, and connecting member attached to a first end of the cover and a second end of the cover. The nose wiping device is configured to be worn around a limb thereby allowing removal of nasal drip.

A nose wiping device comprises a knobbed base structure, a cover enclosing the knobbed base structure, and connecting member attached to a first end of the cover and a second end of the cover. The nose wiping device is configured to be worn around a limb thereby allowing removal of nasal drip.

Garments and associated methods are disclosed. In examples, a garment includes an absorbent assembly bonded to a body portion. In examples, the absorbent assembly includes an absorbent layer and overlies at least a central region of the body portion. In examples, the absorbent assembly is at least partially bonded to the body portion with elastic bonding film. In examples, the garment is configured to be washed and re-worn numerous times. In examples, a method of manufacturing a garment includes arranging an absorbent assembly over at least the central region of the body portion and bonding the absorbent assembly to the body portion with strips of elastic bonding film and without stitching. In examples, a moisture-absorbent garment includes a body layer supporting an absorbent assembly within a central region and strips of elastic bonding film that bond at least a portion of the absorbent assembly to the body layer without stitching.

The present disclosure relates to a washable outer shell (1) for an absorbent assembly (2), the outer shell (1) including an inner surface (3) and an outer surface (4), the outer shell (1) has an extension in the longitudinal direction (L) and in the transverse direction (T), the outer shell (1) comprises a front region (5), a crotch region (6) and a rear region (7), the rear region (7) including a first and a second corner region (7a,7b) and a rear central region (7c), the outer shell (1) including a first hook member (9a) provided in the first corner region (7a) and a second hook member (9b) provided in the second corner region (7b), the first corner region (7a) including a first corner outer edge (7a) and the second corner region (7b) including a second corner outer edge (7b), the outer shell (1) including a hook attachment zone (8).

Introduced here are apparatuses and systems for mitigating contact pressures applied to a human body by the surface of an object, such as a chair, bed, or table. A pressure-mitigation apparatus can include a series of chambers whose pressure can be individually varied. When placed between a patient and a contact surface, the pressure-mitigation apparatus can vary the contact pressure on a specific anatomical region of the patient by controllably inflating and/or deflating one or more cell. Moreover, a pressure-mitigation system can be readily integrated into a conventional treatment regimen for a variety of different conditions.

An undergarment includes a body portion having an upper edge defining a waistband, two leg openings and a crotch region between the leg openings; an absorbent pad on the inside of the body portion within at least the crotch region, the absorbent pad having an inner region and a peripheral region, wherein the thickness of the absorbent pad in the peripheral region is less than the thickness of the absorbent pad in the inner region; and elastic bonding film lining each of the two leg openings while overlying respective portions of the peripheral region of the absorbent pad thereby to bond the absorbent pad and the body portion. A method of manufacturing an undergarment is provided.

An undergarment includes a body portion having an upper edge defining a waistband, two leg openings and a crotch region between the leg openings; an absorbent pad on the inside of the body portion within at least the crotch region, the absorbent pad having an inner region and a peripheral region; and elastic bonding film bonded to each of the two leg openings and overlying respective portions of the peripheral region of the absorbent pad thereby to seamlessly bond the absorbent pad with the body portion.

An undergarment configured to help absorb leaks of bodily fluids from a person suffering from mild to moderate incontinence or other conditions includes a main body made of a material that allows the absorption of bodily fluids and a crotch piece made of a material that allows the absorption of bodily fluids that overlays the crotch portion of the main body. The crotch piece of the undergarment can extend high enough and be wide enough on the front side of the garment's main body so as to offer an adequate area of protection to the user.

Introduced here are apparatuses and systems for mitigating contact pressures applied to a human body by the surface of an object, such as a chair, bed, or table. A pressure-mitigation apparatus can include a series of chambers whose pressure can be individually varied. When placed between a patient and a contact surface, the pressure-mitigation apparatus can vary the contact pressure on a specific anatomical region of the patient by controllably inflating and/or deflating one or more cell. Moreover, a pressure-mitigation system can be readily integrated into a conventional treatment regimen for a variety of different conditions.