This invention is directed towards an absorbent bodily waste collection device for domesticated animals and humans and methods of use thereof.

A web having a first surface and a second surface, a plurality of apertures extending through the web from the first surface to the second surface, wherein at least a portion of the plurality of apertures are treated with a composition and at least a portion of the apertures are untreated is disclosed. The treated apertures form a plurality of treated aperture zones, and the untreated apertures form a plurality of untreated aperture zones. Each of the plurality of treated aperture zones has one or more apertures, and each of the plurality of untreated aperture zones has one or more apertures. The plurality of treated aperture zones includes between about 25 percent to about 75 percent of the plurality of apertures.

A feminine napkin assembly including a menstrual pad coupled with a fluid guide that directs the flow of menstrual fluid to a desired location on the pad is provided. The fluid guide may include an elongate member with a proximal end coupled to an upper surface on the menstrual pad and a distal end extending forward towards the front end of the menstrual pad. The distal end of the elongate member may be placed against or inside the user's vagina. In this way, the fluid guide member may guide menstrual fluid to the desired location on the pad, thereby minimizing leakage of the fluid out the sides, rear, or front of the pad.

The present disclosure provides a sanitary napkin that is thin, highly absorbent and has resiliency properties that are selected to provide good comfort potential and at the same time reduce the likelihood of deformation and breaking. In a specific example, the sanitary napkin comprises a cover layer, an absorbent system and a barrier layer. The absorbent system includes an absorbent core and a reinforcement layer.

An individually wrapped absorbent article includes an absorbent article and a wrapping sheet, wherein the absorbent article includes a middle area that includes a portion corresponding to a body-fluid-excretion-orifice of a wearer upon wearing the absorbent article, and a rear area behind the middle area extends to a rear end of the absorbent article, and the absorbent article includes hip-hold flaps projecting laterally from the main body in the rear area, and an outline the hip-hold flaps has convex portions with curvature radius of 5 to 500 mm, wherein anti-slipping portions are disposed on a back surface of the hip-hold flaps, and the hip-hold flaps are folded with a top-sheet side inward along lengthwise-direction-folding-lines extending substantially in the lengthwise-direction, and the rear area is folded with the top-sheet side inward along a widthwise-direction-folding-line extending substantially in the widthwise-direction through the anti-slipping portions and apexes of the convex portions.

A spunbond wipe is provided. At least one of upper and lower layers of the spunbond wipe is a spunbond long fiber layer. An intermediate layer of the spunbond wipe is a wood pulp fiber web. Spunbond long fibers of the spunbond long fiber layer are interwoven in the wood pulp fiber web. Also provided is a manufacturing method of the spunbond wipe.

A hydrogen-supplying breathable layer in the present disclosure comprises: a thin layer wrapping a hydrogen-producing formula inside, having an airtight outer side as well as an air-permeable inner side on which a plurality of micro pores are opened and featuring a monolayer or a composite layer; a hydrogen-producing formula wrapped inside the thin layer and not dissipated but absorbing moistures in air or liquid water for generation of hydrogen; hydrogen permeating a plurality of micro pores and released to skin and intra-corporal parts. The hydrogen-producing formula in the hydrogen-supplying breathable layer comprises metal peroxides (metal hydroxides or metal hydrides) and aluminum powders (or silica powders); the breathable layer is applicable to a dressing pack or other sanitary paraphernalia in daily lives for relieving non-bacteria inflammations and promoting health care effects.

A tissue retraction system that allows aeration in a skinfold of a patient needing medical attention may include a flexible frame having a defined body shape comprising an internal facing surface configured to face a crease in the skinfold, an external facing surface opposite the internal facing surface configured to face outwardly and away from the patient, a first tissue facing surface, and a second tissue facing surface opposing the first tissue facing surface. Each of the first and the second tissue facing surfaces may be configured to engage against opposing sides of the skinfold.

A protective panel has an upper oval potion having a maximum width of between three and five inches inclusive and a vertical dimension between two and four inches inclusive, a second portion, contiguous with the first portion, extending downward from the first portion, with a gradually declining width over a vertical dimension of between eight and twelve inches inclusive, and a third lowermost portion having a width between one-half inch and two inches inclusive, ending in a circular arc at the lowermost extent, the panel formed of a polymer film having a human skin-compatible adhesive on one surface, enabling a user to apply the panel to the user's anatomy.

A tissue retraction system that allows aeration in a skinfold of a patient needing medical attention may include a flexible frame having a defined body shape comprising an internal facing surface configured to face a crease in the skinfold, an external facing surface opposite the internal facing surface configured to face outwardly and away from the patient, a first tissue facing surface, and a second tissue facing surface opposing the first tissue facing surface. Each of the first and the second tissue facing surfaces may be configured to engage against opposing sides of the skinfold.