A double-layered medical membrane and a method for manufacturing the same are provided. The double-layered medical membrane includes a hydrophilic material layer and a hydrophobic material layer disposed thereon. The hydrophilic material layer includes hydrophilic fibers, hydrophilic particles, or a combination thereof. The hydrophilic fibers and the hydrophilic particles include a hydrophilic polymer as a material. The method includes the following steps: using an electrospinning solution to form the hydrophilic material layer by electrospinning or using a hydrophilic solution to form the hydrophilic material layer; and producing the double-layered medical membrane that includes the hydrophilic material layer. The hydrophilic material layer includes the hydrophilic fibers, the hydrophilic particles, or the combination thereof. The hydrophilic fibers or the hydrophilic particles include the hydrophilic polymer as a material.

The present invention relates to a wound dressing composition that is capable of gelling upon contact with a fluid derived from a human or animal body, and which is able to maintain the integrity of the gel for a period of time that is longer than about 24 hours.

A bacterial cellulose-polyurethane composite material, preparation method, and use are described. The preparation method comprises: performing organic solvent exchange on bacterial cellulose microfibers, and obtaining bacterial cellulose microfiber composite substance A and composite substance B of different concentrations; under oil bath conditions, adding a polymer polyol and a diisocyanate compound and performing an addition polymerization reaction, obtaining, via the reaction, a bacterial cellulose composite polyurethane foam prepolymer; and subsequently performing curing and obtaining the bacterial cellulose-polyurethane composite material. By combining bacterial cellulose microfibers and polyurethane foam material, the mechanical properties of the composite material are significantly improved; the large amount of hydroxyl groups on the surfaces of the bacterial cellulose nanofibers effectively strengthens the hydrophilicity and water absorption capability of the composite material; and the favorable tissue affinity of bacterial cellulose can also improve the biocompatibility of polyurethane material.

A wound dressing is provided. The wound dressing includes a moisture-transmissible backing layer having a first major surface, a second major surface, and a backing layer perimeter; an absorbent hydrophilic adhesive adhered to at least a portion of the second major surface of the backing layer, the absorbent hydrophilic adhesive comprising an absorbent hydrophilic adhesive perimeter; an antimicrobial agent disposed in the absorbent hydrophilic adhesive; a porous layer having a first side adhered to the absorbent hydrophilic adhesive, a second side, and a porous layer perimeter; and a second hydrophobic adhesive adhered to the second side of the porous layer. The second major surface has a first hydrophobic adhesive disposed thereon proximate the backing layer perimeter. 100% of the absorbent hydrophilic adhesive perimeter is overlapped by the backing layer. At least 50% of the porous layer perimeter is overlapped by the absorbent hydrophilic adhesive.

An absorbent structure comprising a planar substrate, an auxiliary glue applied on the substrate, an absorbent material comprising from 80% to 100% by weight of superabsorbent particles deposited on the substrate on an absorbent material deposition area comprising a pattern of absorbent material land areas separated by absorbent material-free junction areas, wherein the deposition area can be notionally divided in eight deposition zones of equal length along the longitudinal direction. A fibrous thermoplastic adhesive layer immobilizes at least some of the absorbent material. The absorbent material is profiled along the longitudinal direction so that at least one of the eight deposition zones is a zone of lower absorbent material amount and the auxiliary glue is absent, or present at a level of at least 50% by weight lower than the average amount of auxiliary glue in at least one of these zones of lower absorbent material amount.

An absorbent structure comprising a planar substrate, an auxiliary glue applied on the substrate, an absorbent material comprising from 80% to 100% by weight of superabsorbent particles deposited on the substrate on an absorbent material deposition area comprising a pattern of absorbent material land areas separated by absorbent material-free junction areas, wherein the deposition area can be notionally divided in eight deposition zones of equal length along the longitudinal direction. A fibrous thermoplastic adhesive layer immobilizes at least some of the absorbent material. The absorbent material is profiled along the longitudinal direction so that at least one of the eight deposition zones is a zone of lower absorbent material amount and the auxiliary glue is absent, or present at a level of at least 50% by weight lower than the average amount of auxiliary glue in at least one of these zones of lower absorbent material amount.

The current invention concerns a multi-layer adhesive tape to compress and contract one or more scars, comprising: a top layer; a bonding layer adjacent to said top layer; a bottom layer adjacent to said bonding layer and opposite to said top layer; an adhesive layer adjacent to said flexible bottom layer and opposite to said bonding layer; and a first peelable liner at least adjacent to said adhesive layer and opposite to said bottom layer, wherein the widths of said top layer and bonding layer are larger than the widths of said bottom layer and adhesive layer, and wherein said adhesive layer comprises a rubber- or acrylic-based pressure-sensitive adhesive. The invention further concerns a multi-layer adhesive tape to compress and contract one or more scars, wherein said top layer has a thickness between 20 and 1100 μm.

A method and system of using a polyolefin-based, hot melt adhesive improves creep performance of elastic strands adhered to another substrate. Some deflection, greater than 1°, of the exit angle formed by a line normal to the axis of a neutrally-positioned applicator and the elastic strand extending from the applicator is introduced. Preferably, deflection of the entrance angle is also introduced and a head tilt angle is also provided. The use of deflection improves creep performance or allows for a reduced amount of adhesive to be used to achieve the same or similar creep performance. The elastic strands may be used to form a leg cuff in personal care products, such as diapers, and the substrate to which they are applied could be a polyethylene film or non-woven materials.

A sealant delivery device includes a housing, a matrix container connected with a distal end of the housing and being moveable between closed and opened positions, and a matrix, such as a hemostatic substrate, disposed within the matrix container. The sealant delivery device includes a sealant dispensing system in fluid communication with the matrix container that is configured for dispensing a sealant onto the matrix disposed within the matrix container. An actuator is coupled with the sealant dispensing system and the matrix container. The actuator is engageable for opening the matrix container for exposing the matrix and expressing the sealant onto the matrix. A component of the matrix container may be used to press the matrix and sealant expressed onto the matrix against target tissue to control bleeding of the target tissue.

The present disclosure describes a tampon article, a composite fibrous web, and a method of making same. Such an article includes an outer carrier component including an inner surface that defines an internal void. Including an absorbent component elongate along an axis and is disposed in the internal void. The absorbent component includes an outer surface that extends about the axis and faces the inner surface. The absorbent component further includes a composite fibrous web of staple cellulosic fibers and a meltspun web of filaments entangled with the web of staple cellulosic fibers. The composite fibrous web can be in a compressed configuration in the internal void such that at least portion of the outer surface of the absorbent component is defined by the meltspun web of filaments. The tampon can include a withdrawal cord coupled to the absorbent component.