A disposable absorbent article having a topsheet, a backsheet, and an absorbent core structure disposed therebetween. The absorbent core structure includes an upper nonwoven layer comprising polymer fibers, a lower nonwoven layer comprising polymer fibers, and an inner core layer disposed between the upper and lower nonwoven layers. The inner core layer includes from about 50% to about 85% cellulosic fibers, by weight of the inner core layer, and superabsorbent particles. The inner core layer is contained within the nonwoven layers by substantially sealing at least a left side region and a right side region of the upper and lower nonwoven layers. The absorbent article has a CD Dry Bending Stiffness between about 10 to about 30 N.Math.mm.sup.2 as measured according to the Wet and Dry CD and MD 3 Point Bend Method and a Total IFF+SFF value of between about 20 and about 200 mg as measuring according to the Acquisition Time and Rewet Method.

An absorbent article includes a first waist region, a second waist region and a crotch region disposed between the first and second waist regions; and a chassis comprising a topsheet, a backsheet and an absorbent core disposed between the topsheet and the backsheet. The absorbent article also includes an ear disposed in one of the waist regions. The ear includes a laminate having a first nonwoven and a second nonwoven and an elastomeric material sandwiched between said first and second nonwovens in an elasticized region. The laminate also includes a first bonding region comprising a first plurality of ultrasonic bonds having a first bond density, and a second bonding region comprising a second plurality of ultrasonic bonds having a second bond density. The first bond density is greater than the second bond density.

An Absorbent article comprising a topsheet, a backsheet, and an absorbent core comprising an absorbent structure, wherein the absorbent structure exhibits a Cross Direction bending rigidity between 0.3 gf*cm{circumflex over ( )}2/cm and 1.6 gf*cm{circumflex over ( )}2/cm and a Machine Direction bending rigidity between 1.5 gf*cm{circumflex over ( )}2/cm and 14 gf*cm{circumflex over ( )}2/cm.

Multi-layered absorbent bodies and methods of manufacture are disclosed. An absorbent body may comprise a top, liquid permeable covering material, a bottom covering material, a reinforcing material disposed between the top covering material and the bottom covering material, the reinforcing material bonded directly to the top covering material by a first adhesive layer and bonded directly to the bottom covering material by a second adhesive layer, and superabsorbent material disposed between the top covering material and the bottom covering material, wherein between about 30% and about 85%, by weight, of the total amount of superabsorbent material disposed between the top covering material and the bottom covering material is stabilized within the reinforcing material, as determined according to the SAM Stabilization Location Test Method.

A compression system for applying compression to a body part of a user. The compression system has a sleeve for substantially covering a portion of the body part of a user. The sleeve has two lateral side edges. In the transverse direction from the first lateral side edge to the second lateral side edge the sleeve has a first lateral side region, a central region and a second lateral side region. At least the central region of the sleeve has a material with elasticity in the transverse direction and longitudinal direction of the sleeve. The compression system has a releasable closure system. Upon closure of the closure system the sleeve is restrained and tightened about the body part of the user.

The present disclosure provides for an apparatus for using a patterned stranded elastic laminate. The stranded elastic laminate is patterned by an anvil roll. The current disclosure also includes a process for making a patterned elastic laminate The patterned elastic laminate provides an aesthetic effect and is visible at least in both the stretched and unstretched states.

A package comprising an interior space and an exterior surface may have a plurality of disposable absorbent articles disposed within the interior space of the package. Each of the disposable absorbent articles may have a topsheet; a backsheet; an absorbent core located between the topsheet and the backsheet. The absorbent products may exhibit an In-Bag Stack Height of less about 80 mm as measured according to an In-Bag Stack Height Test.

Disposable absorbent articles suitable for providing leakage protection for users that experience relatively small to relatively large discharges of fluids wherein the article comprises a chassis which comprises a primary topsheet; a backsheet; an absorbent core having a front end portion, a central portion, and a rear end portion along its length, the core being disposed between the primary topsheet and the backsheet, and wherein the core comprises 1) a first laminate which includes a first superabsorbent layer disposed onto a first distribution layer and 2) a second laminate which includes a second distribution layer joined to a second superabsorbent layer; wherein the first distribution layer is joined to the second distribution layer in an offset manner along the length of the core such that a central portion of the core is formed from an overlapping joinder of the first and second laminates.

Disposable absorbent articles suitable for providing leakage protection for users that experience relatively small to relatively large discharges of fluids wherein the article comprises a chassis which comprises a primary topsheet; a backsheet; an absorbent core having a front end portion, a central portion, and a rear end portion along its length, the core being disposed between the primary topsheet and the backsheet, and the article exhibits an article length of from about 371 mm to about 500 mm according to the Article Length Method; a dry pad thickness of between about 4.6 mm to about 12 mm according to a Pad Thickness Method; and an Energy of Recovery at a load of 30 ml of from about 4 mJ to about 11 mJ according to a Bunch Compression Method.

The present invention is directed to an absorbable hemostatic nonwoven patch that utilizes a biocompatible substrate comprised of melt-blown microfibers as webbed sheets that are layered and bonded/entangled in descending density and ascending porosity; with the substrate having a high flexibility, strength and porosity that is suitable for coating cross-linkable active molecules and ability for laparoscopic use or trocar deployment, ultimately for functional use as a highly effective hemostat in addressing problematic bleeding during both open and minimally invasive surgical procedures.