An elastically deformable braided string whose intermediate part excluding both end areas can deform elastically in the direction of axis under an external pulling force, wherein the intermediate part is divided into/constituted by multiple areas having different tensile moduli in the direction of axis. The above elastically deformable braided string can be applied for various purposes.

A knitted quilt fabric is made of a first layer of a first knit material and a second layer of a second knit material, with a filler material composed of a plurality of plaited lay-in fibers between the two layers. The first layer and second layer are joined at a plurality of locations with knits forming at least one linear quilt line. Each knit of the linear quilt line is formed around a plaited lay-in fiber by knitting a first fiber of the first material to the second material and returning to the first material and knitting a second fiber of the second material to the first material and returning to the second material. Each lay-in fiber is an elastic polyether-polyurea copolymer which is plaited with one or more natural or synthetic yarns.

Vascular treatment and methods include a plurality of self-expanding bulbs and a hypotube including interspersed patterns of longitudinally spaced rows of kerfs. Joints between woven structures and hypotubes include solder. Woven structures include patterns of radiopaque filaments measureable under x-ray. Structures are heat treated to include at least shapes at different temperatures. A catheter includes a hypotube including interspersed patterns of longitudinally spaced rows of kerfs. Heat treating systems include a detachable flange. Laser cutting systems include a fluid flow system.

A compression article and method for its production on a flat-bed knitting machine are provided for providing an improved fit to a body part. In the compression article, respectively the number of stitches per stitch row is matched to the radial circumference of the body part to be treated by the compression article. The compression article has a plurality of points which are distributed over its circumference and at which, in a stitch row, at least one of a stitch increase and a stitch reduction is realized. The number of stitches in the wale direction varies over the circumference of the compression article and is matched, in the longitudinal direction of the body part, to the shape of the body part to be treated.

A braided sleeve with complex geometry, including changes to the geometry along the braided sleeve's longitudinal axis are described. In particular, along a first portion of the braided sleeve's longitudinal axis, multiple tows are intertwined with each other. Along a second portion, one of tows is removed from being intertwined with the other tows and is relocated to an interior or an exterior of the braided sleeve. A third portion includes the removed tow being intertwined with the plurality of tows again. In this manner, the braided sleeve may provide coverage of preforms with varying diameters along the longitudinal axis of the preforms.

To achieve high fit corresponding to variation in dimensions and shapes in a section of a human body and high return-promoting-effect. The cylindrical bandage (1) has increase and decrease in the number of stitches of row on one circle of a wale side to reflect a variation in circumference of a section of a human body in human body circumference dates m.sub.1, m.sub.2, m.sub.3, . . . . This bandage includes depression part (exterior convex part (42) where stitch shows convexity on the outside and concavity on the inside) and projection part (interior convex part (41) where stitch show concavity on the outside and convexity on the inside) on the inside being in contact with a wear part. The depression part and projection part are alternatively and continuously arranged in parallel in a circumferential direction. This bandage has continuous unevenness in the cross-section by knitting.

A method for manufacturing a garment includes gathering customer data from a plurality of customers, the customer data being associated with respective ones of a plurality of garment orders and including customer information regarding at least one customizable garment parameter and generating a schedule for producing a plurality of customized garments including analyzing the at least one customizable garment parameter for the at least some of the plurality of garment orders. The method further includes manufacturing the plurality of customized garments according to the schedule.

Stents are disclosed herein. In some embodiments stents within the scope of this disclosure may comprise a first flared end and second flared end. In some embodiments, a profile of each of the first flared end and the second flared end may circumscribe a portion of separate elliptical arcs. In some embodiments, the stents are formed from braided or woven wires having a constant pitch along a middle region and continuously varying pitches along the first flared end and the second flared end. Methods of manufacturing stents are disclosed herein. Methods of using stents are also disclosed herein.

A knitted structure is configured for heat generation and distribution. In some embodiments, the knitted structure includes a knitted fabric including a first knitted layer and a second knitted layer opposite the first knitted layer. The first knitted layer has a first thermal conductivity. The second knitted layer has a second thermal conductivity. The second thermal conductivity is greater than the first thermal conductivity to facilitate heat transfer toward the first knitted layer. The knitted structure may further include a plurality of electrodes at least partially disposed inside the knitted fabric. Each of the plurality of electrodes is configured to generate heat within the knitted fabric upon receipt of electrical energy in order to distribute heat along the knitted structure and toward the first knitted layer.

A method for manufacturing a knitted garment includes obtaining customer data regarding at least one customizable garment parameter and applying at least one sequencing module to the customer data to generate a pattern for a customized garment according to the at least one customizable garment parameter. The at least one sequencing module includes a radial symmetry module that includes applying a first transfer sequence to a first section of stitches including executing an underlapping transfer of stitches from successive pairs of needles in the second bed to successive single needles in the first bed, respectively, and applying a second transfer sequence to a second section of stitches including executing an overlapping transfer of stitches from successive pairs of needles in the second bed to successive single needles in the first bed, respectively.