Water-resistant orthopedic undercast sleeve product

Abstract

A water-resistant orthopedic undercast sleeve that includes a tubular sheet material formed of extruded filaments having water-resistant properties and a thickness sufficient to provide both cushioning and moisture transport in a single layer between a cast and a limb onto which the sleeve is applied. The water resistant properties are achieved by at least one process, including a water-resistant filler, finish or coating applied to the filaments during extrusion, applying a water resistant finish to the finish during extrusion, applying a water resistant finish to the filaments during a subsequent spinning process, or coating the filaments with a water-resistant finish in a separate process. Moisture egress channels are formed in the sheet material for transporting moisture away from the limb, longitudinally along the length of the sleeve, and out of the space between the sleeve and cast.

Claims

1. A water-resistant orthopedic undercast sleeve, comprising: (a) a tubular sheet material formed of extruded filaments having water-resistant properties and a thickness sufficient to provide both cushioning and moisture transport in a single layer between a cast and a limb onto which the water-resistant orthopedic undercast sleeve is applied, the tubular sheet material comprising a three dimensional tubular knitted fabric constructed from separate, spaced-apart top and bottom layers wherein each of the layers is of knit construction and the layers are joined together by interconnecting yarns; and (b) moisture egress channels formed in the top and bottom layers by their knit construction and also formed between the top and bottom layers for transporting moisture away from the limb, longitudinally along the length of the water-resistant orthopedic undercast sleeve, and out of a space between the water-resistant orthopedic undercast sleeve and cast, the tubular sheet material having sufficient resistance to compression so as to maintain the moisture egress channels subsequent to application of the cast over the tubular sheet material; wherein the tubular sheet material comprises a water-resistant finish coating comprising a nano-coating; wherein the tubular knitted fabric is formed in an elongate roll of sufficient length to permit multiple lengths suitable for application to the limb to be severed from the elongate roll, as and when needed, and wherein a plurality of indicia noting particular lengths corresponding to the limb are located along the length of the tubular knitted fabric to indicate where a cut may be made; wherein the water-resistant orthopedic undercast sleeve is knitted from a hydrophobic, low filament, multifilament yarn with a filament count of at least 10 and having a total denier of between 500-1500; wherein the tubular knitted fabric is provided in pre-cut lengths suitable for application to a limb of a predetermined size and length; and wherein the tubular knitted fabric comprises low moisture regain hydrophobic fiber comprising polypropylene.

2. A water-resistant orthopedic undercast sleeve, comprising: (a) a tubular sheet material, formed of a low moisture regain hydrophobic polypropylene fiber, having a thickness sufficient to provide both cushioning and moisture transport in a single layer between a cast and a limb onto which the water-resistant orthopedic undercast sleeve is applied, the tubular sheet material comprising a three dimensional tubular knitted fabric having a nano-coating water-resistant finish and constructed from separate, spaced-apart top and bottom layers wherein each of the layers is of knit construction and the layers are joined together by interconnecting yarns; (b) moisture egress channels formed in the top and bottom layers by their knit construction and also formed between the top and bottom layers for transporting moisture away from the limb, longitudinally along the length of the water-resistant orthopedic undercast sleeve, and out of a space between the water-resistant orthopedic undercast sleeve and cast, the tubular sheet material having sufficient resistance to compression so as to maintain the moisture egress channels subsequent to application of the cast over the tubular sheet material; and (c) wherein the tubular knitted fabric is formed in an elongate roll of sufficient length to permit multiple lengths suitable for application to the limb to be severed from the elongate roll, as and when needed, and wherein a plurality of indicia noting particular lengths corresponding to the limb are located along the length of the tubular knitted fabric to indicate where a cut may be made; and wherein the water-resistant orthopedic undercast sleeve is knitted from a hydrophobic, low filament, multifilament yarn with a filament count of at least 10 and having a total denier of between 500-1500.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Some of the objects of the invention have been set forth above. Other objects and advantages of the invention will appear as the invention proceeds when taken in conjunction with the following drawings, in which:

(2) FIG. 1 is a perspective view of a continuous roll of the sleeve product;

(3) FIG. 2 is a perspective view of a sleeve in place on the forearm of a patient; and

(4) FIG. 3 is a perspective view of a cast in place on a limb, including the sleeve according to an embodiment of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT AND BEST MODE

(5) Referring now specifically to the drawings, a water-resistant orthopedic undercast sleeve product according to the present invention is illustrated in FIG. 1 and shown generally at reference numeral 10. The particular embodiment shown in FIG. 1 is a roll-form product, and can be cut to length as needed. Indicia noting particular lengths can be placed on the product 10 to indicate where a cut may be made. The indicia may be a mark, a series of dropped stitches, or any other suitable manner of indicating a particular length.

(6) Alternatively, the product 10 may be pre-cut into one or more lengths and packaged in that form, for example, in a bag or envelope from which a pre-cut length of product 10 is removed when needed.

(7) Referring now to FIG. 2, the sleeve product 10, whether originally in roll-form or pre-cut, is placed on a limb to form a water-resistant orthopedic undercast sleeve 20. The sleeve 20 can be constructed using suitable materials that provide adequate cushioning underneath a cast and are easy to mold around the injured limb, such as foam, knitted or stretch-woven textile substrate, polymeric film, plastic material or a combination of these. In a preferred embodiment shown in FIG. 2, the sleeve 20 is constructed of a suitable textile fabric, which can be constructed using any suitable organic or inorganic fiber or a blend of these. The sleeve 20 is preferably constructed using a low moisture regain, hydrophobic fiber such as polyester or polypropylene. The textile substrate can be either a single knit or a double knit construction.

(8) In the most preferred form, the sleeve 20 is knitted using a hydrophobic fiber, such as polypropylene. The yarns selected for knitting the sleeve 20 can be a monofilament or a multifilament or a blend of both. In the preferred embodiment, the sleeve 20 is knitted using a hydrophobic, low filament, multifilament yarn with a filament count of at least 10 and having a total denier of between 50 and 2000, and preferably 500-1500.

(9) The textile substrate can be knitted using any suitable knit structure and design, including but not limited to plain knit, rib knit, jersey knit, loop/terry knit and an interlock knit. In the most preferred form the sleeve 20 is knitted using a rib design such as 11, 21, 22 or 31 rib. A typical rib 22 rib knit pattern is shown in FIG. 2.

(10) The water-resistant performance of the undercast sleeve 20 will depend on the type of fiber, yarn and fabric construction. Hence the sleeve 20 may or may not require further treatment or finishing to enhance its water resistance. For example, the sleeve 20 may be treated with a suitable fluorochemical or nano based water repellant coating or other waterproof/water-resistant coating techniques that improves or imparts a water-resistant characteristic to the sleeve 20.

(11) Alternatively, the water-resistant sleeve 20 can be constructed using yarns with a water-resistant characteristic. Yarns having a water-resistant characteristic can be achieved by various methods, including but not limited to, incorporating a suitable filler, finish, or coating while extruding the filaments; coating the filaments with an appropriate finish during an extrusion/spinning process; or coating the filaments in a separate process. The yarns may be treated with a wax, silicone, fluorochemical product or coated with a nano-coating or any other suitable water-resistant product.

(12) As is shown in FIG. 3, the sleeve 20 resides against the skin and beneath an overlying wrapping of cast tape 25 to form a completed cast structure 30. As noted above, the sleeve 20 is intended to replace both the stockinette and padding of a conventional cast system. For this reason, the sleeve is constructed with a loft, bulk or thickness that provides adequate protection to the skin and bony prominences when applied under an orthopedic cast.

(13) It has been observed during development that a sleeve with a hydrophobic performance will not function correctly without a means of conveying the moisture not only away from the skin, but out of the space between the sleeve 20 and cast tape 25. This is accomplished by, in the knitted embodiment, utilizing the rib knit to define egress channels between the ribs to convey moisture longitudinally along the length of the cast 30 to the surrounding air. Water movement and drying of the textile substrate is greatly improved by fewer yarn filaments and orientation, which can trap water molecules retaining a feeling of wetness in the area of the skin.

(14) Alternatively, spacer fabrics may be suitable, with spaced-apart faces of the fabric defining an intermediate channel for transporting moisture away from both the sleeve and the cast tape. The spacer fabric is formed as or into a tube and has sufficient elasticity to form to the shape of the limb in the same manner as the sleeve 20 shown in FIG. 2.

(15) Further alternatives may include open cell foam products in the form of sheets with channels or grooves molded or otherwise formed into the surface of the foam to serve as channels for transporting moisture away from the foam sleeve and the cast tape. The sheets are formed as or into tubes and have sufficient elasticity to form to the shape of the limb in the same manner as the sleeve 20 shown in FIG. 2.

(16) The waterproof sleeve 20 may also be constructed using a tubular substrate with a top surface and a bottom surface and a series of interconnecting yarns between them. The top and bottom surface of the sleeve may also be joined by stitching, gluing, ultrasonic or other suitable means. The top and bottom surface can be knitted using the same or different structure and design.

(17) A water-resistant undercast sleeve is described above. Various details of the invention may be changed without departing from its scope. Furthermore, the foregoing description of the preferred embodiments of the invention and the best mode for practicing the invention are provided for the purpose of illustration only and not for the purpose of limitation.