Self-adhesive posture and splinting band in particular for compression stocking

Abstract

A self-adhesive band or complex has a textile support structure with a coating for securing to the skin of a wearer. The textile support structure includes an extensible, aerated, finely knitted or woven support structure having, at least on its inner face, a thin coating having immediate and high adhesive properties. The coating has a degree of softness to conform to microreliefs of the wearer's skin, and an elastic modulus at least as low as that of the substrate against which it is in contact to match the microreliefs thereof.

Claims

1. A compression stocking for applying compression to a body member, including an upper ring shaped self-adhesive band consisting of a textile support structure with a tacky coating for securing the band directly to skin of a wearer, the textile support structure comprising an extensible, elastic, aerated, finely knitted or woven textile support structure configured for encircling and providing controlled compression to the body member, and having, at least on an inner surface, said tacky coating configured to be ring shaped when positioned on the body member and consisting of a single, solid, un-interrupted adhesive layer in the form of a film continuously applied and having continuous adhesive properties along a height of the band, the coating comprising a water-repellent pressure sensitive adhesive, and having a tack energy of at least 3.8 N.Math.nm and a tack force of at least 8N, a degree of softness to conform to microreliefs of the skin of the wearer and an elastic modulus at least as low as that of the skin against which the coating is in contact to match the microreliefs and macrodeformations associated with body movement, and a sleeve extending downwardly from a lower edge of the self-adhesive band, the sleeve forming a remaining portion of the compression stocking and being configured to be slipped first on a foot and then on a leg portion of the body member and extend away from the lower edge of the band along an un-banded portion of the leg portion and foot of the body member and to surround the un-banded portion of the leg portion and foot of the body member of the wearer completely, and apply compression to the leg portion.

2. The compression stocking according to claim 1, wherein the textile support structure comprises a lace.

3. The compression stocking according to claim 1, wherein the coating comprises a single-face or double-face, mono- or multi-component coating, with a thickness of about 0.5 mm.

4. The compression stocking according to claim 1, wherein the coating comprises a bi-component coating of two silicone components with a first RTV 833A component, comprising a polydimethylsiloxane with vinyl groups and platinum catalyst, and a second RTV 833B component, with a mixture of polydimethylsiloxanes, sealants and crosslinking agent.

5. The compression stocking according to claim 1, wherein the coating is based on silicone or polyurethane, or styrene-isoprene-styrene or styrene-butadiene-styrene.

6. The compression stocking according to claim 1, wherein moduli G and G defined by dynamic mechanical analysis and correlated with tack properties of the coating present a slope of log G>=0.2 and log G>=0.24.

7. The compression stocking according to claim 1, wherein the self-adhesive band has a thickness of about 1 mm and the coating has a thickness of about 0.5 mm, a grammage of the coating is less than 500 g/m.sup.2, and due to porosity of the textile support structure for facilitating curing of the coating, a water vapour transmission rate or permeability is more than 30% higher than that of conventional self-adhesive bands.

8. The compression stocking according to claim 1, wherein the coating is also on an outer surface of the textile support structure.

9. The compression stocking according to claim 1, wherein the self-adhesive band exhibits a compression at 30% elongation of 1.56 hPa/cm.

10. A self-adhesive band of a compression stocking, the compression stocking being configured to be slipped first on a foot and then on a leg portion of a body member to completely surround the leg portion and the foot, consisting of a textile support structure with a tacky coating for securing the band directly to skin of a wearer, the textile support structure comprising an extensible, elastic, aerated, finely knitted or woven textile support structure configured for encircling and providing controlled compression to the body member, and having, at least on an inner surface, said tacky coating configured to be ring shaped when positioned on the body member and consisting of a single, solid, un-interrupted adhesive layer in the form of a film continuously applied and having continuous adhesive properties along a height of the band, the coating comprising a water-repellent pressure sensitive adhesive, and having a tack energy of at least 3.8 N.Math.nm and a tack force of at least 8N, a degree of softness to conform to microreliefs of the skin of the wearer and an elastic modulus at least as low as that of the skin against which the coating is in contact to match the microreliefs and macrodeformations associated with body movement, and the self-adhesive band having a peeling force less than 0.6 N/nm, wherein adhesion of the coating to the skin maintains the compression stocking in place upon the body member without any other attachment means, and the self-adhesive band is removable from the skin without leaving any residue.

11. The self-adhesive band of a compression stocking according to claim 10, exhibiting a compression at 30% elongation of 1.56 hPa/cm.

Description

BRIEF DESCRIPTION OF THE DRAWING FIGURES

(1) The object of the invention is illustrated in the figures of the drawings in which:

(2) FIG. 1 shows a partial view of a self-adhesive band, according to the invention, in its single-face version;

(3) FIG. 2 shows a partial view of the self-adhesive band in its double-face version;

(4) FIG. 3 shows a large scale partial view showing one of the advantages of the invention in the configuration in which the coating closely matches the apparent rough shapes of the substrate, when the latter is the skin of a wearer, for example;

(5) FIG. 4 shows a view of an exemplary embodiment of the self-adhesive band according to the invention in its single face version and applied to a medical splinting and/or compression stocking;

(6) FIG. 5 shows a view of an exemplary embodiment of the self-adhesive band in its double-face version, with a compression and/or splinting device;

(7) FIG. 6 shows an exemplary embodiment of the self-adhesive band in a single-face version, which is placed in a compression and/or splinting device;

(8) FIG. 7 shows an exemplary embodiment of the self-adhesive band in a wrapping configuration.

DETAILED DESCRIPTION

(9) To express the object of the invention more concretely, it is now described in a non-limiting manner illustrated in the figures of the drawings.

(10) The self-adhesive band (B) of the complex comprises a textile structure (1), constituting the support, and prepared in the form of a knitted or woven support having physical properties (elasticity, extensibility, surface condition, roughness, thickness and permeability). This support, according to the intended applications, for example as a compression or posture stocking, is prepared in the form of a lace. This textile structure, as shown in FIGS. 1 and 2 of the drawings, can be made in a single-face or double-face form and includes at least, on its inner face and also, as an alternative, on both its inner and outer faces, a coating (2), having immediate and high tack properties. More particularly, the adhesive layer or layers obtained by the coating have a thickness of about 0.5 mm. The particular properties of this coating are its immediate adhesiveness combined with its softness, called, in professional technical terms, tack, its viscoelasticity, its water vapour transmission rate and its biocompatibility. This coating on the inner and/or outer faces of the textile structure is defined with a degree of softness to conform to and match the microreliefs of the substrate (3) such as the wearer's skin. Furthermore, the elastic modulus of the coating is defined to be at least as low as that of the substrate against which it is in contact to match the microdeformations thereof.

(11) The coating may be a mono- or multi-component coating. According to the invention, it has a high tack and consists of a water-repellent adhesive that is sensitive to pressure. The tack properties, tack energy and force, are measured by a tack probe test and a dynamic mechanical analysis on DMA Q800. This adhesive may be of the polyurethane, silicone, Styrene-Isoprene-Styrene and Styrene-Butadiene-Styrene type. In an advantageous example, the coating employs two silicone compositions developed by Momentive Performance Materials Inc. under reference RTV 833, with the use of a first RTV 833A component, that is a polydimethylsiloxane with vinyl groups and platinum catalyst, and a second RTV 833B, with a mixture of polydimethylsiloxanes, sealants, and crosslinking agent. The softness is measured by pressure. The adhesiveness of the coating is obtained by the grammage of the coating and the proportions and batchings of the components, one or more adhesive resins possibly being added. Silicone and polyurethane are advantageously used because of their high permeability to water vapour.

(12) The coating is preferably made in the form of a film in order to have the most uniform possible distribution on the support. While remaining within the scope of the invention, it may be obtained in a continuous or discontinuous configuration. The self-adhesive band or complex obtained has a low thickness, about 1 mm and a coating thickness of 0.5 mm. The thickness of the coating may vary. The grammage of the coating is lower than 500 g/m.sup.2. Due to the porosity of the textile structure constituting the support in order to facilitate the curing of the coating, the water vapour transmission rate is at least 30% higher than that of conventional self-adhesive bands, essentially due to the choice of the type of support and the reduced thickness of the coating.

(13) The self-adhesive band used according to the invention has been the subject of various comparative tests with previous products of the applicant, and products of third party manufacturers. The basis of comparison and testing is the applicant's prototype F5001 corresponding to the requisite standards for taking measurements.

(14) The table below defines the extensibility of the self-adhesive bands. It may be observed that all the self-adhesive bands currently on the market have 40 to 110% higher compression for 30% elongation compared to the prototype F5001, the reference basis.

(15) TABLE-US-00001 Compres- Lace Lace Flat Lace Dim Compression at Compression at Differential/ Product Manufac- sion Width Dim Stretched 30% 30% elongation 30% elongation SIG TACK/F Name turer ACL Code Size Class (cm) (cm) (cm) (hPa) (hPa/cm) 5001 Mediven Medi 4654052 Small 2 5.4 19.7 25.61 18.21 3.37 116.79 Elegance long Autofix Platinum Mediven Medi 4466617 Small 1 5.4 19.3 25.09 12.07 2.24 43.69 Seduction Court Varisma Innothera 4458925 T1 2 6.6 19.5 25.35 13.02 1.97 55.00 Seduction normal Venactif Gibaud 4592322 1 2 5.5 18.7 24.31 12.1 2.20 44.05 Reflets de teint Venaflex Thuasne 4347611 1N 2 6.7 18.1 23.53 16 2.39 90.48 Secret Voile Cognon 4554959 1M 2 4.8 19.1 24.83 15.14 3.15 80.24 Radiante Morin Velinostim Pierre 4536826 T1 2 6 17.5 22.75 12.79 2.13 52.26 Desse Fabre Normal F 5001 Sigvaris TR 125-1 SN 2 5.4 20.6 26.78 8.4 1.56 0.00 Nelly Sigvaris SL 2 5.2 20.7 26.91 6.83 1.31 18.69 Diaphane Sigvaris 7974314 SN 2 5.6 20.8 27.04 12.36 2.21 47.14

(16) The figures of the drawings show the self-adhesive band in its single-face version (FIG. 1) in contact with the substrate or skin and the double-face version (FIG. 2).

(17) In FIG. 4, the self-adhesive band which is made from a textile structure prepared in lace is prolonged by the medical lower portion (4) or sleeve slipped on a member (5) of the wearer.

(18) In FIG. 5, the self-adhesive band is double-faced and is adapted to a compression/splinting device (6).

(19) In FIG. 6, the self-adhesive band of the invention is adapted to a compression/splinting device (6), while allowing an overlapping border of the latter to appear.

(20) In FIG. 7, the single-face self-adhesive band itself constitutes a bandage wrapped in turns for the partial overlap.

(21) While remaining within the scope of the invention, the coating may incorporate hydrophilic substances in the form of fillers (hydrocolloids, pectin, etc.) or micro-capsules with controlled salting out to provide a supplementary function or treatment (bacteriostatic, bactericidal, anti-inflammatory, cicatrizer, moisturizing, etc.).

(22) The self-adhesive band, according to the invention, offers optimised comfort and behaviour, due to its particular features, while eliminating or reducing all the initial drawbacks identified which generate pain, and irritation to the skin.

(23) The adhesiveness of the coating is sufficient for the self-adhesive band to remain in place without any other means.

(24) The easy removal of the self-adhesive band is painless, without any residue, and is also effective in a situation with high hair distribution. This easy removal is measured by a peeling test at 180 performed on a glass substrate according to standard NF EN 28510-2 after 24 h of maintenance. Although the coating has a high tack, the peeling force is not high. The latter is substantially equivalent to that of a conventional coating, and in any case remains low, <0.6 N/nm.

(25) The self-adhesive band, due to the combination of its features, serves to avoid friction, a source of irritation, while helping to match the microdeformations of the skin associated with its relief and its own extensibility, and the macrodeformations associated with body movements. The absence of residue on removal is due to the cohesion of the coating confirmed during the 180 peeling test. The test probe serves to determine the tack energy and force, which for the coating of the invention, has a tack energy of at least 3.8 N.Math.mm (<3.0 for a conventional coating) and a tack force at least 8N (compared to 4N for a conventional coating). The DMA (dynamic mechanical analysis) serves to determine the moduli G and G correlated with the tack properties. The slopes are significantly higher on the coating of the invention: slope log G>=0.2 (compared to 0.05 for a conventional coating), slope log G>=0.24 (compared to 0.15 for a conventional coating).