CZ36586U1 - Regenerative agent based on chitosan - Google Patents

Description

Regenerative agent based on chitosan

Field of technology

The technical solution relates to a chitosan-based regenerative agent for cosmetic or dermatological purposes, which contains a non-woven fabric as a supporting substrate and at least one nanofibrous layer containing chitosan or, preferably, a combination of chitosan and gelatin. This product is suitable for skin care, especially facial skin. Its use is mainly in the field of daily skin care or for medical procedures associated with skin treatment.

Current state of the art

The commercial offer of cosmetic companies includes a wide range of care products. From creams and gels, serums, disposable sheet masks infused with gels or liquids.

The development of new materials and products is motivated by increasing consumption (day cream, night cream, serum for the eye area) and increasing consumer demands for the effect achieved, for example regeneration, skin hydration, skin revitalization and anti-aging effect, UV factor.

The technology for the production of nanofibers makes it possible to process a relatively wide range of polymers, which can be or are suitable for applying to the skin for the purpose of its regeneration, hydration or nutrition. Furthermore, it also enables the incorporation of active substances and, if necessary, controls their release. US 2016/0038611 describes a nanofibrous composition with bioactive components, which are mainly plant extracts (grape seeds, kiwi, broccoli, olive leaves, etc.) or natural products (honey, propolis, etc.). US 2010/0018641 describes a method of manufacturing a composite non-woven network for the delivery of substances that have a positive effect on the skin.

An example of the use of a nanofibrous structure for cosmetic purposes can be US 20100018641 describing a nanomask made of a hydrophilic polymer spun together with substances affecting the vitality of the skin. Another example of a nanomask is the document WO 2009/133059. It describes the preparation of a nanomask from a branched polymer containing an active substance.

Nanofiber production technology enables the production of nanofiber structures also from biopolymers that are used for therapeutic purposes, for example for wound care (chitosan, polycaprolactone), because they actively contribute to wound healing (CZ 307059) or used in tissue engineering based on polylactide or polyvinyl alcohol (CZ 308118).

Furthermore, chitosan is used for the production of materials for covering wounds and for the production of plasters and wound coverings. ChitoFib Patch is a registered Class I medical device.

The essence of the technical solution

With regard to the therapeutic use of the chitosan polymer in the nanofibrous layer produced by the electrospinning method, the use of this layer also appears advantageous for skin regeneration after cosmetic skin treatment, after tanning or during normal daily skin care.

The essence of the chitosan-based regenerative agent according to the technical solution is that it includes at least two layers, with at least one layer being a supporting substrate for at least one nanofiber layer that includes nanofibers containing chitosan. Advantageously, the supporting substrate is a non-woven viscose fabric with an area weight of 20 to 50 g/m ² . The nanofibrous layer preferably includes nanofibers containing 92% by weight. up to 94 wt.% chitosan and 6 wt.% up to 8 wt.% polyethylene oxide. The weight average molecular weight (Mw) of chitosan is

- 1 CZ 36586 U1 in the range of 1 x 10 ⁴ to 2 x 10 ⁴ g/mol, preferably 1.5 x 10 ⁴ g/mol. The weight average molecular weight (Mw) of polyethylene oxide is in the range of 3 x 10 ⁵ to 5 x 10 ⁵ g/mol, preferably 4 x 10 ⁵ g/mol. The nanofibrous layer is made from a solution of chitosan and polyethylene oxide using the electrostatic spinning method on a Nanospider NS8S1600U machine. The surface weight of the nanofibrous layer is in the range of 0.5 to 5.0 g/m ² according to the desired cosmetic or dermatological effect.

According to another technical embodiment of the regenerative agent according to the technical solution, the nanofibrous layer includes nanofibers that further contain gelatin. Advantageously, the regenerative agent according to the technical solution includes a layer of the supporting substrate in the form of a non-woven fabric made of viscose with an area weight of 20 to 50 g/m ² and a nanofiber layer that includes nanofibers containing 60 wt.%. up to 65 wt.% chitosan, 27 wt.% up to 34 wt.% gelatin and 6 wt.% up to 8 wt.% polyethylene oxide. The use of gelatin is advantageous due to the increased hydration of the skin. The nanofibrous layer is made from a solution of chitosan, gelatin and polyethylene oxide using the electrostatic spinning method on a Nanospider NS8S1600U machine. The surface weight of the nanofibrous layer is in the range of 0.5 to 5.0 g/m ² according to the desired therapeutic or dermatological effect.

For reasons of protection of the nanofibrous layer from mechanical damage during the cutting of individual pieces of cosmetic products, their subsequent packaging and handling of the product before the actual application, a covering layer of non-woven fabric (100% viscose with a basis weight of 20 up to 50 g/m2). The cohesion of the cover layer with the nanofibrous layer is ensured by mechanically compressing the layers under air pressure. Therefore, the regenerative agent according to the technical solution preferably includes three layers: a carrier substrate, a nanofibrous layer and a covering layer, with the nanofibrous layer lying between the supporting substrate and the covering layer.

The diameter of the nanofibers contained in the composition according to the technical solution is in the range of 120 to 680 nm, preferably 120 to 400 nm.

After cutting, the product including the cover layer is packed in sales packaging, the cover layer is removed by the consumer before application according to the instructions for use.

One of the significant advantages of this technical solution is its material composition. All materials used are fully biodegradable, the products used can be 100% compostable.

The regenerative agent according to this technical design can also be used in combination with ordinary cosmetic products - creams, gels, serums, fluids, which are applied to cleansed skin. The effectiveness of the regenerative agent according to the existing technical solution is increased due to the nanostructure.

Clarification of drawings

Figure 1: Nanofibrous layer produced according to Example 1.

Figure 2: Nanofibrous layer produced according to Example 2.

Examples of implementing a technical solution

Example 1

On a 100% viscose non-woven fabric with an area weight of 30 g/m ² , in a winding width of 160 cm, a nanofibrous layer is applied from a solution with the composition: chitosan - 7.75% by Mw ±1.5 x 10 ⁴ g/mol, acid

- 2 CZ 36586 U1 acetic - 42.70%, demi water - 27.05%, 3% PEO solution with Mw ±4 x 10 ⁵ g/mol in demi water - 22.5%. The nanofibrous layer has an area weight of 2 g/m ² and contains fibers with diameters of 120 to 680 nm. 95% of fibers range in diameter from 120 to 400 nm. (see Figure 1).

The production of the nanofibrous layer from the solution takes place on the NanospiderTM NS8S1600U industrial machine. The line is equipped with a textile rewinding system. The non-woven fabric is passed through a spinning chamber and a nanofibrous layer from a defined polymer solution is applied to its surface by the process of electrostatic spinning. The surface weight of the deposited layer is controlled by the feed rate. At a speed of 0.47 m/min, the device produces a layer with an area weight of 2 g/m ² . The optimal humidity and temperature conditions in the chamber are 35% humidity and 22°C temperature. A feed speed of 1.5 m/min ensures the production of a layer with a surface weight of 0.5 gsm, a speed of 0.2 m/min enables the production of a layer of 5 g/m ² .

The resulting amount of chitosan in the fibers of the nanofibrous layer is 94% by weight. and PEO 6 wt.%

Before cutting out the cosmetic products, a 100% viscose non-woven fabric with an area weight of 20 g/m ² is loosely attached to the nanofiber layer. Adhesion of this non-woven fabric to the nanofibrous layer is ensured by the pressure and vacuum of the air on the textile cutting machine.

Example 2

On a non-woven 100% viscose fabric with an area weight of 30 g/m ² , in a winding width of 160 cm, a nanofibrous layer is applied from a solution with the following composition: chitosan - 5.2% by Mw ± 1.5 x 10 ⁴ g/mol, gelatin 2 .55%, acetic acid - 42.70%, demi water - 27.05%, 3% PEO solution with Mw ±4 x 10 ⁵ g/mol in demi water - 22.5%. The nanofibrous layer has an area weight of 2 g/m ² and contains fibers with diameters of 120 to 680 nm. 95% of fibers range in diameter from 120 to 400 nm. (see Figure 2).

The production of the nanofibrous layer from the solution takes place on the NanospiderTM NS8S1600U industrial machine. The line is equipped with a textile rewinding system. The non-woven fabric is passed through a spinning chamber and a nano layer of a defined polymer solution is applied to its surface by the electrospinning process. The surface weight of the deposited layer is controlled by the feed rate. At a speed of 0.53 m/min, the device produces a layer with an area weight of 2 g/m ² . The optimal humidity and temperature conditions in the chamber are 32% humidity and 22°C temperature.

The resulting amount of chitosan in the fibers of the nanofibrous layer is 63% by weight, 31% by weight gelatin and PEO 6 wt.%

A speed of 1.6 m/min ensures the production of a layer with a surface weight of 0.5 gsm, a speed of 0.22 m/min enables the production of a layer of 5 g/m ² .

In both cases, it is essential to ensure the drying of the nanofiber layer in the drying chamber located behind the spinning unit. The drying temperature of at least 70 °C ensures the evaporation of the residual solvent - acetic acid and also improves the adhesion of the nanofibrous layer to the substrate.

Claims (10)

1. A chitosan-based regenerative agent, characterized in that it includes at least two layers, wherein at least one layer is a supporting substrate for at least one nanofibrous layer, which includes nanofibers containing chitosan. 2. Regenerative agent according to claim 1, characterized in that the carrier substrate is a non-woven viscose fabric with an area weight of 20 to 50 g/m ² . 3. Regenerative agent according to claim 1 or claim 2, characterized in that the nanofibrous layer includes nanofibers containing 92 wt.%. up to 94 wt.% chitosan and 6 wt.% up to 8 wt.% polyethylene oxide. 4. Regenerative agent according to any one of claims 1 to 3, characterized in that the surface weight of the nanofibrous layer is in the range of 0.5 to 5.0 g/m ² . 5. Regenerative agent according to claim 1, characterized in that the nanofibers contained in the nanofiber layer further contain gelatin. 6. Regenerative agent according to claim 5, characterized in that the nanofibrous layer includes nanofibers containing 60% by weight. up to 65 wt.% chitosan, 27 wt.% up to 34 wt.% gelatin and 6 wt.% up to 8 wt.% polyethylene oxide. 7. Regenerative agent according to claim 6, characterized in that the surface weight of the nanofibrous layer is in the range of 0.5 to 5.0 g/m ² . 8. Regenerative agent according to any one of claims 1 to 7, characterized in that it further comprises a covering layer which rests on the nanofibrous layer. 9. Regenerative agent according to claim 8, characterized in that the covering layer is a non-woven fabric made of viscose with an area weight of 20 to 50 g/m ² . 10. Regenerative agent according to any one of claims 1 to 9, characterized in that the diameter of the nanofibers is in the range of 120 to 680 nm, preferably 120 to 400 nm. 2 drawings