Fibres, a process for producing such fibres and a wound dressing incorporating them

The invention claimed is: 1. A method of preparing multi-component pectin fibres, the method comprising: adding pectin and a sacrificial proteinaceous material to water to form a dope; forcing the dope through a spinneret; crosslinking the dope with a source of ions to form fibres; and drying the fibres, wherein adding pectin and the sacrificial proteinaceous material to water to form the dope comprises: adding the sacrificial proteinaceous material to heated water; mixing the sacrificial proteinaceous material and the heated water while heating the sacrificial proteinaceous material and the heated water to form a mixture; adding pectin to the mixture while heating the mixture to form a homogeneous solution; applying a vacuum to the homogeneous solution to remove excess air; and cooling the homogeneous solution to obtain the dope such that the dope is at room temperature before forcing the dope through the spinneret, and wherein the multi-component pectin fibres comprise: a first fibre component consisting of pectin and gelatin; a second fibre component consisting of gelatin, pectin, and carboxymethyl cellulose fibre; and a third fibre component consisting of gelatin, pectin, and alginate. 2. The method of claim 1 , wherein the sacrificial proteinaceous material is gelatin. 3. A method of preparing multi-component pectin fibres, the method comprising: adding pectin and a sacrificial proteinaceous material to water to form a dope; and forcing the dope through a spinneret while inducing a voltage between the spinneret and a collector plate in a temperature controlled environment, wherein adding pectin and the sacrificial proteinaceous material to water to form the dope comprises: adding the sacrificial proteinaceous material to heated water; agitating the sacrificial proteinaceous material and the heated water using a mixer to form a mixture in which the sacrificial proteinaceous material is fully dissolved; adding pectin to the mixture to form a solution; agitating the solution until the pectin is fully dissolved; and cooling the solution to obtain the dope such that the dope is at room temperature before forcing the dope through the spinneret, and wherein the multi-component pectin fibres comprise: a first fibre component consisting of pectin and gelatin; a second fibre component consisting of gelatin, pectin, and carboxymethyl cellulose fibre; and a third fibre component consisting of gelatin, pectin, and alginate. 4. The method of claim 1 , wherein forcing the dope through the spinneret comprises: passing the dope through a first filter; filtering the dope passed through the first filter using a second filter mounted in the spinneret; and processing the dope filtered by the second filter using the spinneret. 5. The method of claim 4 , wherein crosslinking the dope with the source of ions to form fibres comprises: crosslinking the dope with a source of calcium ions during a first spinning operation performed in the spinneret; crosslinking the dope with a source of zinc ions during a second spinning operation performed in the spinneret subsequent to the first spinning operation to form fibres. 6. The method of claim 5 , further comprising: washing the fibres in water in a first wash bath; washing the fibres in a second wash bath containing a water miscible solvent in a first concentration subsequent to washing the fibres in the first wash bath; washing the fibres in a third wash bath containing a water miscible solvent in a second concentration higher than the first concentration subsequent to washing the fibres in the second wash bath; washing the fibres in a fourth wash bath containing a water miscible solvent in a third concentration higher than second concentration subsequent to washing the fibres in the third wash bash; and washing the fibres in a final wash bath containing a water miscible solvent in a fourth concentration higher than the third concentration subsequent to washing the fibres in the fourth wash bath. 7. The method of claim 1 , wherein the fibres comprise: from 10% to 100% by weight of the fibres of pectin and the sacrificial proteinaceous material in a weight ratio of 90:10 to 10:90 pectin to sacrificial proteinaceous material; from 0% to 90% by weight of the fibres of another polysaccharide or a water soluble polymer; and a divalent ion, wherein the pectin and the sacrificial proteinaceous material are crosslinked with the divalent ion to form the fibres suitable for processing into wound dressings capable of absorbing wound exudate. 8. The method of claim 7 , wherein: the pectin is low methoxy pectin with a methoxyl content lower than 15% or amidated pectin with a degree of esterification in a range from 10% to 30% and a degree of amidation in a range from 10% to 30%; and the sacrificial proteinaceous material is selected from gelatin, collagen, whey, soy, casein, or albumin. 9. The method of claim 7 , wherein the fibres comprise from greater than 0% to 90% by weight of carboxymethyl cellulose fibre. 10. The method of claim 3 , wherein the fibres comprise: from 10% to 100% by weight of the fibres of pectin and the sacrificial proteinaceous material in a weight ratio of 90:10 to 10:90 pectin to sacrificial proteinaceous material; from 0% to 90% by weight of the fibres of another polysaccharide or a water soluble polymer; and a divalent ion, wherein the pectin and the sacrificial proteinaceous material are crosslinked with the divalent ion to form the fibres suitable for processing into wound dressings capable of absorbing wound exudate. 11. The method of claim 3 , wherein forcing the dope through the spinneret while inducing the voltage between the spinneret and the collector plate in the temperature controlled environment comprises electrospinning the dope using a high voltage power supply configured to supply a voltage of up to 30 kV, a syringe pump, and the collector plate to obtain the multi-component pectin fibres. 12. The method of claim 11 , wherein: a collector distance between the collector plate and a needle fitted to a syringe mounted in the syringe pump is at least 10 cm. 13. A method of preparing multi-component pectin fibres, the method comprising: preparing a first fibre component solution comprising pectin and a sacrificial proteinaceous material; preparing a second fibre component solution comprising pectin, the sacrificial proteinaceous material, and carboxymethyl cellulose fibre; preparing a third fibre component solution comprising pectin, the sacrificial proteinaceous material, and alginate; mixing the first fibre component solution, the second fibre component solution, and the third fibre component solution to form a dope; forcing the dope through a spinneret; and crosslinking the dope with a source of divalent ions to form fibres, wherein the multi-component pectin fibres comprise: a first fibre component consisting of pectin and gelatin; a second fibre component consisting of gelatin, pectin, and carboxymethyl cellulose fibre; and a third fibre component consisting of gelatin, pectin, and alginate. 14. The method of claim 13 , wherein preparing the first fibre component solution comprises: adding the sacrificial proteinaceous material to heated water; mixing the sacrificial proteinaceous material and the heated water to form a mixture; and adding pectin to the mixture. 15. The method of claim 14 , wherein preparing the second fibre component solution comprises: adding the sacrificial proteinaceous material to heated water; mixing the sacrificial proteinaceous material and