Filter for the exchange of heat and moisture for application in the medical field and procedure for the production thereof

The invention claimed is: 1. Process for preparing a material useful for the production of Heat and Moisture Exchange (HME) filters, which comprises the following steps: a) preparing an acidic aqueous solution of chitosan in a concentration from 1 to 2.5% by weight; b) preparing an aqueous solution of a gelatin of animal origin in a concentration from 2.5 to 5% by weight, operating at a temperature between 40 and 50° C.; c) mixing the two solutions from steps a) and b) in such quantities as to obtain a mixture having a weight ratio of gelatin:chitosan from 80:20 to 50:50, gently stirring the mixture to avoid the formation of a foam until obtaining a homogeneous solution, and subsequently diluting the homogeneous solution to obtain a polymer solution having a total polymer concentration of from 2 to 4% by weight; d) pouring the polymer solution prepared in step c) into a container with the bottom made of a material having thermal conductivity greater than or equal to 15 W/(m·K) and side walls made of a material having thermal conductivity less than or equal to 1 W/(m·K); e) freeze-drying, inside said container, the polymer solution obtained in step c) according to the following phases: freezing the polymer solution to a temperature of from −20 to −60° C. by placing the bottom of the container in contact with a refrigerating system; primary drying by heating with a rate between 2 and 8° C./h up to a temperature between −5 and −10° C., operating at a pressure between 0.001 mbar and atmospheric pressure and; secondary drying by heating with a rate between 1 and 5° C./h up to a temperature between 15 and 20° C., operating at a pressure between 0.001 mbar and atmospheric pressure; and f) a crosslinking treatment consisting of a step of subjecting the freeze-dried product obtained in step e) to a thermal dehydration. 2. The process according to claim 1 , wherein the container has the bottom made with steel, copper or silicon, and the walls made with a plastic, teflon or glass. 3. The process according to claim 1 , wherein step f) is carried out with a heat treatment which consists in subjecting the freeze-dried product obtained in step e) to a temperature from 140 to 160° C. at a pressure between 0.001 mbar and the atmospheric pressure and for a duration between 24 and 48 h. 4. The process according to claim 1 , wherein, prior to the pouring of the polymer solution in step d) to serve as a surrounding polymeric material, the same container is introduced a paramagnetic core comprising a hydroxyapatite in which an amount of between 2 and 40 atomic % of calcium is replaced by iron present in both oxidation states (II) and (III), produced by a process which comprises the following steps: g) preparing an aqueous solution containing a precursor of calcium, at least one soluble salt of iron (II) and at least one soluble salt of iron (III); h) preparing an aqueous solution containing a water soluble compound of phosphorus; i) preparing an aqueous solution containing a precursor of one or more hydrophilic polymers; j) slowly adding the phosphorus compound solution to the solution containing the precursor of calcium and the iron salts, obtaining a suspension; k) optionally, immediately adding the solution obtained in step i) to the suspension obtained in step j); l) If step k) has been carried out, allowing the suspension to react at a temperature between ambient T and 70° C. for a time between 1 and 5 hours; k′) in case steps k) and l) have not been carried out, allowing the system obtained in step j) to react at a temperature between ambient T and 70° C. for a time between 1 and 24 hours; and l′) if step k′) has been carried out, mixing the suspension obtained with the aqueous solution obtained in step i); m) subjecting to a freeze-drying treatment of the solution/suspension product obtained in step l) or in step l′); n) immersing the freeze-dried product from step m) in a CaCl 2 solution at a concentration between 0.5 and 1.5 M for a period between 15 and 45 minutes, followed by washing with immersion in distilled water; and o) again subjecting to freeze-drying treatment the material of the CaCl 2 -treated product from step n). 5. The process according to claim 4 , wherein sodium alginate is used as hydrophilic polymer. 6. The process according to claim 4 , wherein the weight ratio between the paramagnetic core and the surrounding polymeric material is between 40:60 and 80:20. 7. The process according to claim 1 , wherein, at the end of the process, between 3 and 5 mm of the upper face and of the lower face of the obtained product are mechanically removed. 8. The process according to claim 4 , wherein the water soluble compound of phosphorus employed in step h) is phosphoric acid.