Particle-containing foam structure

The invention claimed is: 1. A hydrophilic polyurethane foam structure having a pore size between 30 and 1000 μm, wherein the structure contains dispersed inert activated carbon particles, and wherein the structure is obtained by a method comprising the steps of a) providing a water phase containing a surfactant; b) providing an isocyanate-terminated polyether having functionality of more than 2; c) mixing the water phase and the isocyanate-terminated polyether, immediately transferring the resulting mixture to a mould or a continuous web, whereby a foam structure is obtained; and d) drying the foam structure until it has a moisture content of at most 10% (wt); wherein the water phase in step a) also contains dispersed inert activated carbon particles, wherein the inert activated carbon particles improve the maximum water absorption of the foam structure. 2. A wound dressing comprising the foam structure of claim 1 . 3. An article comprising a wound dressing comprising a hydrophilic polyurethane foam structure having a pore size between 30 and 1000 μm, wherein the structure contains dispersed inert activated carbon particles, wherein the inert activated carbon particles improve the maximum water absorption of the foam structure. 4. The article of claim 3 , wherein the inert activated carbon particles improve the water retention capacity of the foam structure. 5. The foam structure of claim 1 , wherein the inert activated carbon particles improve the water retention capacity of the foam structure. 6. The wound dressing of claim 2 , wherein the inert activated carbon particles improve the water retention capacity of the foam structure. 7. The article of claim 3 , wherein the wound dressing further comprises a cross-linked silicone gel. 8. A method of preventing wound fluid from running over skin surrounding a wound, comprising applying the article of claim 7 over a wound and to skin surrounding the wound, wherein the cross-linked silicone gel adheres to the skin surrounding the wound, thereby preventing wound fluid from running over the skin surrounding the wound. 9. A method of using the article of claim 3 , comprising applying the article of claim 3 over a wound and to skin surrounding the wound. 10. The article of claim 3 , wherein the gram per gram water absorption capacity of the hydrophilic polyurethane foam structure is from 18% to 41% higher than a hydrophilic polyurethane foam structure without the dispersed inert activated carbon particles when the hydrophilic polyurethane foam structure comprises 1% wt of inert activated carbon particles.