Abstract: This invention elates to polysaccharide materials and more particularly to microbial-derived cellulose having the porosity and containing pores of the desired size making it suitable for cellular infiltration during implantation and other desirable properties for medical and surgical applications. The invention also relates to the use of porous microbial-derived cellulose as tissue engineering matrices, human tissue substitutes, and reinforcing scaffolds for regenerating injured tissues and augmenting surgical procedures The invention outlines various methods during and after fermentation to create porous microbial cellulose capable of allowing cell infiltration while preserving the physical properties of the microbial-cellulose.

Abstract: This invention relates to polysaccharide materials and more particularly to microbial-derived cellulose having the porosity and containing pores of the desired size making it suitable for cellular infiltration during implantation and other desirable properties for medical and surgical applications. The invention also relates to the use of porous microbial-derived cellulose as tissue engineering matrices, human tissue substitutes, and reinforcing scaffolds for regenerating injured tissues and augmenting surgical procedures. The invention outlines various methods during and after fermentation to create porous microbial cellulose capable of allowing cell infiltration while preserving the physical properties of the microbial-cellulose.

Abstract: Provided in one embodiment is an implantable support material for culturing cells, wherein at least some of the cells substantially maintain at least one of (i) phenotype and (ii) genotype thereof after being cultured on the support material.

Abstract: A method for minimizing tissue adhesion at an injured site is provided, the method comprising applying a biocellulose material to the injured site, whereby the adhesion of the tissues at the injured site is minimized, wherein the biocellulose material is at least partially dehydrated. Another embodiment provides an implantable material, which effectively prevents cell adhesion and has desirable mechanical properties.

Abstract: Provided in one embodiment is an implantable support material for culturing cells, wherein at least some of the cells substantially maintain at least one of (i) phenotype and (ii) genotype thereof after being cultured on the support material.

Abstract: This invention relates to polysaccharide materials and more particularly to microbial-derived cellulose having the porosity and containing pores of the desired size making it suitable for cellular infiltration during implantation and other desirable properties for medical and surgical applications. The invention also relates to the use of porous microbial-derived cellulose as tissue engineering matrices, human tissue substitutes, and reinforcing scaffolds for regenerating injured tissues and augmenting surgical procedures. The invention outlines various methods during and after fermentation to create porous microbial cellulose capable of allowing cell infiltration while preserving the physical properties of the microbial-cellulose.

Abstract: A method for minimizing tissue adhesion at an injured site is provided, the method comprising applying a biocellulose material to the injured site, whereby the adhesion of the tissues at the injured site is minimized, wherein the biocellulose material is at least partially dehydrated. Another embodiment provides an implantable material, which effectively prevents cell adhesion and has desirable mechanical properties.

Abstract: The invention relates to a wound dressing comprising a microbial-derived cellulose for treatment of specific types of chronic wounds, including pressure sores, venous and diabetic ulcers. The wound dressing is capable of donating liquid to dry substrates is also capable of absorbing exudating wounds.

Abstract: This application describes a bioresorbable biocellulose suitable for medical and surgical applications. In particular, the invention describes periodate oxidized microbial cellulose that can be produced to have any mechanical and degradation profile, depending on the desired application of the oxidized cellulose.

Abstract: The invention relates to a wound dressing comprising a microbial-derived cellulose for treatment of specific types of chronic wounds, including pressure sores, venous and diabetic ulcers. The wound dressing is capable of donating liquid to dry substances is also capable of absorbing exudating wounds.

Abstract: This invention relates to a process for preparing bioabsorbable oxidized cellulose comprising combining cellulose material, with nitrogen dioxide and a nonaqueous solvent chosen from the class of perfluorinated tertiary amines. This invention also relates to a method of oxidizing cellulose material comprising introducing a solvent into the vessel, circulating the solvent through the cellulose material, adding nitrogen dioxide to said vessel containing the solvent and cellulose in the required amounts, circulating the solution for 7 to 24 hours while controlling the reaction temperature, and isolating the oxidized material. Preferably, isolation of the oxidized product is followed by first washing the oxidized cellulose material with cold water, then washing the oxidized cellulose material with an aqueous alcohol solution several times, then washing the material with 100% alcohol several times, and finally drying the oxidized material.

Abstract: The invention relates to dura substitutes to be used as prostheses for dural defects in the field of neurosurgery and processes for producing the same. The present invention provides artificial dura mater materials comprising sheets of microbial-derived polysaccharide processed to have the necessary strength characteristics, conformability and physical properties.

Abstract: The invention relates to dura substitutes to be used as prostheses for dural defects in the field of neurosurgery and processes for producing the same. The present invention provides artificial dura mater materials comprising sheets of microbial-derived polysaccharide processed to have the necessary strength characteristics, conformability and physical properties.

Abstract: The invention relates to a wound dressing comprising a microbial-derived cellulose for treatment of specific types of chronic wounds, including pressure sores, venous and diabetic ulcers. The wound dressing is capable of donating liquid to dry substrates is also capable of absorbing exudating wounds.

Abstract: The invention relates to dura substitutes to be used as prostheses for dural defects in the field of neurosurgery and processes for producing the same. The present invention provides artificial dura mater materials comprising sheets of microbial-derived polysaccharide processed to have the necessary strength characteristics, conformability and physical properties.

Abstract: This invention relates to polysaccharide materials and more particularly to microbial cellulose containing materials having suitable implantation properties for repair or replacement of hard tissue. The invention also relates to the use of the implantable microbial cellulose as a bone void filler and as a carrier vehicle for active agent delivery for repair or regeneration of hard tissue.

Abstract: This application describes a bioresorbable biocellulose suitable for medical and surgical applications. In particular, the invention describes periodate oxidized microbial cellulose that can be produced to have any mechanical and degradation profile, depending on the desired application of the oxidized cellulose.

Abstract: This invention relates to polysaccharide materials and more particularly to microbial cellulose having suitable implantation properties for repair or replacement of soft tissue. The invention also relates to the use of the implantable microbial cellulose as scaffolds for tendon and ligament repair, tissue closure reinforcement, buttresses for reinforcement of the soft tissue, adhesion barriers, articular cartilage repair, pericardial patches, bone graft substitutes, and as carrier vehicles for drug or other active agent delivery for repair or regeneration of tissue.

Abstract: This invention relates to a process for preparing bioabsorbable oxidized cellulose comprising combining cellulose material, with nitrogen dioxide and a nonaqueous solvent chosen from the class of perfluorinated tertiary amines. This invention also relates to a method of oxidizing cellulose material comprising introducing a solvent into the vessel, circulating the solvent through the cellulose material, adding nitrogen dioxide to said vessel containing the solvent and cellulose in the required amounts, circulating the solution for 7 to 24 hours while controlling the reaction temperature, and isolating the oxidized material. Preferably, isolation of the oxidized product is followed by first washing the oxidized cellulose material with cold water, then washing the oxidized cellulose material with an aqueous alcohol solution several times, then washing the material with 100% alcohol several times, and finally drying the oxidized material.

Abstract: A method for transdermally delivering a biologically active agent to a subject in need thereof, comprising topically applying a composition comprising insoluble microbial cellulose, water, and a therapeutically effective amount of the biologically active agent, wherein the biologically active agent penetrates through the subject's stratum corneum at a substantially constant rate.