Abstract: The present invention describes the use of lactic acid bacteria, particularly lactic acid producing members of the genus Bacillus, in treating digestive-related immune disorders by downregulating of cytokines and by inhibiting pathogenic or deleterious microorganisms in the gastrointestinal tract. Specific formulations of Bacillus coagulans for various immune disorders are elaborated.
Abstract: The invention relates generally to digestive disorders, and in particular to methods for treating irritable bowel syndrome by increasing carbohydrate absorption by administering a composition containing a Bacillus coagulans bacterium.
Abstract: The invention relates generally to digestive disorders, and in particular to methods for treating irritable bowel syndrome by increasing carbohydrate absorption by administering a composition containing a Bacillus coagulans bacterium.
Abstract: Cleaning compositions using the supernatant of lactic acid-producing bacteria are provided. Use of the compositions for disinfection/sanitization of surfaces are also disclosed.
Abstract: The present invention discloses compositions derived from an isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain, suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. The present invention also discloses methods of treatment and therapeutic systems for inhibiting the growth of bacterium, yeast, fungi, virus, and combinations thereof, by topical application of therapeutic compositions which are comprised, in part, of isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain.
Abstract: The invention relates generally to digestive disorders, and in particular to methods for treating irritable bowel syndrome by increasing carbohydrate absorption by administering a composition containing a Bacillus coagulans bacterium.
Abstract: The present invention discloses compositions derived from an isolated Bacillus species spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain, suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. The present invention also discloses methods of treatment and therapeutic systems for inhibiting the growth of bacterium, yeast, fungi, virus, and combinations thereof, by topical application of therapeutic compositions which are comprised, in part, of isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain.
Abstract: The invention relates generally to digestive disorders, and in particular to methods for treating irritable bowel syndrome by increasing carbohydrate absorption by administering a composition containing a Bacillus coagulans bacterium.
Abstract: The present invention discloses compositions derived from an isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain, suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. The present invention also discloses methods of treatment and therapeutic systems for inhibiting the growth of bacterium, yeast, fungi, virus, and combinations thereof, by topical application of therapeutic compositions which are comprised, in part, of isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain.
Abstract: Compositions including an isolated Bacillus species, spores or an extracellular product of B. coagulans, suitable for topical application, for inhibiting growth of yeast, fungus, bacteria or Herpes simplex virus are disclosed. Methods of inhibiting growth of yeast, fungus, bacteria or Herpes simplex virus by topical application of compositions that include an isolated Bacillus species, spores or an extracellular product of a B. coagulans strain are disclosed.
Abstract: Compositions including a non-pathogenic lactic acid-producing bacteria, such as a Bacillus species, spores or an extracellular product of B. coagulans, formulated for oral administration to the intestinal tract for inhibiting bacterial gastrointestinal infections are described. Methods and systems using the compositions for treating gastrointestinal infections, particularly sudden infant death syndrome (SIDS) are also disclosed.
Abstract: An animal-derived lipid is disclosed that is useful as a carrying agent for anti-microbial formulations. Pharmaceutical and other preparations including Emu Oil are also described as profoundly useful components in anti-bacterial, anti-fungal, and anti-viral treatments. This lipid material is extracted from the Emu (Dromais Novae-Hollandiae), an indigenous bird of Australia and New Zealand. Therapeutic compositions comprising Emu Oil in combination with an extracellular product of Bacillus coagulans or Pseudomonas lindbergii strain, comprising a supernatant or filtrate of said culture suitable for topical application to the skin or mucosal membranes of a mammal are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. Additionally, the aforementioned therapeutic composition may also include an anti-microbial, anti-mycotic, and/or anti-viral agent.
Abstract: The invention describes therapeutic compositions including a lactic acid-producing bacteria, such as isolated Bacillus coagulans, in combination with a bifidogenic oligosaccharides or other cholesterol-reducing agents for use in reducing LDL cholesterol and serum triglycerides. Also described are therapeutic methods using the compositions and systems containing the therapeutic compositions.
Abstract: An animal-derived lipid is disclosed that is useful as a carrying agent for anti-microbial formulations. Pharmaceutical and other preparations including Emu Oil are also described as profoundly useful components in anti-bacterial, anti-fungal, and anti-viral treatments. This lipid material is extracted from the Emu (Dromais Novae-Hollandiae), an indigenous bird of Australia and New Zealand. The present invention also discloses therapeutic compositions comprising Emu Oil in combination with an extracellular product of Bacillus coagulans or Pseudomonas lindbergii strain, comprising a supernatant or filtrate of said culture suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. Additionally, the aforementioned therapeutic composition may also include an anti-microbial, anti-mycotic, and/or anti-viral agent.
Abstract: The present invention discloses compositions derived from an isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain, suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. The present invention also discloses methods of treatment and therapeutic systems for inhibiting the growth of bacterium, yeast, fungi, virus, and combinations thereof, by topical application of therapeutic compositions which are comprised, in part, of isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain.
Abstract: The invention describes therapeutic compositions including a lactic acid-producing bacteria, such as isolated Bacillus coagulans, in combination with a bifidogenic oligosaccharides or other cholesterol-reducing agents for use in reducing LDL cholesterol and serum triglycerides. Also described are therapeutic methods using the compositions and systems containing the therapeutic compositions.
Abstract: An animal-derived lipid is disclosed that is useful as a carrying agent for anti-microbial formulations. Pharmaceutical and other preparations including Emu Oil are also described as profoundly useful components in anti-bacterial, anti-fungal, and anti-viral treatments. This lipid material is extracted from the Emu (Dromais Novae-Hollandiae), an indigenous bird of Australia and New Zealand. The present invention also discloses therapeutic compositions comprising Emu Oil in combination with an extracellular product of Bacillus coagulans or Pseudomonas lindbergii strain, comprising a supernatant or filtrate of said culture suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. Additionally, the aforementioned therapeutic composition may also include an anti-microbial, anti-mycotic, and/or anti-viral agent.
Abstract: The present invention discloses compositions derived from an isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain, suitable for topical application to the skin or mucosal membranes of a mammal, which are utilized to inhibit the growth of bacterium, yeast, fungi, virus, and combinations thereof. The present invention also discloses methods of treatment and therapeutic systems for inhibiting the growth of bacterium, yeast, fungi, virus, and combinations thereof, by topical application of therapeutic compositions which are comprised, in part, of isolated Bacillus species, spores, or an extracellular product of Bacillus coagulans comprising a supernatant or filtrate of a culture of said Bacillus coagulans strain.
Abstract: Compositions and methods are provided for inhibiting microbial infections associated with the use of sanitary products, such as diapers, bandages, sanitary napkins, tampons and the like. The invention provides a sanitary product containing an absorbent structure and an effective amount of a viable non-pathogenic lactic-acid bacteria, such as Bacillus coagulans, or an extracellular product thereof, useful for inhibiting growth of parasites and pathogens on the epithelial tissue in contact with the sanitary product during use of the product. Also provided is enhancing biodegradation of sanitary products after use and disposal.