Abstract: Disclosed herein are methods of treating fungal infections in a patient, comprising identifying a patient in need of treatment and administering a therapeutically effective amount of at least one cationic steroid antimicrobial (CSA), or a pharmaceutically acceptable salt thereof. Kits comprising such compositions and instructions on such methods are also contemplated herein.

Abstract: Disclosed herein are methods of promoting osteogenesis in a subject, comprising administering a composition comprising a therapeutically effective amount of at least one cationic steroid antimicrobial (CSA). Also disclosed herein are methods of promoting osteogenesis in a subject in need of such promotion, comprising administering a composition comprising a therapeutically effective amount of at least one CSA. Additionally, disclosed herein are compounds and compositions comprising at least one CSA, or a pharmaceutically acceptable salt thereof, for use in the treatment of bone disease or the treatment of broken bones. Kits comprising such compositions and instructions on such methods are also contemplated herein.

Abstract: Methods for cleaning or disinfecting water delivery systems, self-cleaning or self-disinfecting water delivery systems, and inserts for use in cleaning or disinfecting water delivery systems utilize cationic steroidal antimicrobial (CSA) molecules to kill microbes and/or break up biofilms within water delivery systems. The methods and systems involve adding CSA molecules to water to form an aqueous CSA composition and passing the aqueous CSA composition through the water delivery system, such as a water storage vessel and/or water delivery line to clean or disinfect the water delivery system. CSA molecules can be added to a water storage vessel, water delivery line, or well, such as by a solid or liquid CSA composition. A CSA-eluting composition may provide CSA molecules to water to form an aqueous CSA composition that passes through or is stored within the water delivery system. CSA molecules provided to agricultural animals in drinking water may improve animal health.

Abstract: Disclosed are methods for increasing the rate of healing of a tissue wound by administering a composition including a therapeutically effective amount of at least one cationic steroid antimicrobial (CSA). Also disclosed herein are methods of promoting wound healing in a subject in need of such promotion, comprising administering a composition comprising a therapeutically effective amount of at least one CSA. Additionally, disclosed herein are compounds and compositions comprising at least one CSA, or a pharmaceutically acceptable salt thereof, for use in the treatment of a tissue wound. Kits comprising such compositions and instructions on such methods are also contemplated herein.

Abstract: Disclosed herein are methods of promoting osteogenesis in a subject, comprising administering a composition comprising a therapeutically effective amount of at least one cationic steroid antimicrobial (CSA). Also disclosed herein are methods of promoting osteogenesis in a subject in need of such promotion, comprising administering a composition comprising a therapeutically effective amount of at least one CSA. Additionally, disclosed herein are compounds and compositions comprising at least one CSA, or a pharmaceutically acceptable salt thereof, for use in the treatment of bone disease or the treatment of broken bones. Kits comprising such compositions and instructions on such methods are also contemplated herein.

Abstract: Cationic steroidal antimicrobials (“CSAs” or “ceragenins”) and methods of making and using the same. Particularly advantageous uses include treating infections in patient and sub-patient populations, especially those having a bone disease, a broken bone, a bone infection, or a bone implant.

Abstract: Compositions and methods for preparing stabilized CSA compositions having reduced agglomeration and increased stability. The compositions have increased efficacy in killing microbes and reduced cytotoxicity to mammals. The compositions include a liquid carrier, micelles formed from an amphiphilic material, and CSA molecules encapsulated by the micelles. The CSA compositions can be formed by blending together a solvent or liquid carrier, a plurality of CSA molecules, and a micelle-forming agent and causing or allowing the micelle-forming agent to form micelles encapsulating at least a portion of the CSA molecules so that no more than 25% of the CSA molecules form agglomerates larger than 1 ?m in size. The CSA compositions can be used to treat mammals, such as mammals suffering from microbial diseases or infections.

Abstract: Increasing fertility in a mammal utilizes cationic steroidal antimicrobial (CSA) compounds and CSA-containing compositions. Such treatment in a mammal includes administering a formulation (e.g., lavage and/or infusion) including at least one CSA compound, or pharmaceutically acceptable salt thereof, to the reproductive structure(s) of the mammal (e.g., horse, dairy cow, human, etc.). The formulation may be applied topically as lavage and/or infusion to desired reproductive structures, such as the vagina, cervix, uterus, penis, or combinations thereof. The formulation may kill both planktonic and biofilm forms of sperm killing microbes, and may at least partially break up a microbial plaque or film located within any of the reproductive structures (e.g., the uterus).

Abstract: Disclosed herein are cationic steroidal antimicrobials (“CSAs” or “ceragenins”) and methods of making the same. Particularly advantageous methods are identified for the synthesis of CSAs. CSAs may be formulated for treating subjects with ailments responsive to CSAs, including but not limited to treating bacterial infections. Accordingly, some embodiments include formulations and methods of administering CSAs.

Abstract: Disclosed herein are cationic steroidal antimicrobials (“CSA compounds” or “ceragenins”) and methods of making the same. Particularly advantageous methods are identified for the synthesis of CSA compounds. CSA compounds may be formulated for treating subjects with ailments responsive to CSA compounds, including but not limited to treating bacterial infections. Accordingly, some embodiments include formulations and methods of administering CSA compounds.

Abstract: This invention relates to galactosylceramide compounds.

Abstract: A hydrophobic cationic steroidal anti-microbial (ceragenin) compound forms an amphiphilic compound having a hydrophobic sterol face and a hydrophilic cationic face. The hydrophobic CSA also includes a hydrophobic substituent that gives the ceragenin compound a C Log P value of at least 6.0, 6.25, 6.5, 7.5, 8.5, or 10.

Abstract: Methods of treating, reducing, or preventing lung infections or lung inflammation include identifying a patient in need of treatment and administering a therapeutically effective amount of at least one cationic steroid antimicrobial (CSA), or a pharmaceutically acceptable salt thereof. Treatment of cystic fibrosis lung infections, COPD lung infections, inflammation of the lungs in these patient populations, and lung scarring in these patient populations is also described.

Abstract: Particulate ceragenin materials may be manufactured by (i) providing a ceragenin feed material comprised of ceragenin molecules, each having a sterol backbone and a plurality cationic groups attached thereto; (ii) fracturing the ceragenin feed material in a milling apparatus to produce a ceragenin particulate material having a particle size distribution with a median particle size in a range from 5 nm to 20 ?m; and (iii) during fracturing, maintaining the ceragenin feed with a moisture content of less than or equal to 10% by weight.

Abstract: A hydrophobic cationic steroidal anti-microbial (ceragenin) compound forms an amphiphilic compound having a hydrophobic sterol face and a hydrophilic cationic face. The hydrophobic CSA also includes a hydrophobic substituent that gives the ceragenin compound a CLogP value of at least 6.5.

Abstract: A medical device that includes a coating of a composite material that includes a polymeric material having a void structure and particulate ceragenin material (i.e., ceragenin particles) associated with the void structure. The average particle size of the ceragenin particles in the composite is in a range from 5 nm to 20 ?m, 50 nm to 10 ?m, 100 nm to 5 ?m, or 1 ?m to 10 ?m. The composite has a high loading of ceragenin particles (e.g., about 10% to about 25%, by weight). The composite has good polymer stability, the ability to release ceragenins from the ceragenin particles disposed in the composite over a sustained period of time at a characteristic elution rate, and the ability to kill large numbers of bacteria and other susceptible microbes over the sustained period of time.

Abstract: Compositions comprising NKT cell agonist compounds and a physiologically acceptable vehicle are provided. Methods of stimulating an NKT cell and enhancing an immune response are also disclosed. Further provided are vaccine preparations comprising NKT cell agonist compounds.

Abstract: A composite that includes a polymeric material having a void structure and particulate ceragenin material (i.e., ceragenin particles) associated with the void structure. The average particle size of the ceragenin particles in the composite is in a range from 5 nm to 20 ?m, 50 nm to 10 ?m, 100 nm to 5 ?m, or 1 ?m to 10 ?m. The composite has a high loading of ceragenin particles (e.g., about 10% to about 25%, by weight). The composite has good polymer stability, the ability to release ceragenins from the ceragenin particles disposed in the composite over a sustained period of time at a characteristic elution rate, and the ability to kill large numbers of bacteria and other susceptible microbes over the sustained period of time.

Abstract: Disclosed herein are methods of treating, reducing, or preventing a disease such as oral mucositis, gastric mucositis, or inflammatory fibrosis, comprising identifying a patient in need of treatment and administering a therapeutically effective amount of at least one cationic steroid antimicrobial (CSA), or a pharmaceutically acceptable salt thereof. Kits comprising such compositions and instructions on such methods are also contemplated herein.

Abstract: Methods and feed compositions for increasing health of agricultural animals include administering a cationic cholesterol additive through the diet of the animal, such as through solid feed or drinking water of the animals. The method includes feeding an animal a diet comprised of a cationic cholesterol additive, such as a compound with a sterol backbone and a plurality of cationic groups attached thereto. The feed composition may include a solid or liquid feed component and a cationic cholesterol additive. The methods and compositions are useful for animals raised in confined feed operations, such as cattle, swine, horses, sheep, or poultry, and can reduce harmful bacteria in the digestive tract, increase beneficial bacteria flora, improve feed conversion efficiency, reduce morbity and/or mortality, and/or yield harvested meat having reduced content of harmful bacteria.