Abstract: Methods of forming a connective tissue-to-bone interface scaffolds (e.g., ligament-to-bone interface scaffolds, tendon-to-bone interface scaffolds, etc.). These scaffolds (grafts) may be formed from in such a way as to provide both a mineralized and demineralized layer in which the entire graft is flexible, compressible and compliant.

Abstract: Methods of forming a connective tissue-to-bone interface scaffolds (e.g., ligament-to-bone interface scaffolds, tendon-to-bone interface scaffolds, etc.). These scaffolds (grafts) may be formed from in such a way as to provide both a mineralized and demineralized layer in which the entire graft is flexible, compressible and compliant.

Abstract: Methods of forming a connective tissue-to-bone interface scaffolds (e.g., ligament-to-bone interface scaffolds, tendon-to-bone interface scaffolds, etc.). These scaffolds (grafts) may be formed from in such a way as to provide both a mineralized and demineralized layer in which the entire graft is flexible, compressible and compliant.

Abstract: This invention relates to biodurable, reticulated elastomeric matrices that are resiliently-compressible, their manufacture and uses including uses for implantable devices into or for topical treatment of patients, such as humans and other animals, for therapeutic, nutritional, or other useful purposes.

Abstract: A swallow challenge medium is thixotropic for easy swallowing and to provide enough viscosity for effective challenge to peristalsis and has high ionic density for effective impedance measurements by contact with electrodes positioned in a person's esophagus or oropharynx during swallow testing. The medium also has a high surface tension so as not to adhere to or coat the electrodes or probe surfaces. These physical characteristics are stabilized and consistent enough to provide standard for esophageal and/or oropharyngeal function testing and diagnostics.

Abstract: A swallow challenge medium is thixotropic for easy swallowing and to provide enough viscosity for effective challenge to peristalsis and has high ionic density for effective impedance measurements by contact with electrodes positioned in a person's esophagus or oropharynx during swallow testing. The medium also has a high surface tension so as not to adhere to or coat the electrodes or probe surfaces. These physical characteristics are stabilized and consistent enough to provide standard for esophageal and/or oropharyngeal function testing and diagnostics.

Abstract: A swallow challenge medium (10) is thixotropic for easy swallowing and to provide enough viscosity for effective challenge to peristalsis (20) and has high ionic density for effective impedance measurements by contact with electrodes (41–48) positioned in a person's esophagus (E) or oropharynx during swallow testing. The medium (10) also has a high surface tension so as not to adhere to or coat the electrodes (41–48) or probe (12) surfaces. These physical characteristics are stabilized and consistent enough to provide standard for esophageal and/or oropharyngeal function testing and diagnostics.

Abstract: Disclosed are methods and formulations for the treatment or prevention of infections on mammalian tissues such as skin. Specifically, the methods of this invention involve the in situ formation of a polymeric cyanoacrylate film containing mixed antibiotics over mammalian tissue.

Abstract: A swallow challenge medium (10) is thixotropic for easy swallowing and to provide enough viscosity for effective challenge to peristalsis (20) and has high ionic density for effective impedance measurements by contact with electrodes (41-48) positioned in a person's esophagus (E) or oropharynx during swallow testing. The medium (10) also has a high surface tension so as not to adhere to or coat the electrodes (41-48) or probe (12) surfaces. These physical characteristics are stabilized and consistent enough to provide standard for esophageal and/or oropharyngeal function testing and diagnostics.

Abstract: An aneurysm treatment device for in situ treatment of aneurysms comprising a collapsible member having a first shape wherein the first shape is an expanded geometric configuration, and a second shape, wherein the second shape is a collapsed configuration that is loadable into a catheter. The aneurysm treatment device is capable of returning to the first shape in the lumen of an aneurysm. Some aneurysm treatment devices comprise a spreadable portion and a projecting portion integral with the spreadable portion. The spreadable portion is capable of resting against and supporting an inner wall of an aneurysm, the projecting portion is capable of being gripped by a surgeon to facilitate insertion and positioning of the device. Other devices have relatively simple shapes and can be implanted to a site as a plurality. Treatment methods are also disclosed.

Abstract: Disclosed are methods and formulations for the treatment of topical conditions on mammalian tissues such as skin and mucous tissues mediated at least in part by viral, bacterial or fungal infections in the mammal. The methods of this invention involve the in situ formation of a polymeric film over the diseased tissue.

Abstract: Disclosed are methods for sterilizing cyanoacrylate prepolymer compositions under visible light irradiation conditions wherein the prepolymer remains in polymerizable form after sterilization.

Abstract: Disclosed are methods and compositions capable of rapidly preparing mammalian tissue and organs for harvesting and subsequent transplantation while minimizing the potential for infection of the harvested tissues and organs. This invention is also directed to methods and compositions used to prepare the donor for subsequent handling by a mortician.

Abstract: Disclosed are methods for treating burns on mammalian skin to reduce the risk of infection and to minimize fluid loss. Specifically, the methods of this invention involve the in situ formation of a polymeric cyanoacrylate film at the site of the burn. The cyanoacrylate film acts as a barrier inhibiting the introduction of pathogens (e.g., bacteria) into the burn area and as a barrier for the loss of fluids.

Abstract: Disclosed are methods and formulations for the treatment or prevention of infections on mammalian tissues such as skin. Specifically, the methods of this invention involve the in situ formation of a polymeric cyanoacrylate film containing mixed antibiotics over mammalian tissue.

Abstract: Disclosed are kits of parts comprising a first container comprising a cyanoacrylate composition and a second container comprising a compatible antimicrobial agent and, in particular, a compatible iodine containing antimicrobial agent. Mixture of these compositions provide for in situ formation of an antimicrobial polymeric cyanoacrylate film on mammalian skin.

Abstract: Disclosed are methods and compositions capable of rapidly preparing mammalian tissue and organs for harvesting and subsequent transplantation while minimizing the potential for infection of the harvested tissues and organs. This invention is also directed to methods and compositions used to prepare the donor for subsequent handling by a mortician.

Abstract: Disclosed are methods for treating burns on mammalian skin to reduce the risk of infection and to minimize fluid loss. Specifically, the methods of this invention involve the in situ formation of a polymeric cyanoacrylate film at the site of the burn. The cyanoacrylate film acts as a barrier inhibiting the introduction of pathogens (e.g., bacteria) into the burn area and as a barrier for the loss of fluids.

Abstract: Disclosed are cyanoacrylate compositions comprising a cyanoacrylate prepolymer and an encapsulated temperature sensitive indicator. These compositions provide for in situ formation of an polymeric cyanoacrylate film on mammalian skin which can be used to monitor the surface skin temperature of the mammal.

Abstract: Disclosed are methods for sterilizing cyanoacrylate prepolymer compositions under E-beam irradiation conditions wherein the prepolymer remains in polymerizable form after sterilization.