Abstract: The present teachings provide novel polymers, and methods of preparing and using thereof. The novel polymers each includes a sulfide, sulfonyl, or sulfonyl bond. The novel polymer are used to make polycations and/or polyanions, which can be used, for example, to produce adhesive complex coacervates.

Abstract: A method of manufacturing a manifold pad that is, at least in part, radiopaque includes providing a manifold member having a plurality of flow channels; providing a radioopacifier; and heating the manifold member and the radioopacifier in a heating vessel at an elevated temperature to form the manifold pad. The manifold pad may distribute reduced pressure at a tissue site and allow for detection using radiography. Systems, manifold pads, and other methods are also presented.

Abstract: The present teachings provide novel polymers, and methods of preparing and using thereof. The novel polymers each includes a sulfide, sulfonyl, or sulfonyl bond. The novel polymer are used to make polycations and/or polyanions, which can be used, for example, to produce adhesive complex coacervates.

Abstract: The present teachings provide new compositions comprising polycations and polycations, and the preparation and use of these new compositions, In one aspect, the new compositions are complex coacervates. The compositions described herein can have several desired properties, including, low interfacial tension in water, adjustable cohesive strength, antimicrobial activity, suitability for dissolution at or near physiological pH, the ability to promote cell attachment, biocompatiblility, and/or biodegradability. Thus, in various embodiments, the complex coacervates can be used in water-based applications, for example, in the body.

Abstract: A method of manufacturing a manifold pad that is, at least in part, radiopaque includes providing a manifold member having a plurality of flow channels; providing a radioopacifier; and heating the manifold member and the radioopacifier in a heating vessel at an elevated temperature to form the manifold pad. The manifold pad may distribute reduced pressure at a tissue site and allow for detection using radiography. Systems, manifold pads, and other methods are also presented.

Abstract: The present teachings provide new compositions comprising polycations and polycations, and the preparation and use of these new compositions. In one aspect, the new compositions are complex coacervates. The compositions described herein can have several desired properties, including, low interfacial tension in water, adjustable cohesive strength, antimicrobial activity, suitability for dissolution at or near physiological pH, biocompatiblility, and/or biodegradability. The compositions can have the ability of promoting cell attachment, cell adhesion, cell migration, cell differentiation, and/or morphogenesis. Thus, in various embodiments, the complex coacervates can be used in water-based applications, for example, in the body.

Abstract: A method of manufacturing a manifold pad that is, at least in part, radiopaque includes providing a manifold member having a plurality of flow channels; providing a radioopacifier; and heating the manifold member and the radioopacifier in a heating vessel at an elevated temperature to form the manifold pad. The manifold pad may distribute reduced pressure at a tissue site and allow for detection using radiography. Systems, manifold pads, and other methods are also presented.

Abstract: The present teachings provide new compositions comprising polycations and polycations, and the preparation and use of these new compositions. In one aspect, the new compositions are complex coacervates. The compositions described herein can have several desired properties, including, low interfacial tension in water, adjustable cohesive strength, antimicrobial activity, suitability for dissolution at or near physiological pH, biocompatiblility, and/or biodegradability. The compositions can have the ability of promoting cell attachment, cell adhesion, cell migration, cell differentiation, and/or morphogenesis. Thus, in various embodiments, the complex coacervates can be used in water-based applications, for example, in the body.

Abstract: A method of manufacturing a manifold pad that is, at least in part, radiopaque includes providing a manifold member having a plurality of flow channels; providing a radioopacifier; and heating the manifold member and the radioopacifier in a heating vessel at an elevated temperature to form the manifold pad. The manifold pad may distribute reduced pressure at a tissue site and allow for detection using radiography. Systems, manifold pads, and other methods are also presented.

Abstract: This invention is directed to an apparatus and method for producing microparticles comprising pharmacologically active agents and biodegradable polymers. The apparatus includes a spinning disk containing a reservoir in the center thereof and a flat inclined surface. The apparatus optionally includes serrations and/or a flat surface beneath the periphery of the disk that is parallel to the rotational axis of the disk. The invention is also directed to a method for producing microparticles containing pharmacologically active agents, using the spinning disk apparatus. Formulations containing ophthalmically active agents are provided. Formulations exhibiting zero order release rates are also described.

Abstract: This invention is directed to an apparatus and method for producing microparticles comprising pharmacologically active agents and biodegradable polymers. The apparatus includes a spinning disk containing a reservoir in the center thereof and a flat inclined surface. The apparatus optionally includes serrations and/or a flat surface beneath the periphery of the disk that is parallel to the rotational axis of the disk. The invention is also directed to a method for producing microparticles containing pharmacologically active agents, using the spinning disk apparatus. Formulations containing ophthalmically active agents are provided. Formulations exhibiting zero order release rates are also described.

Abstract: This invention is directed to an apparatus and method for producing microparticles comprising pharmacologically active agents and biodegradable polymers. The apparatus includes a spinning disk containing a reservoir in the center thereof and a flat inclined surface. The apparatus optionally includes serrations and/or a flat surface beneath the periphery of the disk that is parallel to the rotational axis of the disk. The invention is also directed to a method for producing microparticles containing pharmacologically active agents, using the spinning disk apparatus. Formulations containing ophthalmically active agents are provided. Formulations exhibiting zero order release rates are also described.

Abstract: The present invention provides processes for fixation of biological tissue and/or post-fixation treatment of such tissue that result in modified tissues with reduced susceptibility to in vitro calcification when used in prosthetic devices. The invention also relates to calcification resistant biological tissue and to methods of using such tissue.

Abstract: The invention provides methods and compositions for the delivery of bioactive factors to the systemic skeleton. The methods of the invention allow targeted delivery of bioactive factors to bone using nanocapsules comprised of amphipathic materials. Timed release of bioactive factors may also be used to increase the efficacy of treatment. The methods of the invention have wide applicability for the treatment or prevention of bone-associated maladies.