Abstract: The present invention provides N-alkylthio ?-lactams and disulfide compounds (e.g., alkyl-coenzyme A asymmetric disulfides or aryl-alkyl disulfides), compositions containing such compounds, and methods of their use as anti-bacterial agents.

Abstract: The present invention provides N-alkylthio ?-lactams and disulfide compounds (e.g., alkyl-coenzyme A asymmetric disulfides or aryl-alkyl disulfides), compositions containing such compounds, and methods of their use as anti-bacterial agents.

Abstract: The present invention provides N-alkylthio ?-lactams and disulfide compounds (e.g., alkyl-coenzyme A asymmetric disulfides or aryl-alkyl disulfides), compositions containing such compounds, and method of their use as anti-bacterial agents.

Abstract: This invention describes the discovery and synthesis of N-thiolated 2-oxazolidinones as a new class of anti bacterial agents. These compounds can be synthesized from 2-oxazolidinones by Ndeprotection and N-sulfenylation. These new substances were found to exhibit potent anti-bacterial activity, including bacteriostatic properties against Staphylococcus spp., including methicillin resistant Staphylcoccus aureus (MRSA), and Bacillus spp., including Bacillus anthracis.

Abstract: A biocompatible polymer material is described that exhibits mechanical and physical properties that are fundamental to many medical devices and treatment of many medical diseases and disorders. The material is composed of a combination of acrylate monomers polymerized via a microemulsion polymerization. Multiple applications of the polymer material are presented.

Abstract: The present invention comprises poly(vinyl benzoate) nanoparticle suspensions as molecular carriers. These nanoparticles can be formed by nanoprecipitation of poly(vinyl benzoate) in water using Pluronic F68 as surfactant, to create spherical nanostructures measuring about 200-250 nm in diameter which are stable in phosphate buffer and blood serum, and only slowly degrade in the presence of esterases. Kinetics experiments in phosphate buffer indicate that 78% of the coumarin-6 was encapsulated within the polymer matrix of the nanoparticle, and the residual 22% of coumarin-6 was surface-bound and quickly released. The nanoparticles are non-toxic in vitro towards human epithelial cells (IC50>1000 ?g/mL) and primary bovine primary aortic endothelial cells (IC50>500 ?g/mL), and exert non-observable bactericidal activity against a selection of representative test microbes (MIC >250 ?g/mL).

Abstract: This invention is the design and synthesis of a caprolactone monomer which bears a pendant protected carboxyl group. This monomer has been copolymerized with caprolactone in varying ratios. After polymerization, the protecting group can be removed and an antibiotic can be attached as a new pendant group. The bioactivity of the antibiotic-bound poly(caprolactone) polymer is described.

Abstract: This invention is the design and synthesis of a caprolactone monomer which bears a pendant protected carboxyl group. This monomer has been copolymerized with caprolactone in varying ratios. After polymerization, the protecting group can be removed and an antibiotic can be attached as a new pendant group. The bioactivity of the antibiotic-bound poly(caprolactone) polymer is described.

Abstract: The present invention concerns nanoparticles, compositions comprising the nanoparticles, methods for their production, and methods of using the nanoparticles for the delivery of biologically active agents (e.g., antibiotics or other drugs) to human or non-human subjects. In one embodiment, the nanoparticle is a “surfactant-free” nanoparticle in which the surfactant moiety is covalently attached to the backbone of the polymer.

Abstract: The invention relates to heterosubstituted N-thiolated beta-lactams, compositions comprising these compounds, methods for their production, and methods of use as antibiotics to inhibit the growth of bacteria. In one embodiment, the compounds have the structure shown in formula (A) or formula (B) or formula (C): wherein the R groups are as defined in the specification. The antibacterial agents of the invention can be administered to a human or animal to treat or inhibit bacterial infection, such as that of Staphylococcus species, including methicillin-resistant Staphylococcus aureus (MRSA).

Abstract: The present invention concerns nanoparticles, compositions comprising the nanoparticles, methods for their production, and methods of using the nanoparticles for the delivery of biologically active agents (e.g., antibiotics or other drugs) to human or non-human subjects. In one embodiment, the nanoparticle is a “surfactant-free” nanoparticle in which the surfactant moiety is covalently attached to the backbone of the polymer.

Abstract: This invention describes the discovery and synthesis of N-thiolated 2-oxazolidinones as a new class of anti bacterial agents. These compounds can be synthesized from 2-oxazolidinones by Ndeprotection and N-sulfenylation. These new substances were found to exhibit potent anti-bacterial activity, including bacteriostatic properties against Staphylococcus spp., including methicillin resistant Staphylcoccus aureus (MRSA), and Bacillus spp., including Bacillus anthracis.

Abstract: The present invention concerns a biocomposite useful in artificial tissue replacement, methods for its production, and methods of use. The biocomposite can be implanted into humans or animals as an artificial tissue for treatment of a tissue defect. The biocomposite can be formed or manipulated into a desired shape for implantation.

Abstract: Bartonella species are facultative intracellular pathogens responsible for a range of diseases in animals and in humans. A selection of N-acyl ciprofloxacin analogues, chemically synthesized from ciprofloxacin, have been tested in vitro for activity against Bartonella species as models for therapeutic development. Nine Bartonella strains, including five of B. henselae, two of B. quintana, and one each of B. elizabethae and B. vinsonii, have been tested for susceptibility to different N-acyl ciprofloxacin derivatives. Several techniques have been used to test the in vitro antibacterial activity of the derivatives. Seven of them, labeled RC4-125, RC4-143, RC4-147, RC5-28, RC5-29, RC5-32 and RC5-69 showed significant intracellular anti-Bartonella activity. These synthetically derived N-acyl ciprofloxacin derivatives may be useful in the therapeutic treatment of infections caused by Bartonella.

Abstract: This invention is the design and synthesis of a caprolactone monomer which bears a pendant protected carboxyl group. This monomer has been copolymerized with caprolactone in varying ratios. After polymerization, the protecting group can be removed and an antibiotic can be attached as a new pendant group. The bioactivity of the antibiotic-bound poly(caprolactone) polymer is described.

Abstract: The present invention concerns a biocomposite useful in artificial tissue replacement, methods for its production, and methods of use. The biocomposite can be implanted into humans or animals as an artificial tissue for treatment of a tissue defect. The biocomposite can be formed or manipulated into a desired shape for implantation.

Abstract: The invention relates to heterosubstituted N-thiolated beta-lactams, compositions comprising these compounds, methods for their production, and methods of use as antibiotics to inhibit the growth of bacteria. In one embodiment, the compounds have the structure shown in formula (A) or formula (B) or formula (C): wherein the R groups are as defined in the specification. The antibacterial agents of the invention can be administered to a human or animal to treat or inhibit bacterial infection, such as that of Staphylococcus species, including methicillin-resistant Staphylococcus aureus (MRSA).

Abstract: The invention relates to heterosubstituted N-thiolated beta-lactams, compositions comprising these compounds, methods for their production, and methods of use as antibiotics to inhibit the growth of bacteria. In one embodiment, the compounds have the structure shown in formula (A) or formula (B) or formula (C): wherein the R groups are as defined in the specification. The antibacterial agents of the invention can be administered to a human or animal to treat or inhibit bacterial infection, such as that of Staphylococcus species, including methicillin-resistant Staphylococcus aureus (MRSA).

Abstract: Drug delivery of resistance reversal agents by polyacrylate nanoparticles for treatment of drug (e.g. chloroquine) resistant malaria. Also provided are drug delivery by polyacrylate nanoparticles of ciprofloxacin for treatment of anthrax.

Abstract: Synthetically-derived S,S-heterodisubstituted disulfides that exhibit potent in vitro antibacterial activity against a variety of bacteria, including Staphylococcus aureus, methicillin-resistant Staphylococcus aureus and Francisella tularensis. The present invention provides compounds, methods and compositions effective to treat microbial/bacterial infections, and, especially, infections arising from bacteria which have developed resistance to conventional antibiotics.