SO there are 18 Patents out of 21 that are still good huh. glad to know. Looking for a new patent on nerve technology too. That was a funny "Random" look. Should look at them all.
U.S. Patent No. 5,989,857, Polypeptide compositions and methods was granted in November 1999 with 10 claims. The patent outlines a method of preparing a bioactive polypeptide in a stable, inactivated form, the method comprising the step of treating the polypeptide with ozonated water in order to oxidize and/or stabilize the cysteine residues, and in turn, prevent the formation of disulfide bridges necessary for bioactivity. This patent expired on May 10, 2016.
U.S. Patent No. 6,670,148, Compositions comprising bioactive peptides prepared without formation of native disulfide bonds was granted in December 2003, with 9 claims. The patent further describes a method of preparing a bioactive polypeptide in a stable, inactivated form, the method comprising the step of treating the polypeptide with ozonated water in order to oxidize and/or stabilize the cysteine residues, and in turn, prevent the formation of disulfide bridges necessary for bioactivity. The method can involve the use of ozonated water to both oxidize the disulfide bridges in a bioactive polypeptide, and to then stabilize the resultant cysteine residues. Optionally, and preferably, the method can involve the use of ozonated water to stabilize the cysteine residues, and thereby prevent the formation of disulfide bridges, in a polypeptide produced by recombinant means in a manner that allows the polypeptide to be recovered with the disulfide bridges unformed. This Patent expired on May 10, 2016.
U.S. Patent Application Number 11/415377, Buccal Delivery System, with 20 claims. The patent describes a delivery formulation and system for delivering inactivated bioactive peptides to the body. The formulation includes effective amounts of the peptide as well as a mucosal permeation enhancer selected from the group consisting of quaternary ammonium salts. The system can be used by spraying the formulation into the buccal cavity, e.g., to the roof of the mouth. This application is currently listed as abandoned as of December 2009.
U.S. Patent Application Number 11/431126, Immunokine composition and method with 31 claims. The patent describes a composition and method for preventing HIV infection of mammalian cells. One aspect of the invention relates to an anti-immunodeficiency virus immunokine capable of binding to a cellular protein in a manner that prevents HIV infection of that cell. The compositions can include either an active bioactive polypeptide, such as native cobratoxin, and/or an inactivated bioactive polypeptide, such as cobratoxin in which one or more of the native disulfide bridges have been prevented from forming. The term “immunokine” is used to refer to an inactivated bioactive polypeptide, whether inactivated by chemical, genetic, and/or synthetic means as described herein, with the proviso that a corresponding active bioactive polypeptides can be included where applicable (e.g., for in vitro use). This application is currently listed as abandoned as of June 2009.
U.S. Patent No. 8,034,777, Modified Anticholinergic Neurotoxins as Modulators of the Autoimmune Reaction was granted in October 2011with 7 claims. The patent describes a method of treatment of a human patient suffering from Multiple Sclerosis comprising the administration of a disease-mitigating amount of a composition consisting of detoxified and modified alpha-cobratoxin in a saline solution. This patent is meant to protect and support our work in the production of drugs for the treatment of auto-immune diseases.
U.S. Patent No. 7,902,152, Use of cobratoxin as an analgesic was granted in March 2011 with 16 claims. The patent describes a composition of matter for an analgesic and its method of use is disclosed. The method of use is for the treatment of chronic pain, especially to the treatment of heretofore intractable pain as associated with advanced cancer. The pain associated with neurological conditions, rheumatoid arthritis, viral infections and lesions is also contemplated. The method includes administering to a host an alpha-neurotoxin that is characterized by its ability to blocking of the action of acetylcholine at nicotinic acetylcholine receptors. Currently, this would be applied to the Company’s current and future drugs for the treatment of pain.
U.S. Patent No. 7,758,894, Modified elapid venoms as stimulators of the immune reaction was granted in July, 2010 with 14 claims. The patent describes a method of protection from infections by administering a detoxified and neurotropically active modified venom containing alpha-cobratoxin. Protection includes bacterial, viral and parasitic infections. This patent is meant to protect and support our work in our production of anti-infective treatments. Currently, this would be applied to RPI-MN and RPI-78.
U.S. Patent Application Number 11/217,713, Modified venom and venom components as anti-retroviral agents with 10 claims was filed in September 2005. The present invention describes a method of treatment of human subject suffering from infection with HIV, comprising administering a disease mitigating amount of a detoxified, modified cobra venom composition in an amount effective to ameliorate at least one symptom of said infection. This patent is meant to protect and support our work in the production of anti-viral treatments. Currently, this would be applied to RPI-MN and RPI-78.
U.S. Patent Application Number 11/784,607, Treatment of Autoimmune Disorders Using Detoxified Cobratoxin was filed in April 2007. The patent describes a method of treating patients suffering from autoimmune disorders comprising the administration of detoxified cobra venom. This patent is meant to protect and support our work in the production of drugs for the treatment of auto-immune diseases. Currently, this would be applied to RPI-78MN.
U.S. Patent Application Number 12/317,115, Alpha-neurotoxin Proteins with Anti-inflammatory Properties and Uses Thereof was filed in December 2008. The patent describes a method of treating an arthritic condition comprising the administration to a subject in need thereof an effective amount of a pharmaceutical composition comprising an isolated alpha-neurotoxin protein or an effective fragment thereof. This patent is meant to protect and support our work in the production of drugs for the treatment of inflammatory diseases.
U.S. Patent No. 5,989,902, Method for determining the antimicrobial agent sensitivity of a nonparaffinophilic hydrophobic microorganism and an associated apparatus was granted in November 1999 with 3 claims. The patent describes a method for determining a sensitivity of a nonparaffinophilic hydrophobic microorganism to an antimicrobial agent. The method includes providing at least one receptacle containing an aqueous broth including a carbon source and introducing the nonparaffinophilic hydrophobic microorganism into the receptacle. The method further includes placing into the receptacle (i) a slide coated with a hydrophobic material and (ii) a predetermined quantity of the antimicrobial agent to be tested. By observing the nonparaffinophilic hydrophobic microorganism growth or lack thereof on the slide, it can be determined whether the predetermined quantity of the antimicrobial agent is effective in inhibiting growth of the nonparaffinophilic hydrophobic microorganism on the slide. An associated apparatus is also disclosed. This Patent expired on November 13, 2017.
U.S. Patent No. 5,981,210, Method for determining a presence or absence of a nonparaffinophilic hydrophobic microorganism in a body specimen by using a DNA extraction procedure and a novel DNA extraction procedure was granted in November 1999 with 17 claims. The method of the invention involves providing a first receptacle and a second receptacle. The first receptacle contains a sterile aqueous broth and the second receptacle contains an aqueous broth including a carbon source. The method then includes placing into the first receptacle a first support surface having a paraffin wax coating thereon and placing into the second receptacle a second support surface having a hydrophobic material coating thereon. A body specimen, such as sputum, is then introduced into each of the first and second receptacles. The presence of a nonparaffinophilic hydrophobic microorganism in the body specimen is determined by observing (i) a lack of microorganism growth on the paraffin coated material of the first support surface and (ii) a presence of microorganism growth on the hydrophobic material coating of the second support surface. The presence of the nonparaffinophilic hydrophobic microorganism can be further confirmed by performing a DNA extraction. An associated DNA extraction procedure is also provided. This Patent expired on November 13, 2017.
U.S. Patent No. 5,935,806, Method and apparatus for speciating and identifying MAI (Mycobacterium Avium Intracellulare) and testing the same for antibiotic sensitivity was granted in August 1999 with 3 claims. The patent describes a method of speciating and identifying MAI in a specimen comprises placing a paraffin coated slide in a receptacle containing a sterile aqueous solution inoculated with the specimen, analyzing the slide after exposure to the specimen to determine the presence or absence of atypical Mycobacteria, and after the analysis step, if atypical Mycobacteria are determined to be present, performing at least one speciation assay to ascertain if the atypical Mycobacteria are MAI. A related apparatus is also disclosed for speciating and identifying MAI in a specimen comprising a paraffin-wax coated slide, a tube having a sterile aqueous solution contained therein, the tube adapted to hold the slide, and at least one speciation assay means for performing an assay to determine the presence or absence of MAI in the specimen after the specimen is introduced into the tube holding the solution and the slide. An apparatus and method for determining the sensitivity of MAI to different antibiotics and dosages thereof is also provided. This Patent expired on October 24, 2009 for failure to timely pay maintenance fees.
U.S. Patent No. 5,882,920, Apparatus for determining the presence or absence of a paraffinophilic microorganism was granted in March 1999 with 4 claims. The patent describes a method of determining the presence of a paraffinophilic microorganism in a specimen taken from a patient. The method includes providing a receptacle containing an aqueous solution and adjusting the solution to mimic the in vivo clinical conditions of the patient. The method then further includes inoculating the solution with the specimen and then placing in the receptacle a paraffin coated slide to bait the paraffinophilic microorganism. The slide is then analyzed after exposure to the specimen to determine the presence or absence of the paraffinophilic microorganism. An associated apparatus is also disclosed. This Patent expired on November 9, 2015.
U.S. Patent No. 5,854,014, Apparatus for testing paraffinophilic microorganisms for antimicrobial sensitivity was granted in December 1998 with 2 claims. The patent describes an apparatus for determining the antimicrobial agent sensitivity of a paraffinophilic microorganism from a specimen obtained from a patient. The apparatus includes a receptacle containing an aqueous solution, an amount of antimicrobial agent to be tested and the specimen. The apparatus further consists of a paraffin coated slide placed into the receptacle. This Patent expired October 24, 2009 for failure to timely pay maintenance fees.
U.S. Patent No. 5,846,760, Method for determining a presence or absence of a nonparaffinophilic hydrophobic microorganism in a body specimen and an associated kit was granted in December 1998 with 15 claims. The method of the invention involves providing a first receptacle and a second receptacle. The first receptacle contains a sterile aqueous broth and the second receptacle contains an aqueous broth including a carbon source. The method then includes placing into the first receptacle a first support surface having a paraffin wax coating thereon and placing into the second receptacle a second support surface having a hydrophobic material coating thereon. A body specimen, such as sputum, is then introduced into each of the first and second receptacles. The presence of a nonparaffinophilic hydrophobic microorganism in the body specimen is determined by observing (i) a lack of microorganism growth on the paraffin coated material of the first support surface and (ii) a presence of microorganism growth on the hydrophobic material coating of the second support surface. An associated kit is also disclosed. This Patent expired on November 13, 2017.
U.S. Patent No. 5,776,722, Method of testing a body specimen taken from a patient for the presence or absence of a microorganism and a further associated method and associated apparatus was granted in July 1998 with 40 claims. The patent describes a method of testing a body specimen taken from a patient for the presence or absence of a microorganism. A transport/isolator assembly is provided which includes a receptacle and a baiting assembly including a baiting section having disposed thereon a coating material. A baiting liquid and the body specimen are then introduced into the receptacle. The method further comprises securing the baiting assembly to the receptacle so that at least a portion of the coated section is introduced into the baiting liquid. The transport/isolator assembly containing the baiting liquid and the body specimen are then transported to a laboratory for subsequent observation of the coated section for growth or lack thereof of the microorganism. A further method of processing the body specimen and an associated isolator/transport assembly kit as well as an associated isolator/transport assembly are also disclosed. This Patent expired on September 25, 2017.
U.S. Patent No. 5,569,592, Apparatus for testing MAI (Mycobacterium Avium Intracellulare) for antimicrobial agent sensitivity was granted in October 1996 with 3 claims. The patent describes an apparatus for determining the sensitivity of MAI to different antimicrobial agents and dosages thereof is provided. The apparatus comprises a plurality of test tubes adapted to contain an amount of an antimicrobial agent to be tested and MAI complex organisms to be assayed and a separate paraffin coated slide adapted for placement in each of the test tubes. The growth of the MAI complex organisms on the slide can be used to determine the concentration of the antimicrobial agent necessary to resist MAI complex organism growth on the slide. An associated method is also disclosed. This Patent expired on October 29, 2013.
U.S. Patent No. 5,472,877, Apparatus for determining the presence or absence of MAI (Mycobacterium Avium Intracellulare) was granted in December 1995 with 6 claims. The patent describes a method of speciating and identifying MAI in a specimen comprises placing a paraffin coated slide in a receptacle containing a sterile aqueous solution inoculated with the specimen, analyzing the slide after exposure to the specimen to determine the presence or absence of atypical Mycobacteria, and after the analysis step, if atypical Mycobacteria are determined to be present, performing at least one speciation assay to ascertain if the atypical Mycobacteria are MAI. A related apparatus is also disclosed for speciating and identifying MAI in a specimen comprising a paraffin-wax coated slide, a tube having a sterile aqueous solution contained therein, the tube adapted to hold the slide, and at least one speciation assay means for performing an assay to determine the presence or absence of MAI in the specimen after the specimen is introduced into the tube holding the solution and the slide. An apparatus and method for determining the sensitivity of MAI to different antibiotics and dosages thereof is also provided. This Patent expired on December 5, 2012.
U.S. Patent No. 5,316,918, Method and apparatus for testing MAI (Mycobacterium Avium Intracellulare) for antimicrobial agent sensitivity was granted in May 1994 with 7 claims. The patent describes an apparatus and method for determining the sensitivity of MAI to different antimicrobial agents and dosages thereof is provided. The apparatus comprises a plurality of test tubes adapted to contain an amount of an antimicrobial agent to be tested and MAI complex organisms to be assayed and a separate paraffin coated slide adapted for placement in each of the test tubes. The growth of the MAI complex organisms on the slide can be used to determine the concentration of the antimicrobial agent necessary to resist MAI complex organism growth on the slide. An associated method is also disclosed. This Patent expired on May 31, 2011.
U.S. Patent No. 5,153,119, Method for speciating and identifying MAI (Mycobacterium Avium Intracellulare) was granted in October 1992 with 15 claims. The patent describes a method of speciating and identifying MAI in a specimen comprises placing a paraffin coated slide in a receptacle containing a sterile aqueous solution inoculated with the specimen, analyzing the slide after exposure to the specimen to determine the presence or absence of atypical Mycobacteria, and after the analysis step, if atypical Mycobacteria are determined to be present, performing at least one speciation assay to ascertain if the atypical Mycobacteria are MAI. A related apparatus is also disclosed for speciating and identifying MAI in a specimen comprising a paraffin-wax coated slide, a tube having a sterile aqueous solution contained therein, the tube adapted to hold the slide, and at least one speciation assay means for performing an assay to determine the presence or absence of MAI in the specimen after the specimen is introduced into the tube holding the solution and the slide. An apparatus and method for determining the sensitivity of MAI to different antibiotics and dosages thereof is also provided. This Patent expired on October 24, 2009.
AI
