Patents by Inventor Shyam S. Mohapatra
Shyam S. Mohapatra has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10675301Abstract: A broad-based remediation mechanism against MRFs and alternative fecal indicators such as multidrug resistant Pseudomonas aeruginosa, including nanotechnology formulations and methodologies that may be used to develop novel mitigation strategies against certain drug resistant bacterial strains. The current invention relates to mitigation of drug resistant bacteria, for example in hospitals and in food animals, and to the identification. The invention uses hybrid nanomaterials comprising oligo-chitosan and zinc oxide formulated as nanoparticles and micelles. The invention also relates to the treatment of multi-drug resistant biofilms which mimic in vivo conditions. The inventors unexpectedly found unique properties of very small oligomers of chitosan that effectively mitigate MRF and alternative resistant strain-induced illnesses without compromising the balance of the beneficial flora in the physiological and ecological microenvironments.Type: GrantFiled: January 14, 2019Date of Patent: June 9, 2020Assignee: University of South FloridaInventors: Shyam S. Mohapatra, Alya Limayem
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Publication number: 20200141905Abstract: A novel SH-SAW biosensor capable of non-invasive and touch-free detection of cancer cell viability and growth or proliferation in two-dimensional (2D) and three-dimensional (3D) cell cultures as well as stem cell regeneration as it pertains to cancer cell biology and anti-cancer drug development is presented. The biosensor includes two pairs of resonators including interdigital transducers reflecting fingers to quantify mass loading by the cells in suspension as well as within a tumoroid culture platform. The biosensor can be part of a perfused 3PNS-tumoroid system that is amenable to real-time non-invasive monitoring of the cell proliferation, viability, and multiplexed detection of key physiologic and clinical biomarkers.Type: ApplicationFiled: December 20, 2019Publication date: May 7, 2020Applicants: University of South Florida, TransGenex Nanobiotech, Inc.Inventors: Shyam S. Mohapatra, Subhra Mohapatra, Rasim Oytun Guldiken, Rajesh R. Nair, Tao Wang
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Patent number: 10576100Abstract: A broad-based remediation mechanism against MRFs and alternative fecal indicators such as multidrug resistant Pseudomonas aeruginosa, including nanotechnology formulations and methodologies that may be used to develop novel treatment strategies against certain drug resistant bacterial strains. The current invention relates to the treatment of drug resistant bacteria from nosocomial infections, for example in hospitals and in food animals. The invention uses hybrid nanomaterials comprising oligo-chitosan and zinc oxide formulated as nanoparticles and micelles. The inventors unexpectedly found unique properties of very small oligomers of chitosan that effectively treat multi-drug resistant bacteria without compromising the balance of the beneficial flora in the physiological and ecological microenvironments in a host. Also, the combination of chitosan with zinc oxide demonstrated synergistic and unexpected effects in remediation of important food-borne bacteria including the resistant types.Type: GrantFiled: October 15, 2018Date of Patent: March 3, 2020Assignee: University of South FloridaInventors: Shyam S. Mohapatra, Alya Limayem
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Publication number: 20200061207Abstract: A multifunctional dendrimer nanoparticle and method of treating diseases of the posterior segment of the eye is presented. The functionalized polyamidoamine (PAMAM) dendrimer effectively delivers drugs and/or genes to the posterior eye, thereby providing for the effective, non-invasive, and topical treatment of diseased in the posterior eye. The multifunctional dendrimer nanoparticle has shRNA-encoding DNA and small molecule drug encapsulated cyclodextrin complexed to the outer surface of the dendrimer for delivery to the posterior segment of the eye.Type: ApplicationFiled: August 5, 2019Publication date: February 27, 2020Applicants: University of South Florida, The United Government as Represented by the Department of Veterans AffairInventors: Shyam S. Mohapatra, Subhra Mohapatra, Eleni Markousta
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Patent number: 10520472Abstract: A novel SH-SAW biosensor capable of non-invasive and touch-free detection of cancer cell viability and growth or proliferation in two-dimensional (2D) and three-dimensional (3D) cell cultures as well as stem cell regeneration as it pertains to cancer cell biology and anti-cancer drug development is presented. The biosensor includes two pairs of resonators including interdigital transducers reflecting fingers to quantify mass loading by the cells in suspension as well as within a tumoroid culture platform. The biosensor can be part of a perfused 3PNS-tumoroid system that is amenable to real-time non-invasive monitoring of the cell proliferation, viability, and multiplexed detection of key physiologic and clinical biomarkers.Type: GrantFiled: August 21, 2017Date of Patent: December 31, 2019Assignees: University of South Florida, TransGenex Nanobiotech, Inc.Inventors: Shyam S. Mohapatra, Subhra Mohapatra, Rasim Oytun Guldiken, Rajesh R. Nair, Tao Wang
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Publication number: 20190216855Abstract: The present invention pertains to a strategy of selectively targeting oncolytic virotherapy, using either naturally occurring or genetically modified viruses by packaging them in mesenchymal stem cells (MSCs). The present invention concerns MSCs, compositions comprising the MSCs, and methods of using the MSCs for treatment of cancer and for lysing or inducing apoptosis of cancer cells in vitro or in vivo.Type: ApplicationFiled: September 19, 2017Publication date: July 18, 2019Inventors: SHYAM S. MOHAPATRA, SUBHRA MOHAPATRA
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Publication number: 20190134086Abstract: A broad-based remediation mechanism against MRFs and alternative fecal indicators such as multidrug resistant Pseudomonas aeruginosa, including nanotechnology formulations and methodologies that may be used to develop novel mitigation strategies against certain drug resistant bacterial strains. The current invention relates to mitigation of drug resistant bacteria, for example in hospitals and in food animals, and to the identification. The invention uses hybrid nanomaterials comprising oligo-chitosan and zinc oxide formulated as nanoparticles and micelles. The invention also relates to the treatment of multi-drug resistant biofilms which mimic in vivo conditions. The inventors unexpectedly found unique properties of very small oligomers of chitosan that effectively mitigate MRF and alternative resistant strain-induced illnesses without compromising the balance of the beneficial flora in the physiological and ecological microenvironments.Type: ApplicationFiled: January 14, 2019Publication date: May 9, 2019Applicant: University of South FloridaInventors: Shyam S. Mohapatra, Alya Limayem
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Patent number: 10272053Abstract: A method of delivering a compound of interest to the lungs of a subject by the intravenous injection of Sertoli cells loaded with a plurality of chitosan nanoparticles coupled with the compound of interest is provided. Testis-derived rat Sertoli cells were pre-loaded with chitosan nanoparticles coupled with or without the drug curcumin, pre-labeled with a fluorescent cell marker and then injected intravenously into the control or asthmatic mouse model host. Intact pre-loaded, pre-labeled Sertoli cells were present in the lungs at 15 minutes post-injection, appeared entrapped in the pulmonary pre-capillary vascular bed around alveolar sacs but were not present one hour post-injection although Sertoli cell label and cellular debris was. Most of the injected nanoparticle load (70%) and curcumin load (80%) was present in the lungs 15 minutes post-injection, and remained at 70% and 80%, respectively, one hour post-injection.Type: GrantFiled: October 9, 2015Date of Patent: April 30, 2019Assignee: UNIVERSITY OF SOUTH FLORIDAInventors: Arun Kumar, Shyam S. Mohapatra, Don F. Cameron
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Publication number: 20190038574Abstract: A method of delivering a compound of interest to the lungs of a subject by the intravenous injection of Sertoli cells loaded with a plurality of chitosan nanoparticles coupled with the compound of interest is provided. Testis-derived rat Sertoli cells were pre-loaded with chitosan nanoparticles coupled with or without the drug curcumin, pre-labeled with a fluorescent cell marker and then injected intravenously into the control or asthmatic mouse model host. Intact pre-loaded, pre-labeled Sertoli cells were present in the lungs at 15 minutes post-injection, appeared entrapped in the pulmonary pre-capillary vascular bed around alveolar sacs but were not present one hour post-injection although Sertoli cell label and cellular debris was. Most of the injected nanoparticle load (70%) and curcumin load (80%) was present in the lungs 15 minutes post-injection, and remained at 70% and 80%, respectively, one hour post-injection.Type: ApplicationFiled: October 9, 2018Publication date: February 7, 2019Applicant: UNIVERSITY OF SOUTH FLORIDAInventors: ARUN KUMAR, SHYAM S. MOHAPATRA, DON F. CAMERON
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Publication number: 20190030065Abstract: A broad-based remediation mechanism against MRFs and alternative fecal indicators such as multidrug resistant Pseudomonas aeruginosa, including nanotechnology formulations and methodologies that may be used to develop novel treatment strategies against certain drug resistant bacterial strains. The current invention relates to the treatment of drug resistant bacteria from nosocomial infections, for example in hospitals and in food animals. The invention uses hybrid nanomaterials comprising oligo-chitosan and zinc oxide formulated as nanoparticles and micelles. The inventors unexpectedly found unique properties of very small oligomers of chitosan that effectively treat multi-drug resistant bacteria without compromising the balance of the beneficial flora in the physiological and ecological microenvironments in a host. Also, the combination of chitosan with zinc oxide demonstrated synergistic and unexpected effects in remediation of important food-borne bacteria including the resistant types.Type: ApplicationFiled: October 15, 2018Publication date: January 31, 2019Applicant: University of South FloridaInventors: Shyam S. Mohapatra, Alya Limayem
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METHODS OF SCREENING DRUGS FOR CANCER TREATMENT USING CELLS GROWN ON A FIBER-INSPIRED SMART SCAFFOLD
Publication number: 20190033294Abstract: Described are methods of screening drugs for cancer treatment using a fiber-inspired smart scaffold cell culture system. The system recapitulates the actual in vivo tumor microenvironment, thereby ensuring efficacy in clinical trials by identifying drugs that will be effective in treating cancer. The drugs identified by the system may then be used to treat cancers, including breast cancer and colorectal adenocarcinoma. In addition, this screening system provides a platform for methods relating to the personalized treatment of cancer.Type: ApplicationFiled: February 17, 2017Publication date: January 31, 2019Inventors: Subhra MOHAPATRA, Shyam S. MOHAPATRA, Rajesh R. NAIR -
Patent number: 10179146Abstract: A broad-based remediation mechanism against MRFs and alternative fecal indicators such as multidrug resistant Pseudomonas aeruginosa, including nanotechnology formulations and methodologies that may be used to develop novel mitigation strategies against certain drug resistant bacterial strains. The current invention relates to mitigation of drug resistant bacteria from nosocomial infections, for example in hospitals and in food animals, and to the identification and mitigation of lytic bacteria from algae biomass-fed wastewaters for algae cultivation. The invention uses hybrid nanomaterials comprising oligo-chitosan and zinc oxide formulated as nanoparticles and micelles. The inventors unexpectedly found unique properties of very small oligomers of chitosan that effectively mitigate MRF and alternative resistant strain-induced illnesses without compromising the balance of the beneficial flora in the physiological and ecological microenvironments.Type: GrantFiled: November 1, 2017Date of Patent: January 15, 2019Assignee: University of South FloridaInventors: Shyam S. Mohapatra, Alya Limayem
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Publication number: 20180338996Abstract: The present invention concerns a method for treatment of traumatic brain injury (TBI) in a human or non-human animal subject, comprising administering stem or progenitor cells to the subject, such as mesenchymal stromal cells; and administering one or more PPAR? agonists, such as pioglitazone (PG), to the subject before, during, and/or after administration of the stem or progenitor cells. Another aspect of the invention concerns a pharmaceutical composition useful for treating TBI, the composition comprising stem cells or progenitor cells, such as mesenchymal stromal cells, and one or more PPAR? agonists, such as PG.Type: ApplicationFiled: May 23, 2018Publication date: November 29, 2018Applicant: UNIVERSITY OF SOUTH FLORIDAInventors: SUBHRA MOHAPATRA, SHYAM S. MOHAPATRA, MAHASWETA DAS
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Publication number: 20180256579Abstract: Disclosed herein are compositions and methods for treating cancer. Further provided herein are compositions and methods for reducing, inhibiting, or preventing resistance of cancer to tyrosine kinase inhibitors. The methods may include administering an anti-resistance agent such as a CYP51A1 inhibitor or an agonist of miRNA-764 (SEQ ID NO: 4) to a subject. A tyrosine kinase inhibitor may also be administered to the subject in addition to the anti-resistance agent.Type: ApplicationFiled: February 23, 2018Publication date: September 13, 2018Inventors: Subhra Mohapatra, Shyam S. Mohapatra, Mark Howell, Rajesh Nair
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Publication number: 20180195037Abstract: Provided herein is a three-dimensional scaffold composition comprising randomly oriented fibers, wherein the fibers comprise a polyethylene glycol-polylactic acid block copolymer (PEG-PLA) and a poly(lactic-co-glycolic acid) (PLGA). Also provided are methods for using the three-dimensional scaffolds described herein.Type: ApplicationFiled: April 18, 2017Publication date: July 12, 2018Applicant: University of South FloridaInventors: Subhra Mohapatra, Shyam S. Mohapatra, Yvonne Kathleen Davis, Chunyan Wang
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Patent number: 9938526Abstract: The compositions and methods of the disclosure particularly target the divalent metal transporter expressed on olfactory nerve terminals to transport divalent cation-coated or cation-containing nanoparticles to all regions of brain. It has been found that such divalent cation-containing nanoparticles, including those nanoparticles comprising manganese have affinity for the metal transport receptor proteins. Although this receptor has particular affinity for manganese, it is contemplated that other divalent ions, including magnesium, calcium, and the like may also be bound to such receptors leading to transport of the nanoparticles into the intracellular cytoplasm. Nanoparticles have been developed, therefore, as vehicles for parenteral delivery of genes, proteins and drugs.Type: GrantFiled: May 24, 2016Date of Patent: April 10, 2018Assignees: University of South Florida, The United States of America as Represented by the Department of Veterans Affairs Office of General Counsel—PSG IV (024)Inventors: Juan Sanchez-Ramos, Vasyl Sava, Shijie Song, Shyam S. Mohapatra, Subhra Mohapatra
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Publication number: 20180045681Abstract: A novel SH-SAW biosensor capable of non-invasive and touch-free detection of cancer cell viability and growth or proliferation in two-dimensional (2D) and three-dimensional (3D) cell cultures as well as stem cell regeneration as it pertains to cancer cell biology and anti-cancer drug development is presented. The biosensor includes two pairs of resonators including interdigital transducers reflecting fingers to quantify mass loading by the cells in suspension as well as within a tumoroid culture platform. The biosensor can be part of a perfused 3PNS-tumoroid system that is amenable to real-time non-invasive monitoring of the cell proliferation, viability, and multiplexed detection of key physiologic and clinical biomarkers.Type: ApplicationFiled: August 21, 2017Publication date: February 15, 2018Applicants: University of South Florida, TransGenex Nanobiotech, Inc.Inventors: Shyam S. Mohapatra, Subhra Mohapatra, Rasim Oytun Guldiken, Rajesh R. Nair
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Patent number: 9782494Abstract: Provided herein is a method of transfecting a brain cell of a subject with a polynucleotide comprising systemically administering to the subject a composition comprising a micelle having a hydrophobic superparamagnetic iron oxide nanoparticle (SPION) core, a first coating comprising a cationic polymer, and a second coating comprising the polynucleotide, wherein the subject has a mild traumatic brain injury.Type: GrantFiled: February 22, 2013Date of Patent: October 10, 2017Assignee: University of South FloridaInventors: Subhra Mohapatra, Shyam S. Mohapatra, Mahasweta Das, Chunyan Wang
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Publication number: 20170219564Abstract: Provided herein is a three-dimensional scaffold composition comprising randomly oriented fibers, wherein the fibers comprise a polyethylene glycol-polylactic acid block copolymer (PEG-PLA) and a poly(lactic-co-glycolic acid) (PLGA). Also provided are methods for using the three-dimensional scaffolds described herein.Type: ApplicationFiled: April 18, 2017Publication date: August 3, 2017Applicant: University of South Florida (A Florida Non-Profit Corporation)Inventors: Subhra Mohapatra, Shyam S. Mohapatra
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Publication number: 20170137812Abstract: Provided are methods of treating an inflammatory disease in a subject in need thereof by administering an amount of microRNA 142, an amount of microRNA 223 or an amount of microRNA 142 and an amount of micro RNA 223 to the subject in need thereof.Type: ApplicationFiled: November 14, 2016Publication date: May 18, 2017Applicant: University of South FloridaInventors: Shyam S. Mohapatra, Srinivas Nagaraj Bharadwaj, Subhra Mohapatra