Patents by Inventor Martin J. Blaser
Martin J. Blaser 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: 10653728Abstract: The application relates to methods based on modulating mammalian intestinal microbiota and related probiotic and prebiotic compositions. Specifically, the application relates to the use of novel bacterial genera Ileibacterium and Dubosiella, including their species I. valens (I. valens) and Dubosiella newyorkensis (D. newy), respectively, and closely related OTUs within the family Erysipelotrichaceae that resemble either Ileibacterium spp. or Dubosiella spp. with 90% 16S rRNA sequence identity, for modulating weight and intestinal inflammation and immunity (including modulating intestinal immune gene expression such as, e.g., modulating expression of ROR?T, IL-17A, IL-17F, RegIII?, Relm?, and Def?), as well as for treatment and diagnosis of (i) obesity and related conditions such as metabolic syndrome and diabetes mellitus; (ii) allergic and autoimmune diseases, and (iii) gastrointestinal disorders (such as, e.g., inflammatory bowel disease (IBD), ulcerative colitis, Crohn's disease, and celiac disease).Type: GrantFiled: October 17, 2017Date of Patent: May 19, 2020Assignee: NEW YORK UNIVERSITYInventors: Laura M. Cox, Martin J. Blaser
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Publication number: 20180125900Abstract: The application relates to methods based on modulating mammalian intestinal microbiota and related probiotic and prebiotic compositions. Specifically, the application relates to the use of novel bacterial genera Ileibacterium and Dubosiella, including their species I. valens (I. valens) and Dubosiella newyorkensis (D. newy), respectively, and closely related OTUs within the family Erysipelotrichaceae that resemble either Ileibacterium spp. or Dubosiella spp. with 90% 16S rRNA sequence identity, for modulating weight and intestinal inflammation and immunity (including modulating intestinal immune gene expression such as, e.g., modulating expression of ROR?T, IL-17A, IL-17F, RegIII?, Relm?, and Def?), as well as for treatment and diagnosis of (i) obesity and related conditions such as metabolic syndrome and diabetes mellitus; (ii) allergic and autoimmune diseases, and (iii) gastrointestinal disorders (such as, e.g., inflammatory bowel disease (IBD), ulcerative colitis, Crohn's disease, and celiac disease).Type: ApplicationFiled: October 17, 2017Publication date: May 10, 2018Applicant: New York UniversityInventors: Laura M. Cox, Martin J. Blaser
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Publication number: 20180028576Abstract: The present invention relates to characterizing changes in mammalian bacterial gastrointestinal, cutaneous and nasal microbiota associated with antibiotic treatment and various disease conditions (such as asthma, allergy, obesity, metabolic syndrome, gastrointestinal reflux disease (GERD), eosinophilic esophagitis, gastro-esophageal junction adenocarcinomas (GEJAC), infections due to bacteria that are resistant to antibiotics, including Methicillin-resistant Staphylococcus aureus (MRSA), Clostridium difficile, vancomycin-resistant enterococci, etc.) and related diagnostic and therapeutic methods. Therapeutic methods of the invention involve the use of live bacterial inoculants that are capable of restoring healthy mammalian bacterial gastrointestinal, skin, and nasal microbiota.Type: ApplicationFiled: March 10, 2017Publication date: February 1, 2018Applicant: New York UniversityInventors: Martin J. BLASER, Ilseung Cho, Laura M. Cox
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Publication number: 20170151290Abstract: The present invention relates to characterizing changes in mammalian intestinal microbiota associated with associated with high-fat and low-fat diets and with diets containing hydroxypropylmethylcellulose (HPMC) and related methods for diagnosing, preventing and treating obesity and related conditions such as metabolic syndrome and diabetes mellitus. Therapeutic methods of the invention involve the use of probiotics, and/or prebiotics, and/or narrow spectrum antibiotics/anti-bacterial agents that are capable of restoring healthy mammalian bacterial intestinal microbiota.Type: ApplicationFiled: July 11, 2016Publication date: June 1, 2017Applicant: New York UniversityInventors: Martin J. BLASER, Laura Cox, llseung Cho
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Patent number: 9603876Abstract: The present invention relates to characterizing changes in mammalian bacterial gastrointestinal, cutaneous and nasal microbiota associated with antibiotic treatment and various disease conditions (such as asthma, allergy, obesity, metabolic syndrome, gastrointestinal reflux disease (GERD), eosinophilic esophagitis, gastro-esophageal junction adenocarcinomas (GEJAC), infections due to bacteria that are resistant to antibiotics, including Methicillin-resistant Staphylococcus aureus (MRSA), Clostridium difficile, vancomycin-resistant enterococci, etc.) and related diagnostic and therapeutic methods. Therapeutic methods of the invention involve the use of live bacterial inoculants that are capable of restoring healthy mammalian bacterial gastrointestinal, skin, and nasal microbiota.Type: GrantFiled: September 25, 2009Date of Patent: March 28, 2017Assignee: New York UniversityInventors: Martin J. Blaser, Ilseung Cho, Laura M. Cox
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Patent number: 9386793Abstract: The present invention relates to characterizing changes in mammalian intestinal microbiota associated with associated with high-fat and low-fat diets and with diets containing hydroxypropylmethylcellulose (HPMC) and related methods for diagnosing, preventing and treating obesity and related conditions such as metabolic syndrome and diabetes mellitus. Therapeutic methods of the invention involve the use of probiotics, and/or prebiotics, and/or narrow spectrum antibiotics/anti-bacterial agents that are capable of restoring healthy mammalian bacterial intestinal microbiota.Type: GrantFiled: August 19, 2011Date of Patent: July 12, 2016Assignee: New York UniversityInventors: Martin J. Blaser, Laura Cox, Ilseung Cho
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Publication number: 20160120915Abstract: The present invention relates to characterizing changes in mammalian microbiota associated with antibiotic treatments and various immunological conditions and related therapeutic methods. Therapeutic methods of the invention involve the use of probiotics, prebiotics, synbiotics, and antibiotics.Type: ApplicationFiled: June 10, 2014Publication date: May 5, 2016Applicant: New York UniversityInventors: Martin J. BLASER, Shingo YAMANISHI, Laura M. COX, Victoria E. RUIZ, Alexandra E. LIVANOS
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Patent number: 8951512Abstract: The present invention relates to characterizing changes in mammalian gastrointestinal microbiota associated with antibiotic treatment and various disease conditions (such as obesity, metabolic syndrome, insulin-deficiency or insulin-resistance related disorders, glucose intolerance, diabetes, non-alcoholic fatty liver, abnormal lipid metabolism, short stature, osteoporosis, and other disorders of bone formation and mineralization, etc.) and related diagnostic and therapeutic methods. Therapeutic methods of the invention involve the use of probiotics, prebiotics, or narrow spectrum antibiotics/anti-bacterial agents that are capable of restoring healthy mammalian bacterial gastrointestinal microbiota.Type: GrantFiled: May 4, 2011Date of Patent: February 10, 2015Assignee: New York UniversityInventors: Martin J. Blaser, Ilseung Cho, Laura Cox
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Publication number: 20150037285Abstract: The present invention relates to methods for transferring gastrointestinal microbiota that preserves viability and bioactivity of the microbiota, even if fastidious, anaerobic, and non-culturable organisms are present. Also provided herein are examples of how manipulating the gastrointestinal microbiota and introducing particular taxa can be used to affect host metabolic status related to weight, fat, and obesity.Type: ApplicationFiled: July 3, 2014Publication date: February 5, 2015Applicant: NEW YORK UNIVERSITYInventors: Martin J. BLASER, Laura M. COX
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Patent number: 8529892Abstract: The present invention relates to methods for characterization of bacterial skin microbiota to provide diagnostic, therapeutic, and preventive measures for alleviating skin conditions. In certain embodiments, the invention relates to characterization of bacterial skin microbiota associated with psoriasis and related diagnostic, therapeutic, and preventive measures for alleviating psoriasis. These methods will be useful for detecting, diagnosing, and monitoring individuals who have or are at risk of certain skin conditions.Type: GrantFiled: February 24, 2011Date of Patent: September 10, 2013Assignee: New York UniversityInventors: Martin J. Blaser, Zhan Gao
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Publication number: 20120171193Abstract: The present invention relates to methods for characterization of bacterial skin microbiota to provide diagnostic, therapeutic, and preventive measures for alleviating skin conditions. In certain embodiments, the invention relates to characterization of bacterial skin microbiota associated with psoriasis and related diagnostic, therapeutic, and preventive measures for alleviating psoriasis. These methods will be useful for detecting, diagnosing, and monitoring individuals who have or are at risk of certain skin conditions.Type: ApplicationFiled: February 24, 2011Publication date: July 5, 2012Applicant: New York UniversityInventors: Martin J. Blaser, Zhan Gao
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Publication number: 20120157522Abstract: The present invention pertains to the discovery that B. anthracis possesses a luxS gene that encodes a functional LuxS polypeptide, and that B. anthracis synthesizes a functional AI-2 quorum-sensing molecule. The invention provides mutant B. anthracis bacteria lacking the function of the luxS gene, which do not produce a functional AI-2 molecule and have growth defects compared to wild-type B. anthracis. The invention also concerns methods for inhibiting the growth of B. anthracis, or for preventing or treating B. anthracis infection, by inhibiting the activity of the B. anthracis LuxS polypeptide, or by exposure of the B. anthracis to furanone. In particular, the invention concerns the use of furanone, a compound that inhibits AI-2-mediated quorum-sensing, to inhibit the growth of B. anthracis, to inhibit B. anthracis toxin production, particularly that of protective antigen, and to prevent or treat B. anthracis infection. The invention also provides methods to prevent B.Type: ApplicationFiled: April 21, 2011Publication date: June 21, 2012Applicants: UNIVERSITY OF CONNECTICUT, NEW YORK UNIVERSITYInventors: Marcus B. Jones, Martin J. Blaser, Thomas Wood, Dacheng Ren
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Publication number: 20120058094Abstract: The present invention relates to characterizing changes in mammalian intestinal microbiota associated with associated with high-fat and low-fat diets and with diets containing hydroxypropylmethylcellulose (HPMC) and related methods for diagnosing, preventing and treating obesity and related conditions such as metabolic syndrome and diabetes mellitus. Therapeutic methods of the invention involve the use of probiotics, and/or prebiotics, and/or narrow spectrum antibiotics/anti-bacterial agents that are capable of restoring healthy mammalian bacterial intestinal microbiota.Type: ApplicationFiled: August 19, 2011Publication date: March 8, 2012Applicants: DOW GLOBAL TECHNOLOGIES LLC, NEW YORK UNIVERSITYInventors: Martin J. Blaser, Laura Nondorf, Ilseung Cho, Bart Waters
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Publication number: 20110280840Abstract: The present invention relates to characterizing changes in mammalian gastrointestinal microbiota associated with antibiotic treatment and various disease conditions (such as obesity, metabolic syndrome, insulin-deficiency or insulin-resistance related disorders, glucose intolerance, diabetes, non-alcoholic fatty liver, abnormal lipid metabolism, short stature, osteoporosis, and other disorders of bone formation and mineralization, etc.) and related diagnostic and therapeutic methods. Therapeutic methods of the invention involve the use of probiotics, prebiotics, or narrow spectrum antibiotics/anti-bacterial agents that are capable of restoring healthy mammalian bacterial gastrointestinal microbiota.Type: ApplicationFiled: May 4, 2011Publication date: November 17, 2011Applicant: NEW YORK UNIVERSITYInventors: Martin J. Blaser, IIseung Cho, Laura Nonodorf
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Patent number: 7955596Abstract: The present invention pertains to the discovery that B. anthracis possesses a luxS gene that encodes a functional LuxS polypeptide, and that B. anthracis synthesizes a functional AI-2 quorum-sensing molecule. The invention provides mutant B. anthracis bacteria lacking the function of the luxS gene, which do not produce a functional AI-2 molecule and have growth defects compared to wild-type B. anthracis. The invention also concerns methods for inhibiting the growth of B. anthracis, or for preventing or treating B. anthracis infection, by inhibiting the activity of the B. anthracis LuxS polypeptide, or by exposure of the B. anthracis to furanone. In particular, the invention concerns the use of furanone, a compound that inhibits AI-2-mediated quorum-sensing, to inhibit the growth of B. anthracis, to inhibit B. anthracis toxin production, particularly that of protective antigen, and to prevent or treat B. anthracis infection. The invention also provides methods to prevent B.Type: GrantFiled: March 7, 2008Date of Patent: June 7, 2011Assignees: New York University, University of ConnecticutInventors: Marcus B. Jones, Martin J. Blaser, Thomas Wood, Dacheng Ren
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Patent number: 7919250Abstract: The present invention relates to methods for characterization of bacterial skin microbiota to provide diagnostic, therapeutic, and preventive measures for alleviating skin conditions. In certain embodiments, the invention relates to characterization of bacterial skin microbiota associated with psoriasis and related diagnostic, therapeutic, and preventive measures for alleviating psoriasis. These methods will be useful for detecting, diagnosing, and monitoring individuals who have or are at risk of certain skin conditions.Type: GrantFiled: July 31, 2008Date of Patent: April 5, 2011Assignee: New York UniversityInventors: Martin J. Blaser, Zhan Gao
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Publication number: 20100074872Abstract: The present invention relates to characterizing changes in mammalian bacterial gastrointestinal, cutaneous and nasal microbiota associated with antibiotic treatment and various disease conditions (such as asthma, allergy, obesity, metabolic syndrome, gastrointestinal reflux disease (GERD), eosinophilic esophagitis, gastro-esophageal junction adenocarcinomas (GEJAC), infections due to bacteria that are resistant to antibiotics, including Methicillin-resistant Staphylococcus aureus (MRSA), Clostridium difficile, vancomycin-resistant enterococci, etc.) and related diagnostic and therapeutic methods. Therapeutic methods of the invention involve the use of live bacterial inoculants that are capable of restoring healthy mammalian bacterial gastrointestinal, skin, and nasal microbiota.Type: ApplicationFiled: September 25, 2009Publication date: March 25, 2010Applicant: NEW YORK UNIVERSITYInventors: Martin J. Blaser, Ilseung Cho
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Publication number: 20090035329Abstract: The present invention relates to methods for characterization of bacterial skin microbiota to provide diagnostic, therapeutic, and preventive measures for alleviating skin conditions. In certain embodiments, the invention relates to characterization of bacterial skin microbiota associated with psoriasis and related diagnostic, therapeutic, and preventive measures for alleviating psoriasis. These methods will be useful for detecting, diagnosing, and monitoring individuals who have or are at risk of certain skin conditions.Type: ApplicationFiled: July 31, 2008Publication date: February 5, 2009Applicant: NEW YORK UNIVERSITYInventors: Martin J. Blaser, Zhan Gao
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Publication number: 20080299153Abstract: The present invention pertains to the discovery that B. anthracis possesses a luxS gene that encodes a functional LuxS polypeptide, and that B. anthracis synthesizes a functional AI-2 quorum-sensing molecule. The invention provides mutant B. anthracis bacteria lacking the function of the luxS gene, which do not produce a functional AI-2 molecule and have growth defects compared to wild-type B. anthracis. The invention also concerns methods for inhibiting the growth of B. anthracis, or for preventing or treating B. anthracis infection, by inhibiting the activity of the B. anthracis LuxS polypeptide, or by exposure of the B. anthracis to furanone. In particular, the invention concerns the use of furanone, a compound that inhibits AI-2-mediated quorum-sensing, to inhibit the growth of B. anthracis, to inhibit B. anthracis toxin production, particularly that of protective antigen, and to prevent or treat B. anthracis infection. The invention also provides methods to prevent B.Type: ApplicationFiled: March 7, 2008Publication date: December 4, 2008Applicants: NEW YORK UNIVERSITY, UNIVERSITY OF CONNECTICUTInventors: Marcus B. Jones, Martin J. Blaser, Thomas Wood, Dacheng Ren
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Patent number: 7365184Abstract: The present invention pertains to the discovery that B. anthracis possesses a luxS gene that encodes a functional LuxS polypeptide, and that B. anthracis synthesizes a functional AI-2 quorum-sensing molecule. The invention provides mutant B. anthracis bacteria lacking the function of the luxS gene, which do not produce a functional AI-2 molecule and have growth defects compared to wild-type B. anthracis. The invention also concerns methods for inhibiting the growth of B. anthracis, or for preventing or treating B. anthracis infection, by inhibiting the activity of the B. anthracis LuxS polypeptide, or by exposure of the B. anthracis to furanone. In particular, the invention concerns the use of furanone, a compound that inhibits AI-2-mediated quorum-sensing, to inhibit the growth of B. anthracis, to inhibit B. anthracis toxin production, particularly that of protective antigen, and to prevent or treat B. anthracis infection. The invention also provides methods to prevent B.Type: GrantFiled: April 12, 2004Date of Patent: April 29, 2008Assignee: New York UniversityInventors: Marcus B. Jones, Martin J. Blaser, Thomas Wood, Dacheng Ren