Patents by Inventor Henrik Stender
Henrik Stender 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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Publication number: 20210189511Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-ACG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No.Type: ApplicationFiled: September 23, 2020Publication date: June 24, 2021Inventors: Jens J. HYLDIG-NIELSEN, Henrik STENDER, Kenneth M. OLIVEIRA, Susan RIGBY
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Patent number: 10808288Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-AGG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No.Type: GrantFiled: August 28, 2017Date of Patent: October 20, 2020Assignee: APPLIED BIOSYSTEMS, LLCInventors: Jens J. Hyldig-Nielsen, Henrik Stender, Kenneth M. Oliveira, Susan Rigby
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Publication number: 20200248132Abstract: The present disclosure relates to a method for attaching, detecting and retrieving a single cell on a manipulation medium comprising the steps of: attaching the single cell onto the manipulation medium by applying a carrier liquid; partially drying out the carrier liquid; detecting a property of the single cell by rotating the manipulation medium and scanning a light beam over the manipulation medium; loosening the single cell from the manipulation medium without damaging the single cell by manipulating the single cell with an instrument; and retrieving the single cell from the manipulation medium by aspirating the single cell into a tube, wherein the carrier liquid is dried out to a degree corresponding to that the single cell does not move during the rotation of the manipulation medium and that the single cell can be loosened by the instrument without damaging the single cell.Type: ApplicationFiled: April 23, 2020Publication date: August 6, 2020Inventors: Tom Hede Markussen, Lars Ulrik Nielsen, Robert Naumovski, Anders Skærlund Frandsen, Henrik Stender
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Patent number: 10662403Abstract: The present disclosure relates to a method for attaching, detecting and retrieving a single cell on a manipulation medium comprising the steps of: attaching the single cell onto the manipulation medium by applying a carrier liquid; partially drying out the carrier liquid; detecting a property of the single cell by rotating the manipulation medium and scanning a light beam over the manipulation medium; loosening the single cell from the manipulation medium without damaging the single cell by manipulating the single cell with an instrument; and retrieving the single cell from the manipulation medium by aspirating the single cell into a tube, wherein the carrier liquid is dried out to a degree corresponding to that the single cell does not move during the rotation of the manipulation medium and that the single cell can be loosened by the instrument without damaging the single cell. The disclosure further relates to an apparatus for detection and manipulation of one or more object(s).Type: GrantFiled: March 21, 2016Date of Patent: May 26, 2020Assignee: CytoTrack ApSInventors: Tom Hede Markussen, Lars Ulrik Nielsen, Robert Naumovski, Anders Skærlund Frandsen, Henrik Stender
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Publication number: 20180171391Abstract: This invention is directed to methods and compositions for sorting and/or determining microscopic organisms or cells. The methods and compositions are directed to the use of molecular probes to selectively stain the organisms or cells in combination with the use of binding partners to selectively immobilize the stained organisms or cells to a solid carrier. By combining the selectivity of both molecular probes and binding partners in an orthogonal method for staining and immobilization, these methods and compositions increase both the discriminating power of the assays and/or the certainty of the result obtained therefrom.Type: ApplicationFiled: February 7, 2018Publication date: June 21, 2018Inventors: James M. COULL, Henrik STENDER, Brian D. GILDEA
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Publication number: 20180119086Abstract: The present disclosure relates to a method for attaching, detecting and retrieving a single cell on a manipulation medium comprising the steps of: attaching the single cell onto the manipulation medium by applying a carrier liquid; partially drying out the carrier liquid; detecting a property of the single cell by rotating the manipulation medium and scanning a light beam over the manipulation medium; loosening the single cell from the manipulation medium without damaging the single cell by manipulating the single cell with an instrument; and retrieving the single cell from the manipulation medium by aspirating the single cell into a tube, wherein the carrier liquid is dried out to a degree corresponding to that the single cell does not move during the rotation of the manipulation medium and that the single cell can be loosened by the instrument without damaging the single cell.Type: ApplicationFiled: March 21, 2016Publication date: May 3, 2018Inventors: Tom Hede Markussen, Lars Ulrik Nielsen, Robert Naumovski, Anders Skærlund Frandsen, Henrik Stender
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Publication number: 20180010199Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-AGG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No.Type: ApplicationFiled: August 28, 2017Publication date: January 11, 2018Inventors: Jens J. HYLDIG-NIELSEN, Henrik STENDER, Kenneth M. OLIVEIRA, Susan RIGBY
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Patent number: 9765405Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-AGG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No.Type: GrantFiled: December 15, 2014Date of Patent: September 19, 2017Assignee: Applied Biosystems, LLCInventors: Jens J. Hyldig-Nielsen, Henrik Stender, Kenneth M. Oliveira, Susan Rigby
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Patent number: 9663827Abstract: The present invention relates to peptide nucleic acid (PNA) probes, PNA probe sets and methods for the analysis of Gram positive and Gram negative organisms optionally present in a sample. The invention further relates to diagnostic kits comprising such PNA probes.Type: GrantFiled: October 1, 2013Date of Patent: May 30, 2017Assignee: AdvanDx, Inc.Inventors: Janeen R. Shepard, Mark Fiandaca, Henrik Stender
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Publication number: 20160257997Abstract: This application pertains to methods for the whole-cell analysis of gram-positive bacteria. The methods are capable of making a determination of whether or not a sample (e.g., a clinical sample) comprises one or more select gram-positive bacteria as well as, for example, whether or not none, some or all of said select gram-positive bacteria in said sample, or possibly other bacteria in said sample, possess a select trait or traits of interest. In some embodiments, the methods can be used to determine methicillin-resistant (the select trait) staphylococcus aureus (the select gram-positive bacteria), coagulase-negative staphylococci (another select gram-positive bacteria) and/or methicillin-sensitive staphylococcus aureus (MSSA) in said sample. The whole-cell analysis can be performed, for example, by in-situ hybridization (ISH), fluorescence in-situ hybridization (FISH), immunocytochemistry (ICC), or any combination of two or more of the foregoing.Type: ApplicationFiled: October 13, 2015Publication date: September 8, 2016Applicant: AdvanDx, Inc.Inventors: Henrik Stender, Jan Trnovsky, Lisa L. Klimas, Anne K.I. Rasmussen
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Patent number: 9428810Abstract: This invention relates to methods, articles and compositions useful in detecting target substances in an alcoholic preservative solution, and for identifying sensors useful for binding to such targets. The methods allow for the simultaneous performance of sufficient fixation of a sample and binding of a detectable sensor to a target of interest in the sample. In one aspect, a method is provided that comprises contacting a sample suspected of containing a target with a detectable sensor molecule known to bind to such target in an alcoholic preservative solution. The method maybe performed in multiplex form to permit simultaneous analysis of a plurality of targets. Methods for identifying a sensor capable of binding to a desired target in an alcoholic preservative solution are also provided. An alcoholic preservative solution comprising one or more such detectable sensors is also provided. Also provided is a sample comprising a bound sensor provided by such a process.Type: GrantFiled: March 20, 2009Date of Patent: August 30, 2016Assignee: Hologic, Inc.Inventors: James Linder, Menashi Cohenford, Erin Coffman, Brian B. Lentrichia, Henrik Stender, Kenneth Oliveira
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Publication number: 20160138090Abstract: This application pertains to methods for the whole-cell analysis of intracellular bacteria. The methods are capable of making a determination of whether or not a sample (e.g. a clinical sample) comprises one or more select bacteria within host cells, for example, predatory host cells such as phagocytic cells. The method is performed on substantial intact bacteria and may be performed without the use of permeabilising or lysis reagents and using PNA probes. Furthermore, the application pertains to in situ hybridization methods for Gram-positive bacteria performed using buffered saline for hybridization.Type: ApplicationFiled: June 12, 2014Publication date: May 19, 2016Inventor: Henrik Stender
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Publication number: 20150344939Abstract: This invention is directed to methods and compositions for sorting and/or determining microscopic organisms or cells. The methods and compositions are directed to the use of molecular probes to selectively stain the organisms or cells in combination with the use of binding partners to selectively immobilize the stained organisms or cells to a solid carrier. By combining the selectivity of both molecular probes and binding partners in an orthogonal method for staining and immobilization, these methods and compositions increase both the discriminating power of the assays and/or the certainty of the result obtained therefrom.Type: ApplicationFiled: June 15, 2015Publication date: December 3, 2015Inventors: James M. COULL, Henrik Stender, Brian D. Gildea
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Publication number: 20150176086Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-AGG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No.Type: ApplicationFiled: December 15, 2014Publication date: June 25, 2015Inventors: Jens J. Hyldig-Nielsen, Henrik Stender, Kenneth M. Oliveira, Susan Rigby
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Patent number: 8912312Abstract: This invention is related to novel PNA probes, probe sets, methods and kits pertaining to the detection of one or more species of Candida yeast. Non-limiting examples of probing nucleobase sequences that can be used for the probes of this invention can be selected from the group consisting of: AGA-GAG-CAG-CAT-GCA (Seq. Id. No. 1), AGA-GAG-CAA-CAT-GCA (Seq. Id. No. 2), ACA-GCA-GAA-GCC-GTG (Seq. Id. No. 3), CAT-AAA-TGG-CTA-CCA-GA (Seq. Id. No. 4), CAT-AAA-TGG-CTA-CCC-AG (Seq. Id. No. 5), ACT-TGG-AGT-CGA-TAG (Seq. Id. No. 6), CCA-AGG-CTT-ATA-CTC-GC (Seq. Id. No. 7), CCC-CTG-AAT-CGG-GAT (Seq. Id. No. 8), GAC-GCC-AAA-GAC-GCC (Seq. Id. No. 9), ATC-GTC-AGA-GGC-TAT-AA (Seq. Id. No. 10), TAG-CCA-GAA-GAA-AGG (Seq. Id. No. 11), CAT-AAA-TGG-CTA-GCC-AG (Seq. Id. No. 12), CTC-CGA-TGT-GAC-TGC-G (Seq. Id. No. 13), TCC-CAG-ACT-GCT-CGG (Seq. Id. No. 14), TCC-AAG-AGG-TCG-AGA (Seq. Id. No. 15), GCC-AAG-CCA-CAA-GGA (Seq. Id. No. 16), GCC-GCC-AAG-CCA-CA (Seq. Id. No. 17), GGA-CTT-GGG-GTT-AG (Seq. Id. No.Type: GrantFiled: August 10, 2011Date of Patent: December 16, 2014Assignee: Boston Probes, Inc.Inventors: Jens J. Hyldig-Nielsen, Henrik Stender, Kenneth M. Oliveira, Susan Rigby
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Publication number: 20140342356Abstract: Provided herein are methods, kits and compositions to classify fungi. Methods are provided for classification of fungi according to established phenotypes, for example, antimicrobial susceptibility profiles. More specifically, the invention provides methods for the use of PNA probes in diagnostic applications, which will aid in the direction of appropriate therapy against fungi.Type: ApplicationFiled: June 26, 2014Publication date: November 20, 2014Applicant: AdvanDx, Inc.Inventors: Henrik Stender, Mark Fiandaca
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Publication number: 20140315733Abstract: This invention is directed to methods and compositions for sorting and/or determining microscopic organisms or cells. The methods and compositions are directed to the use of molecular probes to selectively stain the organisms or cells in combination with the use of binding partners to selectively immobilize the stained organisms or cells to a solid carrier. By combining the selectivity of both molecular probes and binding partners in an orthogonal method for staining and immobilization, these methods and compositions increase both the discriminating power of the assays and/or the certainty of the result obtained therefrom.Type: ApplicationFiled: December 6, 2013Publication date: October 23, 2014Applicant: BOSTON PROBES, INC.Inventors: James M. COULL, Henrik STENDER, Brian D. GILDEA
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Patent number: 8795972Abstract: Provided herein are methods, kits and compositions to classify fungi. Methods are provided for classification of fungi according to established phenotypes, for example, antimicrobial susceptibility profiles. More specifically, the invention provides methods for the use of PNA probes in diagnostic applications, which will aid in the direction of appropriate therapy against fungi.Type: GrantFiled: October 15, 2008Date of Patent: August 5, 2014Assignee: AdvanDx, Inc.Inventors: Mark Fiandaca, Henrik Stender
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Publication number: 20140121287Abstract: The present invention relates to peptide nucleic acid (PNA) probes, PNA probe sets and methods for the analysis of Gram positive and Gram negative organisms optionally present in a sample. The invention further relates to diagnostic kits comprising such PNA probes.Type: ApplicationFiled: October 1, 2013Publication date: May 1, 2014Inventors: Janeen R. Shepard, Mark Fiandaca, Henrik Stender
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Publication number: 20130345082Abstract: The present invention relates to peptide nucleic acid (PNA) probes, PNA probe sets and methods for the analysis of certain Staphylococcus species optionally present in a sample. The invention further relates to diagnostic kits comprising such PNA probes or PNA probe sets.Type: ApplicationFiled: July 31, 2013Publication date: December 26, 2013Applicant: ADVANDX, INC.Inventors: Henrik Stender, Mark Fiandaca, Kenneth Oliveira, Elizabeth Bergeron