Patents by Inventor Zachary Demko
Zachary Demko 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: 20240132960Abstract: The present disclosure provides methods of amplifying and sequencing DNA, comprising: extracting cell-free DNA from a blood, plasma, serum or urine sample of a transplant recipient who has received transplantation of one or more organs including simultaneous or sequential transplantation of multiple organs, wherein the extracted cell-free DNA comprises donor-derived cell-free DNA and recipient-derived cell-free DNA; performing targeted amplification at 200-50,000 target loci in a single reaction volume using 200-50,000 primer pairs, wherein the target loci comprise polymorphic loci and non-polymorphic loci; sequencing the amplification products by high-throughput sequencing to obtain a sequencing reads and quantifying the amount of donor-derived cell-free DNA and the amount of total cell-free DNA based on the sequencing reads; and determining whether the amount of donor-derived cell-free DNA or a function thereof exceeds a cutoff threshold indicating transplant rejection or graft injury.Type: ApplicationFiled: February 24, 2022Publication date: April 25, 2024Applicant: Natera, Inc.Inventors: Zachary DEMKO, Ebad AHMED, Ryan SWENERTON, Paul VAN HUMMELEN
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Publication number: 20240068031Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.Type: ApplicationFiled: September 7, 2023Publication date: February 29, 2024Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Matthew HILL, Bernhard ZIMMERMANN, George GEMELOS, Johan BANER, Milena BANJEVIC, Allison RYAN, Styrmir SIGURJONSSON, Zachary DEMKO
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Publication number: 20240060124Abstract: Methods for non-invasive prenatal paternity testing are disclosed herein. The method uses genetic measurements made on plasma taken from a pregnant mother, along with genetic measurements of the alleged father, and genetic measurements of the mother, to determine whether or not the alleged father is the biological father of the fetus. This is accomplished by way of an informatics based method that can compare the genetic fingerprint of the fetal DNA found in maternal plasma to the genetic fingerprint of the alleged father.Type: ApplicationFiled: July 28, 2023Publication date: February 22, 2024Applicant: Natera, Inc.Inventors: Allison Ryan, Styrmir Sigurjonsson, Milena Banjevic, George Gemelos, Matthew Hill, Johan Baner, Matthew Rabinowitz, Zachary Demko
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Publication number: 20240062846Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: September 21, 2023Publication date: February 22, 2024Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Publication number: 20240038328Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: September 21, 2023Publication date: February 1, 2024Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Publication number: 20240002938Abstract: Disclosed herein is a system and method for increasing the fidelity of measured genetic data, for making allele calls, and for determining the state of aneuploidy, in one or a small set of cells, or from fragmentary DNA, where a limited quantity of genetic data is available. Poorly or incorrectly measured base pairs, missing alleles and missing regions are reconstructed using expected similarities between the target genome and the genome of genetically related individuals. In accordance with one embodiment, incomplete genetic data from an embryonic cell are reconstructed at a plurality of loci using the more complete genetic data from a larger sample of diploid cells from one or both parents, with or without haploid genetic data from one or both parents. In another embodiment, the chromosome copy number can be determined from the measured genetic data, with or without genetic information from one or both parents.Type: ApplicationFiled: September 7, 2023Publication date: January 4, 2024Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Milena BANJEVIC, Zachary DEMKO, David JOHNSON, Dusan KIJACIC, Dimitri PETROV, Joshua SWEETKIND-SINGER, Jing XU
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Publication number: 20230420071Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: September 7, 2023Publication date: December 28, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Publication number: 20230383348Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.Type: ApplicationFiled: March 24, 2023Publication date: November 30, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Matthew HILL, Bernhard ZIMMERMANN, George GEMELOS, Johan BANER, Milena BANJEVIC, Allison RYAN, Styrmir SIGURJONSSON, Zachary DEMKO
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Publication number: 20230368865Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: July 27, 2023Publication date: November 16, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Publication number: 20230360723Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: July 27, 2023Publication date: November 9, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Publication number: 20230343411Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: July 10, 2023Publication date: October 26, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Patent number: 11746376Abstract: Methods for non-invasive prenatal paternity testing are disclosed herein. The method uses genetic measurements made on plasma taken from a pregnant mother, along with genetic measurements of the alleged father, and genetic measurements of the mother, to determine whether or not the alleged father is the biological father of the fetus. This is accomplished by way of an informatics based method that can compare the genetic fingerprint of the fetal DNA found in maternal plasma to the genetic fingerprint of the alleged father.Type: GrantFiled: February 20, 2020Date of Patent: September 5, 2023Assignee: Natera, Inc.Inventors: Matthew Rabinowitz, Matthew Hill, Bernhard Zimmermann, Johan Baner, George Gemelos, Milena Banjevic, Allison Ryan, Styrmir Sigurjonsson, Zachary Demko
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Publication number: 20230212693Abstract: Disclosed herein is a system and method for increasing the fidelity of measured genetic data, for making allele calls, and for determining the state of aneuploidy, in one or a small set of cells, or from fragmentary DNA, where a limited quantity of genetic data is available. Poorly or incorrectly measured base pairs, missing alleles and missing regions are reconstructed using expected similarities between the target genome and the genome of genetically related individuals. In accordance with one embodiment, incomplete genetic data from an embryonic cell are reconstructed at a plurality of loci using the more complete genetic data from a larger sample of diploid cells from one or both parents, with or without haploid genetic data from one or both parents. In another embodiment, the chromosome copy number can be determined from the measured genetic data, with or without genetic information from one or both parents.Type: ApplicationFiled: March 13, 2023Publication date: July 6, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Milena BANJEVIC, Zachary DEMKO, David JOHNSON, Dusan KIJACIC, Dimitri PETROV, Joshua SWEETKIND-SINGER, Jing XU
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Publication number: 20230193387Abstract: Disclosed herein is a system and method for increasing the fidelity of measured genetic data, for making allele calls, and for determining the state of aneuploidy, in one or a small set of cells, or from fragmentary DNA, where a limited quantity of genetic data is available. Poorly or incorrectly measured base pairs, missing alleles and missing regions are reconstructed using expected similarities between the target genome and the genome of genetically related individuals. In accordance with one embodiment, incomplete genetic data from an embryonic cell are reconstructed at a plurality of loci using the more complete genetic data from a larger sample of diploid cells from one or both parents, with or without haploid genetic data from one or both parents. In another embodiment, the chromosome copy number can be determined from the measured genetic data, with or without genetic information from one or both parents.Type: ApplicationFiled: June 9, 2022Publication date: June 22, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Milena BANJEVIC, Zachary DEMKO, David JOHNSON, Dusan KIJACIC, Dimitri PETROV, Joshua SWEETKIND-SINGER, Jing XU
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Patent number: 11591649Abstract: Methods for non-invasive prenatal paternity testing are disclosed herein. The method uses genetic measurements made on plasma taken from a pregnant mother, along with genetic measurements of the alleged father, and genetic measurements of the mother, to determine whether or not the alleged father is the biological father of the fetus. This is accomplished by way of an informatics based method that can compare the genetic fingerprint of the fetal DNA found in maternal plasma to the genetic fingerprint of the alleged father.Type: GrantFiled: February 20, 2020Date of Patent: February 28, 2023Assignee: Natera, Inc.Inventors: Matthew Rabinowitz, Matthew Hill, Bernhard Zimmermann, Johan Baner, George Gemelos, Milena Banjevic, Allison Ryan, Styrmir Sigurjonsson, Zachary Demko
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Publication number: 20230054494Abstract: The present disclosure provides methods for determining the ploidy status of a chromosome in a gestating fetus from genotypic data measured from a mixed sample of DNA comprising DNA from both the mother of the fetus and from the fetus, and optionally from genotypic data from the mother and father. The ploidy state is determined by using a joint distribution model to create a plurality of expected allele distributions for different possible fetal ploidy states given the parental genotypic data, and comparing the expected allelic distributions to the pattern of measured allelic distributions measured in the mixed sample, and choosing the ploidy state whose expected allelic distribution pattern most closely matches the observed allelic distribution pattern. The mixed sample of DNA may be preferentially enriched at a plurality of polymorphic loci in a way that minimizes the allelic bias, for example using massively multiplexed targeted PCR.Type: ApplicationFiled: September 15, 2022Publication date: February 23, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, George GEMELOS, Milena BANJEVIC, Allison RYAN, Zachary DEMKO, Matthew HILL, Bernhard ZIMMERMANN, Johan BANER
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Publication number: 20230053752Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.Type: ApplicationFiled: July 19, 2022Publication date: February 23, 2023Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Matthew Micah HILL, Bernhard ZIMMERMANN, Johan BANER, George GEMELOS, Milena BANJEVIC, Allison RYAN, Styrmir SIGURJONSSON, Zachary DEMKO
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Publication number: 20220411875Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.Type: ApplicationFiled: July 19, 2022Publication date: December 29, 2022Applicant: Natera, Inc.Inventors: Matthew RABINOWITZ, Matthew Micah HILL, Bernhard ZIMMERMANN, Johan BANER, George GEMELOS, Milena BANJEVIC, Allison RYAN, Styrmir SIGURJONSSON, Zachary DEMKO
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Patent number: 11525162Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.Type: GrantFiled: March 25, 2020Date of Patent: December 13, 2022Assignee: Natera, Inc.Inventors: Matthew Rabinowitz, Matthew Micah Hill, Bernhard Zimmermann, Johan Baner, George Gemelos, Milena Banjevic, Allison Ryan, Styrmir Sigurjonsson, Zachary Demko
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Patent number: 11519035Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.Type: GrantFiled: July 21, 2020Date of Patent: December 6, 2022Assignee: Natera, Inc.Inventors: Matthew Rabinowitz, Matthew Micah Hill, Bernhard Zimmermann, Johan Baner, George Gemelos, Milena Banjevic, Allison Ryan, Styrmir Sigurjonsson, Zachary Demko