Patents by Inventor Valeria REVILLA
Valeria REVILLA 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).
-
Publication number: 20220186208Abstract: Disclosed herein are methods and devices for preparing a sample of nucleic acid molecules from a biological sample. The methods and devices may perform similarly to or better than standard sample preparation methods. The nucleic acid molecules prepared using the methods and devices provided herein may be utilized for downstream applications, including polymerase chain reaction (PCR).Type: ApplicationFiled: October 22, 2021Publication date: June 16, 2022Inventors: David D. SWENSON, Gregory C. LONEY, Valeria REVILLA, Adrienne C. LAM, Helen HUANG, Colin KELLY, Victor BRIONES, Brian CIOPYK, Boris ANDREYEV, Adam DE LA ZERDA, Keith MORAVICK, Jesus CHING, Jennifer ALBRECHT, Ryan CENA, Edward BIBA, Jonathan HONG
-
Patent number: 11193119Abstract: Disclosed herein are methods and devices for preparing a sample of nucleic acid molecules from a biological sample. The methods and devices may perform similarly to or better than standard sample preparation methods. The nucleic acid molecules prepared using the methods and devices provided herein may be utilized for downstream applications, including polymerase chain reaction (PCR).Type: GrantFiled: November 9, 2018Date of Patent: December 7, 2021Assignee: Visby Medical, Inc.Inventors: David D. Swenson, Gregory C. Loney, Valeria Revilla, Adrienne C. Lam, Helen Huang, Colin Kelly, Victor Briones, Brian Ciopyk, Boris Andreyev, Adam De La Zerda, Keith Moravick, Jesus Ching, Jennifer Albrecht, Ryan Cena, Edward Biba, Jonathan Hong
-
Publication number: 20200406257Abstract: A method includes conveying a detection solution containing a target amplicon into a detection module of a molecular diagnostic test device. The detection module includes a detection surface including a series of capture probes to which a first portion of the target amplicon is bound when the detection solution is conveyed. A first reagent formulated to produce a visible signal indicating a presence of the target amplicon is then conveyed into the detection module. The first reagent is bound to a second portion of the target amplicon when the first reagent is conveyed. A second reagent is conveyed into the detection module. The second reagent includes a precipitating substrate formulated to catalyze the production of the visible signal by producing an insoluble colored product when the second reagent is in contact with the first reagent. The method includes viewing the visible signal via a transparent portion of the detection module.Type: ApplicationFiled: September 16, 2020Publication date: December 31, 2020Applicant: Visby Medical, Inc.Inventors: Boris ANDREYEV, Rajinder K. BHATIA, Victor BRIONES, Phoebe CAO, Jesus CHING, Brian CIOPYK, Adam DE LA ZERDA, Jonathan H. HONG, Helen HUANG, Colin KELLY, Adrienne C. LAM, Gregory C. LONEY, Danielle MCSHEERY, Keith E. MORAVICK, Valeria REVILLA, Shaunak ROY, David D. SWENSON
-
Publication number: 20200346213Abstract: A method includes conveying a detection solution containing a target amplicon into a detection module of a molecular diagnostic test device. The detection module includes a detection surface including a series of capture probes to which a first portion of the target amplicon is bound when the detection solution is conveyed. A first reagent formulated to produce a visible signal indicating a presence of the target amplicon is then conveyed into the detection module. The first reagent is bound to a second portion of the target amplicon when the first reagent is conveyed. A second reagent is conveyed into the detection module. The second reagent includes a precipitating substrate formulated to catalyze the production of the visible signal by producing an insoluble colored product when the second reagent is in contact with the first reagent. The method includes viewing the visible signal via a transparent portion of the detection module.Type: ApplicationFiled: June 3, 2020Publication date: November 5, 2020Applicant: Visby Medical, Inc.Inventors: Boris ANDREYEV, Rajinder K. BHATIA, Victor BRIONES, Phoebe CAO, Jesus CHING, Brian CIOPYK, Adam DE LA ZERDA, Jonathan H. HONG, Helen HUANG, Colin KELLY, Adrienne C. LAM, Gregory LONEY, Danielle MCSHEERY, Keith E. MORAVICK, Valeria REVILLA, Shaunak ROY, David D. SWENSON
-
Patent number: 10675623Abstract: A method includes conveying a detection solution containing a target amplicon into a detection module of a molecular diagnostic test device. The detection module includes a detection surface including a series of capture probes to which a first portion of the target amplicon is bound when the detection solution is conveyed. A first reagent formulated to produce a visible signal indicating a presence of the target amplicon is then conveyed into the detection module. The first reagent is bound to a second portion of the target amplicon when the first reagent is conveyed. A second reagent is conveyed into the detection module. The second reagent includes a precipitating substrate formulated to catalyze the production of the visible signal by producing an insoluble colored product when the second reagent is in contact with the first reagent. The method includes viewing the visible signal via a transparent portion of the detection module.Type: GrantFiled: December 21, 2018Date of Patent: June 9, 2020Assignee: Visby Medical, Inc.Inventors: Boris Andreyev, Rajinder K. Bhatia, Victor Briones, Phoebe Cao, Jesus Ching, Brian Ciopyk, Adam De La Zerda, Jonathan H. Hong, Helen Huang, Colin Kelly, Adrienne C. Lam, Gregory Loney, Danielle McSheery, Keith E. Moravick, Valeria Revilla, Shaunak Roy, David D. Swenson
-
Publication number: 20200086324Abstract: Disclosed herein are methods and devices for preparing a sample of nucleic acid molecules from a biological sample. The methods and devices may perform similarly to or better than standard sample preparation methods. The nucleic acid molecules prepared using the methods and devices provided herein may be utilized for downstream applications, including polymerase chain reaction (PCR).Type: ApplicationFiled: December 27, 2018Publication date: March 19, 2020Inventors: David D. Swenson, Adam De La Zerda, Gregory C. Loney, Valeria Revilla, Victor Briones, Boris Andreyev, Adrienne C. Lam, Brian Ciopyk, Helen Huang, Keith Moravick, Colin Kelly, Jesus Ching, Jennifer Albrecht, Ryan Cena, Edward Biba, Jonathan Hong
-
Publication number: 20190151844Abstract: A method includes conveying a detection solution containing a target amplicon into a detection module of a molecular diagnostic test device. The detection module includes a detection surface including a series of capture probes to which a first portion of the target amplicon is bound when the detection solution is conveyed. A first reagent formulated to produce a visible signal indicating a presence of the target amplicon is then conveyed into the detection module. The first reagent is bound to a second portion of the target amplicon when the first reagent is conveyed. A second reagent is conveyed into the detection module. The second reagent includes a precipitating substrate formulated to catalyze the production of the visible signal by producing an insoluble colored product when the second reagent is in contact with the first reagent. The method includes viewing the visible signal via a transparent portion of the detection module.Type: ApplicationFiled: December 21, 2018Publication date: May 23, 2019Applicant: Click Diagnostics, Inc.Inventors: Boris ANDREYEV, Rajinder K. BHATIA, Victor BRIONES, Phoebe CAO, Jesus CHING, Brian CIOPYK, Adam DE LA ZERDA, Jonathan H. HONG, Helen HUANG, Colin KELLY, Adrienne C. LAM, Gregory LONEY, Danielle MCSHEERY, Keith E. MORAVICK, Valeria REVILLA, Shaunak ROY, David D. SWENSON
-
Publication number: 20190136226Abstract: Disclosed herein are methods and devices for preparing a sample of nucleic acid molecules from a biological sample. The methods and devices may perform similarly to or better than standard sample preparation methods. The nucleic acid molecules prepared using the methods and devices provided herein may be utilized for downstream applications, including polymerase chain reaction (PCR).Type: ApplicationFiled: November 9, 2018Publication date: May 9, 2019Inventors: David D. SWENSON, Gregory C. LONEY, Valeria REVILLA, Adrienne C. LAM, Helen HUANG, Colin KELLY, Victor BRIONES, Brian CIOPYK, Boris ANDREYEV, Adam DE LA ZERDA, Keith MORAVICK, Jesus CHING, Jennifer ALBRECHT, Ryan CENA, Edward BIBA, Jonathan HONG