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Jeremy E Schonhorn

from Hopkinton, MA
Age ~60

Jeremy Schonhorn Phones & Addresses

  • 10 Chamberlain St, Hopkinton, MA 01748 (508) 435-0116
  • 2 Baker Ln, Hopkinton, MA 01748 (508) 435-0116
  • Chestnut Hill, MA
  • 33 Pond Ave, Brookline, MA 02445 (617) 739-5049

Work

Company: Kephera diagnostics Mar 2019 Position: Director of product development

Education

School / High School: Harvard School of Public Health 1991 to 1993 Specialities: Biochemistry

Skills

Assay Development • Elisa • Immunoassays • Biotechnology • Protein Purification • Biochemistry • Technology Transfer • Antibodies • Cell Culture • Protein Chemistry • Immunoprecipitation • Cell Fractionation

Industries

Biotechnology

Resumes

Resumes

Jeremy Schonhorn Photo 1

Director Of Product Development

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Location:
Hopkinton, MA
Industry:
Biotechnology
Work:
Kephera Diagnostics
Director of Product Development

Jana Care
Principal Scientist

Diagnostics For All Apr 1, 2012 - Oct 2015
Principal Scientist

Sekisui Diagnostics, Llc Feb 2011 - Apr 2012
Senior Scientist

Sanofi Genzyme Mar 2000 - Jan 2011
Senior Scientist
Education:
Harvard School of Public Health 1991 - 1993
Boston University 1986 - 1992
Doctorates, Doctor of Philosophy, Biochemistry
Carnegie Mellon University 1982 - 1986
Bachelors, Bachelor of Science, Biology
Skills:
Assay Development
Elisa
Immunoassays
Biotechnology
Protein Purification
Biochemistry
Technology Transfer
Antibodies
Cell Culture
Protein Chemistry
Immunoprecipitation
Cell Fractionation

Publications

Us Patents

Indirect Lateral Flow Sandwich Assay

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US Patent:
20120107956, May 3, 2012
Filed:
Sep 12, 2011
Appl. No.:
13/230550
Inventors:
HANS BOEHRINGER - San Diego CA, US
Mark Daquipa - San Diego CA, US
Hsin Ming Yang - San Diego CA, US
Thomas L. Pisani - Winchester MA, US
Sumitra Nag - Lexington MA, US
Jay Salhaney - Holliston MA, US
Marcella B. Holdridge - Watertown MA, US
Erika Johnston - Lexington MA, US
Jeremy Schonhorn - Hopkinton MA, US
International Classification:
G01N 21/78
US Classification:
436501
Abstract:
Disclosed herein are indirect lateral flow sandwich assays, in which the target analyte binds an analyte-specific reagent comprising a first member of a conjugate pair, forming a complex which contacts and binds a colored particulate label comprising a complementary member of said conjugate pair, forming a second complex. Capture of this analyte-comprising, second complex by an immobilized analyte specific capture reagent results in the formation of an immobilized labeled sandwich complex that can be detected.

Indirect Lateral Flow Sandwich Assay

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US Patent:
20080138842, Jun 12, 2008
Filed:
Nov 9, 2007
Appl. No.:
11/983671
Inventors:
Hans Boehringer - San Diego CA, US
Mark Daquipa - San Diego CA, US
Hsin Ming Yang - San Diego CA, US
Thomas L. Pisani - Winchester MA, US
Sumitra Nag - Lexington MA, US
Jay Salhaney - Holliston MA, US
Marcella B. Holdrige - Watertown MA, US
Erika Johnston - Lexington MA, US
Jeremy Schonhorn - Hopkinton MA, US
International Classification:
C12M 1/34
G01N 33/00
US Classification:
435 794, 4352872
Abstract:
Disclosed herein are indirect lateral flow sandwich assays, in which the target analyte binds an analyte-specific reagent comprising a first member of a conjugate pair, forming a complex which contacts and binds a colored particulate label comprising a complementary member of said conjugate pair, forming a second complex. Capture of this analyte-comprising, second complex by an immobilized analyte specific capture reagent results in the formation of an immobilized labeled sandwich complex that can be detected.

Devices, Systems, And Methods For Measuring Biomarkers In Biological Fluids

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US Patent:
20210285972, Sep 16, 2021
Filed:
Mar 13, 2020
Appl. No.:
16/818976
Inventors:
- Boston MA, US
Ashok A. Kumar - Malden MA, US
Jeremy E. Schonhorn - Hopkinton MA, US
Christopher M. Uherek - Boston MA, US
Michal Depa - Beaconsfield, CA
International Classification:
G01N 33/70
G01N 33/68
G01N 35/00
G16C 20/10
G01N 33/535
H04W 84/18
Abstract:
Platforms for enzymatic assays for biomarkers, including systems, methods, and measuring devices by which a biomarker, such as creatinine, is measured using a small amount of biological fluid, such as blood, plasma, or serum. The measuring device or biosensor can be a test strip including a layered active component assembly positioned between two outer layers which enables multi-step enzymatic reactions operating in kinetic and/or endpoint (in which the reaction is allowed to near completion), and generally includes multiple layers with primary enzyme(s), coupling enzyme(s), and reagents to produce an optical signal correlated to the concentration of a biomarker in the sample. The test strip can be read using a portable optical reader coupled to a smart phone or tablet.

Biomedical Measuring Devices, Systems, And Methods For Measuring Peptide Concentration To Monitor A Condition

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US Patent:
20190187154, Jun 20, 2019
Filed:
Dec 17, 2018
Appl. No.:
16/222463
Inventors:
- Boston MA, US
Jeremy E. Schonhorn - Boston MA, US
Daniel B. Lookadoo - Boston MA, US
Abha Patil - Boston MA, US
Lara Murray - Boston MA, US
Harshit Harpaldas - Boston MA, US
Sidhant Jena - Boston MA, US
Michal Depa - Boston MA, US
International Classification:
G01N 33/68
G01N 33/92
G01N 33/74
G01N 33/49
G01N 21/17
G01N 33/538
Abstract:
Systems and methods directed to a monoclonal antibody covalently conjugated to latex in a two-step process to be used with a test strip and mobile-phone connected fluorimeter device. The test strip is combined with a method of analysis for quantitative detection of NT pro-BNP using the mobile device. A method for NT-proBNP testing system includes reading the test at an initial time point and at specific intervals during development of the test result, the dynamic behavior of the test can be used to distinguish differences between samples that would otherwise be difficult to differentiate by an end-point measurement due to the hook effect. Using two fluorescent tags with different excitation wavelength or emission wavelengths, or two colored beads with different absorption wavelengths, the test and the control line can simultaneously be read as they develop and dynamic formation can be used to distinguish high levels.
Jeremy E Schonhorn from Hopkinton, MA, age ~60 Get Report