Magnetic nanosensor compositions and bioanalytical assays therefor

a magnetic nanosensor and composition technology, applied in the field of nmr-based analyte detection systems, can solve the problems of limiting the dynamic range of certain bioanalytical assays, nanosensor aggregation/disaggregation may not be the optimal method for analyte detection in all assays, and may require long incubation time for cluster formation, so as to achieve rapid and homogeneous reaction, increase sensitivity, and reduce the effect o

Inactive Publication Date: 2011-11-10
T2 BIOSYST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008]Provided methods and compositions exploit the ability of magnetic nanosensors to dephase nuclear spins, hereinafter generally exemplified as protons of water molecules, detectable by nuclear magnetic resonance (NMR) relaxation measurements (e.g., 1/T2), for sensing and/or measuring an analyte of interest, without aggregation of nanosensors. In principle, T2 relaxivity of water protons dephased by nanosensors can be proportional to the diameter of nanosensors present in a solution and the diffusion time of water p

Problems solved by technology

Aggregation/disaggregation of nanosensors may not be the optimal method for analyte detection in all assays.
Further, long incubation time may be required for cluster formation due to a two-step kinetic process for aggregation.
Cluster formation has also been shown to limit the dynamic range for certain bioanalytical assays.
Factors that may contribute to limiting dynamic range include the structural

Method used

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  • Magnetic nanosensor compositions and bioanalytical assays therefor
  • Magnetic nanosensor compositions and bioanalytical assays therefor
  • Magnetic nanosensor compositions and bioanalytical assays therefor

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Embodiment Construction

[0026]It is contemplated that devices, systems, methods, and processes of the claimed invention encompass variations and adaptations developed using information from the embodiments described herein. Adaptation and / or modification of the devices, systems, methods, and processes described herein may be performed by those of ordinary skill in the relevant art.

[0027]Throughout the description, where devices and systems are described as having, including, or comprising specific components, or where processes and methods are described as having, including, or comprising specific steps, it is contemplated that, additionally, there are devices and systems of the invention that consist essentially of, or consist of, the recited components, and that there are processes and methods according to the invention that consist essentially of, or consist of, the recited processing steps.

[0028]As used herein, an analyte (or target analyte) may include one or more species of one or more of the followi...

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Abstract

Disclosed are magnetic nanosensors or transducers that permit measurement of a physical parameter in an analyte via magnetic reasonance measurements, in particular of non-agglomerative assays. More particularly, in certain embodiments, the invention relates to designs of nanoparticle reagents and responsive polymer coated magnetic nanoparticles. Additionally provided are methods of use of nanoparticle reagents and responsive polymer coated magnetic nanoparticles for the detection of a stimulus or an analyte with NMR detectors.

Description

FIELD OF THE INVENTION[0001]This invention relates generally to NMR systems with magnetic nanosensors for detection of analytes. More particularly, in certain embodiments, the invention relates to NMR-based analyte detection systems using responsive polymer-coated magnetic nanoparticles and non-agglomerative bioanalytical assays.BACKGROUND OF THE INVENTION[0002]Biocompatible magnetic nanosensors have been designed to detect molecular interactions in biological media. Upon target binding, magnetic nanosensors cause changes in spin-spin relaxation times of neighboring water molecules (or any solvent molecule with free hydrogens) of a sample, which can be detected by classical magnetic resonance (NMR / MRI) techniques. By using nanosensors in a sample, it is possible to detect the presence of an analyte at very low concentration—for example, small molecules, specific DNA, RNA, proteins, carbohydrates, lipids, lipoproteins, organisms, and pathogens (e.g. bacteria, viruses, etc.)—with sens...

Claims

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Application Information

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IPC IPC(8): A61M5/168G01N33/566C12Q1/70G01N33/53G01N24/00G01N33/569G01N33/68
CPCA61B5/055Y10T436/16A61B5/14865A61B10/0045A61B2017/00345Y10T436/143333Y10T436/144444Y10T436/171538Y10T436/204998Y10T436/201666Y10T436/24Y10T436/19Y10T436/207497Y10T436/147777Y10T436/175383A61B5/14532G01N24/08G01N33/54326G01N33/54346
Inventor LOWERY, JR., THOMAS JAYKOZIARZ, JAMES J.LEVINSON, DOUGLAS A.BERRY, DAVID A.ELSTROM, TUAN A.KUMAR, SONIAAUDEH, MARK JOHN
Owner T2 BIOSYST
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