Diagnostic test module with a loc with integral photosensor and excitation LED for detection of hybridization assay results

a technology of locs and photosensors, applied in the field of diagnostic devices, can solve the problems of slow growth of this type of testing in the clinical laboratory, reduced sensitivity, and high degree of non-specific binding, and achieve the effects of low system component count, high readout sensitivity, and compact system structur

Inactive Publication Date: 2011-12-22
GENEASYS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0093]The integrated image sensor with the excitation LED obviate the need for an expensive external imaging system and provides for a mass-producible inexpensive integrated solution with low system component-count that is a compact, light, and highly portable system. The integrated image sensor increases the readout sensitivity by benefiting from large angle of light collection and obviates the need for optical components in the optical collection train.

Problems solved by technology

Insufficient stringency can result in a high degree of nonspecific binding.
Excessive stringency can lead to a failure of appropriate binding, which results in diminished sensitivity.
Despite the advantages that molecular diagnostic tests offer, the growth of this type of testing in the clinical laboratory has been slower than expected and remains a minor part of the practice of laboratory medicine.
This is primarily due to the complexity and costs associated with nucleic acid testing compared with tests based on methods not involving nucleic acids.
However, controlling fluid flow through the LOC device, adding reagents, controlling reaction conditions and so on necessitate bulky external plumbing and electronics.
Connecting a LOC device to these external devices effectively restricts the use of LOC devices for molecular diagnostics to the laboratory setting.
The cost of the external equipment and complexity of its operation precludes LOC-based molecular diagnostics as a practical option for point-of-care settings.

Method used

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  • Diagnostic test module with a loc with integral photosensor and excitation LED for detection of hybridization assay results
  • Diagnostic test module with a loc with integral photosensor and excitation LED for detection of hybridization assay results
  • Diagnostic test module with a loc with integral photosensor and excitation LED for detection of hybridization assay results

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Overview

[0194]This overview identifies the main components of a molecular diagnostic system that incorporates embodiments of the present invention. Comprehensive details of the system architecture and operation are set out later in the specification.

[0195]Referring to FIGS. 1, 2, 3, 96 and 97, the system has the following top level components:

[0196]Test modules 10 and 11 are the size of a typical USB memory key and very cheap to produce. Test modules10 and 11 each contain a microfluidic device, typically in the form of a lab-on-a-chip (LOC) device 30 preloaded with reagents and typically more than 1000 probes for the molecular diagnostic assay (see FIGS. 1 and 96). Test module 10 schematically shown in FIG. 1 uses a fluorescence-based detection technique to identify target molecules, while test module 11 in FIG. 96 uses an electrochemiluminescence-based detection technique. The LOC device 30 has an integrated photosensor 44 for fluorescence or electrochemiluminescence detection (des...

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Abstract

A test module for detecting hybridization of probes with target nucleic acid sequences, the test module having a receptacle for receiving a biological sample with target nucleic acid sequences, an array of probes for hybridization with the target nucleic acid sequences, an excitation light emitting diode (LED) for illuminating the array of probes, CMOS circuitry having a photosensor for sensing a fluorescence emission from any of the probes in the array that have hybridized with the target nucleic acid sequences such that the CMOS circuitry is configured to use outputs from the photosensor to generate a signal indicative of the probes that have hybridized, wherein, the array of probes and the CMOS circuitry are integrated on a lab-on-a-chip (LOC) device contained within the test module.

Description

FIELD OF THE INVENTION[0001]The present invention relates to diagnostic devices that use microsystems technologies (MST). In particular, the invention relates to microfluidic and biochemical processing and analysis for molecular diagnostics.CO-PENDING APPLICATIONS[0002]The following applications have been filed by the Applicant which relate to the present application:GBS001USGBS002USGBS003USGBS005USGBS006USGSR001USGSR002USGAS001USGAS002USGAS003USGAS004USGAS006USGAS007USGAS008USGAS009USGAS010USGAS012USGAS013USGAS014USGAS015USGAS016USGAS017USGAS018USGAS019USGAS020USGAS021USGAS022USGAS023USGAS024USGAS025USGAS026USGAS027USGAS028USGAS030USGAS031USGAS032USGAS033USGAS034USGAS035USGAS036USGAS037USGAS038USGAS039USGAS040USGAS041USGAS042USGAS043USGAS044USGAS045USGAS046USGAS047USGAS049USGAS050USGAS054USGAS055USGAS056USGAS057USGAS058USGAS059USGAS060USGAS061USGAS062USGAS063USGAS065USGAS066USGAS067USGAS068USGAS069USGAS070USGAS080USGAS081USGAS082USGAS083USGAS084USGAS085USGAS086USGAS087USGAS088USGAS...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C40B60/12
CPCB01L3/5027Y10T436/25B01L3/502738B01L7/52B01L2200/10B01L2300/023B01L2300/024B01L2300/0636B01L2300/0654B01L2300/0883B01L2300/10B01L2300/1827B01L2400/0406B01L2400/0633B01L2400/0677B01L2400/0688F16K99/003F16K99/0036G01N27/223C12Q1/68Y10T436/107497Y10T436/173845Y10T436/143333Y10T436/11Y10T436/145555Y10T436/203332Y10T436/25375B01L3/502707Y10T137/0352Y10T137/0391Y10T137/1044Y10T137/206Y10T137/2076Y10T137/2202Y02A90/10
Inventor SILVERBROOK, KIAMOINI, ALIREZAAZIMI, MEHDI
Owner GENEASYS
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