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Microfluidic device with multi-layer dialysis section

a microfluidic device and dialysis section technology, 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 simple manufacturing procedures, low system component count, and increased sensitivity

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

AI Technical Summary

Benefits of technology

[0088]The easily usable, mass-producible, and inexpensive microfluidic device accepts a biochemical sample, uses a dialysis section for separating the cells of different dimensions, and separately processes the nucleic acid content of the cells separated based on their dimensions.
[0089]The dialysis section functionality extracts additional information from the sample and increases the sensitivity, signal-to-noise ratio, and dynamic range of the assay system. The dialysis system being integral to the device, provides for the low system component-count and simple manufacturing procedures, leading into an inexpensive assay system.

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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Embodiment Construction

Overview

[0224]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.

[0225]Referring to FIGS. 1, 2, 3, 130 and 131, the system has the following top level components:

[0226]Test modules 10 and 11 are the size of a typical USB memory key and very cheap to produce. Test modules 10 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 130). Test module 10 schematically shown in FIG. 1 uses a fluorescence-based detection technique to identify target molecules, while test module 11 in FIG. 130 uses an electrochemiluminescence-based detection technique. The LOC device 30 has an integrated photosensor 44 for fluorescence or electrochemiluminescence detection...

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Abstract

A microfluidic device for dialysis of a fluid sample, the microfluidic device having a first layer of material defining a first channel and a second channel, the first channel configured for receiving the sample which contains constituents of different sizes, a second layer having a plurality of apertures open to the first channel and at least one fluid connection leading from the apertures to the second channel for establishing fluid communication between the first channel and the second channel, wherein, the apertures are sized in accordance with a predetermined size threshold such that the constituents flowing to the second channel are smaller constituents that are smaller than the predetermined size threshold, and the constituents retained in the first channel include larger constituents which are larger than the predetermined size threshold.

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:GBS001USGBS002USGBS003USGBS005USGBS006USGSR001USGSR002USGAS001USGAS002USGAS003USGAS004USGAS006USGAS007USGAS008USGAS009USGAS010USGAS012USGAS013USGAS014USGAS015USGAS016USGAS017USGAS018USGAS019USGAS020USGAS021USGAS022USGAS023USGAS024USGAS025USGAS026USGAS027USGAS028USGAS030USGAS031USGAS032USGAS033USGAS034USGAS035USGAS036USGAS037USGAS038USGAS039USGAS040USGAS041USGAS042USGAS043USGAS044USGAS045USGAS046USGAS047USGAS048USGAS049USGAS050USGAS054USGAS055USGAS056USGAS057USGAS058USGAS059USGAS060USGAS061USGAS062USGAS063USGAS065USGAS066USGAS067USGAS068USGAS069USGAS070USGAS080USGAS081USGAS082USGAS083USGAS084USGAS085USGAS086USGAS087USGAS...

Claims

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Application Information

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IPC IPC(8): C40B40/06G01N33/48C12M1/34B01L3/00
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 AZIMI, MEHDISILVERBROOK, KIA
Owner GENEASYS
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