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Gold on paper-paper platform for Au-nanoprobe TB detection
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Transcript of Gold on paper-paper platform for Au-nanoprobe TB detection
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Presented by: Reny Pratiwi (5736105 MTMT/D), Abdul Hafeez (5637869 MTMT/D), Naw Hser Gay (5736941 MTMT/D), Thet Su Win (5736940 MTMT/D)
Faculty of Medical Technology, Mahidol University
Gold on paper–paper platform for Au-nanoprobe TB detection
Bruno Veigas, et. Al. Lab Chip, 2012, 12, 4802–4808
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Introduction
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The Global Burden of TB (2012) 1/3 world population is LTB
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Advances in molecular diagnostic of TB
• improved the detection capability of the pathogen • but many of these methods require specialised technical personnel and
expensive laboratory equipment
• Several new technologies will enable the presumptive detection of MTBC in just one to two days • are under development
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Diagnostics at point-of-need
• crucial to TB control as rapid identification and pathogen characterisation
• may allow patients to get immediate treatment that is vital in addressing this pandemic.
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Paper-based analytical systems suitable for application in diagnostics at point-of-need
The interesting abilities of paper-based plates are
• multiplex assays;
• The ability to store, mix, and combine reagents;
• multiple sample assaying with a single device;
• the ability to capture the result in a digital image format with a generic mobile device.
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Digitizing of the assays results
Photography with a camera phone, scanning with a portable scanner
Andres W. Martinez; Scott T. Phillips; Emanuel Carrilho; Samuel W. Thomas III; Hayat Sindi; George M. Whitesides; Anal. Chem. 2008, 80, 3699-3707.
Quantitative colorimetric correlations using mobile cameras to digitalise results allowing the measurement of colour intensity
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Paper platform for bio-detection assays
Weian Zhao; M. Monsur Ali; Sergio D. Aguirre; Michael A. Brook; Yingfu Li; Anal. Chem. 2008, 80, 8431-8437.
Paper-based analytical systems suitable for application in diagnostics at point-of-need
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The principle of Au-nanoprobes
Conde J, de la Fuente JM, Baptista PV - (2010)
The use of Au-nanoprobes for TB detection “Gold on Paper”
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Au-Nanoprobe strategy for the detection of MTBC members
Integration of colorimetric Au-nanoprobe assay with a paper-platform that allows colour development and a simple data analysis tool capable of the specific detection of MTBC members
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Materials and Methods
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2.1 Gold on Paper platform preparation
A5 size Sheets of a cellulose substrate
To print a wax based ink, originating hydrophobic
barriers
Paper microplate 384 well format designed MS visio1
Paper microplate 384 well format designed MS visio1,
Microplate dimensions guide from Greiner Bio-One.
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2.1 Gold on Paper platform preparation
Then placed on a hot plate at 140 C for 2 min (allowing
the wax to melt, creating desired hydrophobic pattern)
Then impregnated with 1 ml of a 0.12M MgCl2 solution
allow to dry at 25 C for 10 min.
Finally, microplate were wrapped with aluminum foil
and stored at 25 C until use.
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2.2 Scanning electron microscopy (SEM) analysis
Samples were mounted on aluminum stubs with carbon
tape and coated with an 8 nm thick palladium--gold film
in a Quorum Q150T ES sputtering system.
The sample surface was observed in a Carl Zeiss
AURIGA Crossbeam SEM-FIB workstation, using an
accelerating voltage of 2 KeV with an aperture size of
30 u.
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2.3 Sample DNA preparation
PCR amplified 395 bp fragment of the M. tuberculosis RNA
polymerase b-subunit (rpoB-GenBank accession no. L27989)
gene suitable for detection of MTBC members was used as
target for the Au-nanoprobe detection assay.
Master mix = (KCL, Tris-HCl, MgCl, 50, 10, 2.2 mM) + 200 mM
of each dNTP + 1 U of Taq DNA polymerase + 10 pmol of each
primer (P1 5’-GAG AATTCG GTC GGC GAG CTG ATC C-3’; P2
5’-CGA AGC TTGACC CGC GCG TAC ACC-3’)
PCR analysis by 35 cycles of 45 s denaturation at 94 C, 45 s
annealing at 58 C followed by 45 s extension at 72 C.
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2.3 Sample DNA preparation
Amplification observed by 1% Agarose gel electrophoresis,
further confirmed by direct sequencing using Big Dye
Terminator technology.
DNA samples isolated from MTB as positive MTBC
(complementary), non-MTB Mycobacteria cultures as non-
MTBC (non-complementary) samples. DNA from an unrelated
organism was used as non-related.
The non-MTBC sample derived from M. kansasii, whose
sequence differs from that of the MTB rpoB target region by a
single nucleotide.
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2.4 Au-nanoprobe synthesis and characterization
Gold nanoparticles were synthesized by the citrate reduction
method, [ 250 ml of 1 mM Chloroauric acid (HAuCl4), heated +
25 ml of 28.8 nM sodium citrate, stirring and refluxed for 15
min. keep at RT to cool down. For gold nanoprobes; incubate
the thiol-modified oligonucleotides with the gold nanoparticles
(AuNPs) for 16 h].
Then solution was washed with 10 mM phosphate buffer (pH
8), and increasing salt concentration, then solution was
centrifuged, the resulting pellet resuspended in 10 mM
phosphate buffer (pH 8), 0.1M NaCl, and stored in the dark at 4
C until further use.
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2.4 Au-nanoprobe synthesis and characterization
Gold nanoparticles were synthesized by the citrate reduction
method, [ 250 ml of 1 mM Chloroauric acid (HAuCl4), heated +
25 ml of 28.8 nM sodium citrate, stirring and refluxed for 15
min. keep at RT to cool down. For gold nanoprobes; incubate
the thiol-modified oligonucleotides with the gold nanoparticles
(AuNPs) for 16 h].
Then solution was washed with 10 mM phosphate buffer (pH
8), and increasing salt concentration, then solution was
centrifuged, the resulting pellet resuspended in 10 mM
phosphate buffer (pH 8), 0.1M NaCl, and stored in the dark at 4
C until further use.
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2.4 Au-nanoprobe synthesis and characterization
A comparative analysis of rpoB gene sequences by using
sequence alignment. Probe specificity was tested in silico
using BLAST tools. The MTBC probe 5’-thiol-GAT CGC CTC
CAC GTC C-3’ was then used to functionalize the AuNPs.
For target discrimination assessment in assay calibration,
non-modified synthetic oligonucleotides were used
These calibration data were used to assess the probe
specificity in the presence of the DNA sample.
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2.5 Au-nanoprobe colorimetric assay
The 395 base pair (bp) PCR products were ethanol
precipitated, resuspended in deionized water and used for the
Au-nanoprobe assay .
Colorimetric assay: using total volume of 30 ml (Au-
nanoprobes 2.5 nM in 10 mM phosphate buffer (pH 8), 0.1 M
NaCl and target DNA at a final concentration of 30 ug ml).
The assay involves the visual comparison of a ‘‘Blank’’
(without DNA), 10 mM phosphate buffer (pH 8), 0.1 M NaCl;
‘‘Probe’’, 10 mM phosphate buffer (pH 8); and the samples.
After 10 min at 95 C for target DNA denaturation, the mixtures
were allowed to stand for 30 min at room temperature and
MgCl2 was added-[MgCl2] = 0.02 M for the MTBC probe. After
30 min at room temperature, for colour development, the
mixtures and the blank were assayed by UV/visible
spectroscopy in a microplate reader.
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2.5 Au-nanoprobe colorimetric assay
For assaying with the Gold on Paper platform:
A total reaction mixture of 5 mL was used with 2.5 nM Au-
nanoprobes in 10 mM phosphate buffer (pH 8), 0.1 M NaCl and
target DNA at a final concentration of 30 mg ml. After 10 min of
denaturation at 95 C, the mixtures were allowed to stand for 10
min at room temperature and spotted onto the well on the
paper plate.
After 45 min at RT for colour development, the paper plate was
photographed with a mobile device and RGB analysis was
performed.
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2.6 Data acquisition and analysis
The colour pattern on the Gold on Paper was
captured with an HTC phone, 5 MP camera with
autofocus. Photos were taken with artificial white
light without flash.
Blank test spots with 10 mM phosphate buffer (pH
8); used to normalize the data for light conditions.
Images data were analysed by RGB analysis app. in
mobile, then transfer to a personal computer for
image processing with Image JTM
Each assay was repeated at least three times and on four different
paper micro well plates.
A one-way ANOVA analysis, with Tukey’s multiple comparison test,
using Graph Pad was used to validate the results. Additional
statistical analysis with Tukey’s multiple comparison procedures.
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Results and Discussions
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Au-nanoprobe assay
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Au-nanoprobe colorimetric assay
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Au-nanoprobe assay on paper platform using PC based ImageJ software
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ImageJ HTC Desire
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Au-nanoprobe assay on paper platform using android application
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HTC Desire
RGB analysis
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Additional evidence of differential aggregation
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• Extensive Au-nanoprobe
aggregation on paper
fibres
• Direct correlation with the
color captured in the
digital images
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Discussion - 1
Au-nanoprobe assay Microplate Gold on Paper
Sample 15 µl <5 µl
Total Reaction Mixture 30 µl 5 µl
Reading
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Discussion - 2
• No loss of sensitivity and specificity.
• Microplate signal is more intense than that of the Gold on paper platform. (smaller amount of Au-nanoprobes is being used.)
• Smartphone analysis allows a fast and reliable results.
• Simpilicity
• Geolocation metadata can be used for real-time epidemiologic data
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Conclusions and Further Studies
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Conclusion - 1
• Assembling diagnostics platforms for worldwide epidemics for less equipped regions
• Gold on paper detection is easy to perform without the need of expensive and complex laboratory set ups
• It can eliminate the need to transmit data to get the results (result on-site)
• Possible to transmit digital information over communication channels to off-site laboratory.
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Conclusion - 2
• Limitation – need for DNA sample and PCR amplification
• But this step occurs under 2hr 30mins, which is considerably faster than traditional methods
Further studies
• Optimize the methodology validation
• Direct application to clinical samples
• Extend the range of applications to mutations associated drug resistance.
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