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Assembly of Conductive Colloidal Gold Electrodes on Flexible Polymeric Substrates using Solution-Based MethodsSupriya, Lakshmi 04 November 2005 (has links)
This work describes the techniques of assembling colloidal gold on flexible polymeric substrates from solution. The process takes advantage of the strong affinity of gold to thiol and amino groups. Polymeric substrates were modified with silanes having these functional groups prior to Au attachment or in the case of poly(urethane urea) (PUU), no surface functionalization was required. This polymer has terminal amine and N-H groups on the polymer chain, which can act as coordination points for gold. Immersion in the colloidal gold solution led to the formation of a monolayer. Increased coverage was obtained by two methods. The first was a reduction or "seeding" process, where Au was reduced onto the attached particles on the surface. The second was using different linker molecules and creating a multilayered film by a layer-by-layer assembly. Three linker molecules of different lengths were used. Films fabricated using the smallest molecule had the least resistance whereas films fabricated with the longest molecule were not conductive. The resistance of these films may be varied easily by heating. Heating the films at temperatures as low as 120 °C caused a dramatic decrease in the resistance of over six orders in magnitude. Successful attachment of gold to PUU with very good adhesion properties was also demonstrated. The attachment of gold was stable in different solvents. Upon stretching the PUU-Au films, it was observed that there is a reversible resistance increase with strain and at a certain strain, the film becomes non-conductive. This sharp transition from conductive to insulating has potential applications in flexible switches and sensors. A hysteresis in the strain-resistance curves, analogous to the hysteresis in the stress-strain curves of the polymer was also observed. Using PUU as an adhesive agent, gold electrodes were successfully assembled on Nafion-based polymer transducers. These materials showed comparable actuation behavior to the electrodes made by the Pt-reduction method, with the added advantage of the ability to form patterned electrodes for distributed transducers. Patterning techniques were developed to form colloid-polymer multilayers for use in photonic crystal materials using selective deposition on patterned silane monolayers. Patterns of gold electrodes were also made on flexible polymers using a photoresist-based method. / Ph. D.
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Colloidal gold nanoparticles for cancer therapy: effects of particle size on treatment efficacy, toxicology, and biodistributionLee, Kate Y. J. 29 March 2011 (has links)
Gold nanoparticle has emerged as an attractive platform for drug delivery applications by complementing the existing drug delivery carriers. Currently, only a few gold nanoparticle-based anticancer drug delivery systems have been reported, compared to the polymer-based delivery systems. Additionally, there is still a lack of understanding for the behavior and fate of the gold-drug conjugate in the body that further attention is required. The overall goal of this thesis is to investigate the in vivo behavior of colloidal gold nanoparticle and its therapeutic efficacy in an animal model, especially in a drug delivery application. To achieve this goal, we investigated the feasibility of using colloidal gold nanoparticle as an anticancer agent delivery vehicle for treatment of cancer. Then, long-term clearance, toxicity, and biodistribution of colloidal gold nanoparticle were studied to further aid in understanding of using colloidal gold nanoparticle as a drug delivery platform. In particular, two representative sizes of gold nanoparticles, 5nm and 60nm, were investigated for the size effect on the therapeutic efficacy, toxicity, biodistribution, and clearance in cancer nanotherapy.
We believe that nanoparticle size plays a critical role in not only delivering the drug to the target site but also determining the in vivo behavior such as biodistribution and clearance. By choosing an appropriate size scale for the system, we successfully used the small-sized gold nanoparticles for drug delivery applications, which also displayed no apparent toxicity with desirable clearance from the biological system. This work is significant by providing an insight on a potential ideal candidate for drug delivery carrier for cancer nanotherapy.
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Antimicrobial activity of ciprofloxacin-coated gold nanoparticles on selected pathogensMoodley, Nivrithi 08 August 2014 (has links)
Submitted in complete fulfillment for the Degree of Master of Technology: Biotechnology, Durban University of Technology, Durban, South Africa, 2014. / Antibiotic resistance amongst bacterial pathogens is a crisis that has been worsening over recent decades, resulting in serious and often fatal infections that cannot be treated by conventional means. Diseases caused by these drug resistant agents result in protracted illnesses, greater mortality rates and increases in treatment costs. Improvements to existing therapies and the development of novel treatments are urgently required to deal with this escalating threat to human health. One of the more promising strategies to combat antibiotic resistance is the use of metallic nanoparticles. Research into this area has shown that the binding of antibiotics to nanoparticles enhances their antimicrobial effects, reduces side-effects due to requirement of lower dosages of the drug, concentrates the drug at the interaction site with bacterial cells and in certain cases, has re-introduced susceptibility into bacterial strains that have developed drug resistance. Furthermore, these nanoparticles can be used in cancer treatment in similar drug delivery roles.
Based on the promising data that demonstrated the synergistic effects of antimicrobial agents with nanoparticles, the aim of our research is to determine the effect of ciprofloxacin-conjugated gold nanoparticles as antimicrobial agents. To achieve this aim our objectives were: (i) to synthesize citrate-capped and ciprofloxacin-conjugated gold nanoparticles; (ii) to determine the physical and chemical characteristics of the ciprofloxacin-nanoparticle hybrid molecule; (iii) to investigate the antimicrobial activity of the conjugated nanoparticles against various species of common pathogens and (iv) to investigate the anti-cancer potential of the citrate-capped nanoparticles against a Caco-2 cell line.
In this study, citrate-capped gold nanoparticles were conjugated to the antibiotic, ciprofloxacin, and their antibacterial and anti-cancer activity was evaluated. Initial experiments involved the synthesis and characterization of gold nanoparticles and ciprofloxacin conjugated nanoparticles. The gold nanoparticles were synthesized using the Turkevich citrate reduction technique which has been extensively used in studies thus far. The synthesized nanoparticles were characterized for specific absorbance using a UV-Spectrophotometer. The bond between the nanoparticles and ciprofloxacin was characterized by FTIR. Ultra structural details of the gold nanoparticles were established by TEM. The colloidal stability of the nanoparticles was determined by spectroscopic analysis. The antibacterial activity of the ciprofloxacin-conjugated gold nanoparticles was studied by exposure to pathogenic bacteria (Staphyloccocus aureus, E. coli, Klebsiella pneumoniae, Enterocococcus spp., Enterobacter spp., and Psuedomonas spp.). MIC values were measured to give indication of antimicrobial effect. These bactericidal properties of the conjugate nanoparticles were further investigated by electron microscopy. To evaluate the action of the citrate capped gold nanoparticles on cancer cells, we exposed Caco-2 cells to various concentrations of the nanoparticles and its effect was evaluated by measuring the viability of the cells.
The results showed that 0.5 mM trisodium citrate reduced gold chloride to yield gold nanoparticles, which were spherical and 15 to 30 nm (by TEM characterization) and had an absorption maxima of 530 nm. The ciprofloxacin conjugated nanoparticles had an absorption maxima of 667nm. The colloidal stability, which is used to assess whether the synthesized particles will retain their integrity in solution showed that citrate-capped GNPs were most stable at 37°C over a 14 day storage period while ciprofloxacin-conjugated GNPs were found to be most stable at 4°C over a 14 day period. The FTIR results showed that chemical bonding in the conjugated nanoparticles occurs between the pyridone moiety of ciprofloxacin and the nanoparticle surface. The antimicrobial results of ciprofloxacin-conjugated GNPs had a significantly improved killing response compared to ciprofloxacin on both Gram positive and Gram negative bacteria. The citrate-capped GNPs are shown to exert a similar cytotoxic effect to gemcitabine on the Caco-2 cell line at a concentration of 0.5 mM.
These results indicate that combining gold nanoparticles and ciprofloxacin enhances the antimicrobial effect of the antibiotic. The conjugate nanoparticles increase the concentration of antibiotics at the site of bacterium-antibiotic interaction, and thus enhance the binding and entry of antibiotics into bacteria. This has great implications for treatment of infection, as these antibiotic-conjugated nanoparticles can be incorporated into wound dressings, be administered intravenously as drug delivery agents, be engineered to possess multiple functionalities in addition to antibacterial activity and act as dual infection tracking and antimicrobial agents. Likewise, in this study, gemcitabine, an anticancer drug and gold nanoparticles were shown to kill cancer cells. In addition to their use in photothermal therapy and as drug delivery agents, the nanoparticles themselves possess anti-cancer activity against the Caco-2 cells. Thus, they have potential to act alone as a form of cancer treatment if functionalized with certain targeting agents that are specific to cancer cells, reducing the side-effects that come with regular chemotherapeutic drugs.
It can be concluded that ciprofloxacin-conjugated gold nanoparticles enhance antibacterial effects of the antibiotic ciprofloxacin against bacterial cells and citrate-capped gold nanoparticles have anti-cancer activity against the Caco-2 cell line.
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Synthesis of gold nano-particles in a microfluidic platform for water quality monitoring applicationsDatta, Sayak 15 May 2009 (has links)
A microfluidic lab-on-a-chip (LOC) device for in-situ synthesis of gold nano-particles
was developed. The long term goal is to develop a portable hand-held diagnostic
platform for monitoring water quality (e.g., detecting metal ion pollutants).
The LOC consists of micro-chambers housing different reagents and samples that feed to
a common reaction chamber. The reaction products are delivered to several waste
chambers in a pre-defined sequence to enable reagents/ samples to flow into and out of
the reaction chamber. Passive flow actuation is obtained by capillary driven flow
(wicking) and dissolvable microstructures called ‘salt pillars’. The LOC does not require
any external power source for actuation and the passive microvalves enable flow
actuation at predefined intervals. The LOC and the dissolvable microstructures are
fabricated using a combination of photolithography and soft lithography techniques.
Experiments were conducted to demonstrate the variation in the valve actuation time
with respect to valve position and geometric parameters. Subsequently, analytical models were developed using one dimensional linear diffusion theory. The analytical
models were in good agreement with the experimental data. The microvalves were
developed using various salts: polyethylene glycol, sodium chloride and sodium acetate.
Synthesized in-situ in our experiments, gold nano-particles exhibit specific colorimetric
and optical properties due to the surface plasmon resonance effect. These stabilized
mono-disperse gold nano-particles can be coated with bio-molecular recognition motifs
on their surfaces. A colorimetric peptide assay was thus developed using the intrinsic
property of noble metal nano-particles. The LOC device was further developed on a
paper microfluidics platform. This platform was tested successfully for synthesis of gold
nano-particles using a peptide assay and using passive salt-bridge microvalves.
This study proves the feasibility of a LOC device that utilizes peptide assay for
synthesis of gold nano-particles in-situ. It could be highly significant in a simple
portable water quality monitoring platform.
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Expression and engineering of recombinant antibodies against a heat-shock protein of Mycobacterium bovisWemmer, Susan 21 October 2008 (has links)
In the medical and veterinary diagnostic fields there is an ongoing need for stable and specific antibodies. There is also a requirement for simple, robust and cost-effective diagnostic assays to be used in the developing world. Recombinant antibodies from phage displayed libraries are economical to produce and can often be engineered to improve affinity, avidity and stability. While recombinant antibody fragments are useful in immunoassays, they are not strictly comparable to normal immunoglobulins and may under-perform in certain assays. Converting monovalent single-chain antibody fragments (scFvs) to bivalent immunoglobulin-like formats could conceivably provide a more suitable molecular scaffold for use in immunoassays. Two scFvs that recognised the 65 kDa heat-shock protein (HSP65) of Mycobacterium bovis were used in this study. They were originally derived from the Nkuku® repertoire, a phage displayed antibody library based on the immune repertoire of the chicken, Gallus gallus. The genes coding for these scFvs were subcloned in expression vectors containing chicken IgY constant-heavy domains, to create bivalent constructs which were designated ‘gallibodies’. Expression of these constructs was attempted in three heterologous systems. While they were successfully produced in adherent mammalian cell cultures, the growth requirements of these cultures complicated subsequent purification. Bacteria and yeasts were investigated as alternative expression systems, but antibodies were not produced in either system. The gallibodies were compared to their monovalent scFv counterparts for stability as well as their applicability in ELISAs and gold-conjugated immunochromatographic lateral-flow assays. As gallibodies, both retained their functionality after exposure to different conditions and they were capable of immunocapture in ELISA. This was in contrast to their performance as scFvs. Furthermore, these antibody-like molecules could be stably conjugated to colloidal gold and used in lateral flow tests where positive and specific signals were obtained. This confirmed that recombinant single-chain monomeric antibody fragments could be reconstituted as bivalent immunoglobulin-like molecules and that they are a potentially useful platform for developing practical, robust immunodiagnostic reagents. It appeared from these experiments that the antibodies could act as a pair in which one captures, and the other detects HSP65. To find out whether they recognised discrete regions on the protein, their epitopes were mapped using a phage displayed peptide library in combination with computer-based algorithms. The presumptive epitope of one was mapped to residues 350 to 370 on HSP65 of M. bovis. The sequences selected from the peptide library by the other corresponded to three separate regions on the target protein. These recombinant antibody recognition sites are analogous to some of those that have been mapped by others using traditional monoclonal antibodies. / Dissertation (MSc)--University of Pretoria, 2008. / Veterinary Tropical Diseases / unrestricted
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Gold nanoparticles for biosensor development : a thesis presented in partial fulfillment of the degree of Doctor of Philosphy in Chemistry, Institute of Fundamental Science, Massey University, Palmerston North, New ZealandJiang, Xiuqian January 2009 (has links)
Gold nanoparticles, are one of the most widely investigated nanoparticles (NP) and are normally synthesized by the reduction of metal salts in citrate solution. The reason for studying this nanostructured material from a technological standpoint is mainly the anticipated application in different areas based on optical properties explained with plasmon resonance. The main work of this study was to develop different sensing systems using gold nanoparticles. Three techniques have been utilized, being lateral flow immunoassay (LFIA), surface plasmon resonance (SPR), and surface-enhanced Raman scattering (SERS). A one-step semi-quantitative LFIA strip test was developed using colloidal gold coated by a partially-purified polyclonal antibody (pAb) raised in sheep as a signal generator, and bovine serum albumin-Estriol-16-glucuronide (BSA-E3-16G) conjugates as the capture agent spotted onto a nitrocellulose membrane as the test line. In this system, gold nanoparticles were applied for visualising the response. The application of the strip sensor to urinary samples from pregnant woman proved successful. A quantitative evaluation of low levels of E3-16G in liquid media was developed based on SPR, which used the same pAb-nanogold conjugates employed for the LFIA analysis. The assay can be carried out directly on any urine samples without sample pretreatment. In this system, gold nanoparticles were utilized as high mass label to improve the sensitivity of the assay. A SERS probe was developed which comprised of Raman reporter molecules (RRM) and gold NPs. Results showed that the conducting polymer materials of 3’-[(E)-2-(4-R-phenyl)ethenyl]-2’2’:5’,2”-terthiophene (R-pe3T, where R is NO2 or NH2) showed significant enhancement. Moreover, high bio-activity groups included in the compounds make them potential candidates for the development of a SERS based sensing system.
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Desenvolvimento de teste imunocromatográfico para detecção de anticorpos IgG anti-toxoplasma gondii. / Immunochromatographic assay for the detection of anti-Toxoplasma gondii IgG antibodiesMioranza, Sônia de Lucena 02 February 2010 (has links)
Sendo uma patologia prevenível e tratável, o importante na toxoplasmose congênita é o diagnóstico precoce, fundamental para intervenção terapêutica imediata. Em Cascavel-PR a soroepidemiologia da toxoplasmose foi avaliada em 334 soros de gestantes, com prevalência de 54% e risco de 2,5%aa de infecção aguda. Para monitorar e instrumentar o pré-natal através da triagem de gestantes soronegativas por acompanhamento mensal foi desenvolvido um teste imunocromatográfico para detecção de anticorpos IgG anti-Toxoplasma gondii. (TIC-toxo). Conjugados de ouro coloidal com diferentes extratos antigênicos do agente e os reagentes controle e teste da reação foram preparados e avaliados por imunofiltração e controles intraexperimentais, incluindo microscopia eletrônica, sendo. selecionados na padronização o conjugado de ouro de 6nm recoberto com 2,5 ug/A 540nm de ouro de extrato antigênico alcalino de T. gondii, na linha teste da membrana, a Proteína A de S.aureus e na linha controle, o anticorpo anti-T. gondii,. No ensaio foram testadas 70 amostras de soro em duplicata, sendo 35 reagentes e 35 não reagentes, comparando com ELISA comercial, ELISA in house e IFI. Sensibilidade, especificidade, valor preditivo positivo, valor preditivo negativo e eficiência do TIC-Toxo foram, respectivamente: 88,6% (IC 72,3-96,3), 80,0% (IC 62,5-90,9), 81,6% (IC 65,1-91,7), 87,5% (IC 70,1-95,9) e 0,8429, havendo concordância e reprodutibilidade (Kappa=0,712171) entre o TIC-toxo e os métodos clássicos. O teste desenvolvido é rápido, de baixo custo, de fácil execução em única etapa para uso ambulatorial, precedendo a confirmação laboratorial, na triagem de gestantes ou grupos específicos, permitindo especialmente, o manejo adequado das gestantes de Cascavel em risco de toxoplasmose congênita. / As preventable and treatable condition, the main goal in congenital toxoplasmosis is early diagnosis, essential for adequate therapy. We study seroepidemiology of toxoplasmosis in 344 sera samples from pregnant women of Cascavel, PR, Brazil. By consistent serology, we demonstrate 54% prevalence and a 2.5% risk of acute infection/year, using several approaches. For supply the antenatal office care, it would be important a quick immunochromatographic assay for detection of anti T.gondii</I. IgG antibodies (TIC-Toxo), to be applied in the follow up of pregnant women at risk of infection. To develop the TIC-Toxo assay, we evaluate and standardize the gold particle conjugate adsorbed with several types of tachyzoite extracts, aside to specific reagents for the control and test area of the strip test, by immunofiltration assays, with several quality control steps including electron microscopy. Those analysis provide data for defining the reagents for mass production of TIC-Toxo, constructed with 6 nm colloidal gold conjugate recovered with 2.5ug/A540 of alcaline extract from T.gondii tachyzoites, with S.aureus Protein A at test dot and anti-T.gondii antiserum at control dot. Seventy sera samples were blind tested, 35 positive and 35 negative, comparing to ELISA and IFA assays. Sensitivity, specificity, positive predictive value, negative predictive value and accuracy were respectively: 88,6% (IC 72,3-96,3), 80,0% (IC 62,5-90,9), 81,6% (IC 65,1-91,7), 87,5% (IC 70,1-95,9) e 0,8429, with good agreement of TIC-Toxo and other assays (Kappa=0,712171), with good intra and inter test reproducibility. This TIC-Toxo is a quick, low cost, one step assay and easily performed, to be used for prenatal ambulatory diagnosis of toxoplasmosis, preceding the laboratorial confirming diagnosis and allowing adequate care of pregnant women or others selected groups at risk of acute toxoplasmosis and fetal congenital disease, specially at Cascavel-Pr.
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Desenvolvimento de teste imunocromatográfico para detecção de anticorpos IgG anti-toxoplasma gondii. / Immunochromatographic assay for the detection of anti-Toxoplasma gondii IgG antibodiesSônia de Lucena Mioranza 02 February 2010 (has links)
Sendo uma patologia prevenível e tratável, o importante na toxoplasmose congênita é o diagnóstico precoce, fundamental para intervenção terapêutica imediata. Em Cascavel-PR a soroepidemiologia da toxoplasmose foi avaliada em 334 soros de gestantes, com prevalência de 54% e risco de 2,5%aa de infecção aguda. Para monitorar e instrumentar o pré-natal através da triagem de gestantes soronegativas por acompanhamento mensal foi desenvolvido um teste imunocromatográfico para detecção de anticorpos IgG anti-Toxoplasma gondii. (TIC-toxo). Conjugados de ouro coloidal com diferentes extratos antigênicos do agente e os reagentes controle e teste da reação foram preparados e avaliados por imunofiltração e controles intraexperimentais, incluindo microscopia eletrônica, sendo. selecionados na padronização o conjugado de ouro de 6nm recoberto com 2,5 ug/A 540nm de ouro de extrato antigênico alcalino de T. gondii, na linha teste da membrana, a Proteína A de S.aureus e na linha controle, o anticorpo anti-T. gondii,. No ensaio foram testadas 70 amostras de soro em duplicata, sendo 35 reagentes e 35 não reagentes, comparando com ELISA comercial, ELISA in house e IFI. Sensibilidade, especificidade, valor preditivo positivo, valor preditivo negativo e eficiência do TIC-Toxo foram, respectivamente: 88,6% (IC 72,3-96,3), 80,0% (IC 62,5-90,9), 81,6% (IC 65,1-91,7), 87,5% (IC 70,1-95,9) e 0,8429, havendo concordância e reprodutibilidade (Kappa=0,712171) entre o TIC-toxo e os métodos clássicos. O teste desenvolvido é rápido, de baixo custo, de fácil execução em única etapa para uso ambulatorial, precedendo a confirmação laboratorial, na triagem de gestantes ou grupos específicos, permitindo especialmente, o manejo adequado das gestantes de Cascavel em risco de toxoplasmose congênita. / As preventable and treatable condition, the main goal in congenital toxoplasmosis is early diagnosis, essential for adequate therapy. We study seroepidemiology of toxoplasmosis in 344 sera samples from pregnant women of Cascavel, PR, Brazil. By consistent serology, we demonstrate 54% prevalence and a 2.5% risk of acute infection/year, using several approaches. For supply the antenatal office care, it would be important a quick immunochromatographic assay for detection of anti T.gondii</I. IgG antibodies (TIC-Toxo), to be applied in the follow up of pregnant women at risk of infection. To develop the TIC-Toxo assay, we evaluate and standardize the gold particle conjugate adsorbed with several types of tachyzoite extracts, aside to specific reagents for the control and test area of the strip test, by immunofiltration assays, with several quality control steps including electron microscopy. Those analysis provide data for defining the reagents for mass production of TIC-Toxo, constructed with 6 nm colloidal gold conjugate recovered with 2.5ug/A540 of alcaline extract from T.gondii tachyzoites, with S.aureus Protein A at test dot and anti-T.gondii antiserum at control dot. Seventy sera samples were blind tested, 35 positive and 35 negative, comparing to ELISA and IFA assays. Sensitivity, specificity, positive predictive value, negative predictive value and accuracy were respectively: 88,6% (IC 72,3-96,3), 80,0% (IC 62,5-90,9), 81,6% (IC 65,1-91,7), 87,5% (IC 70,1-95,9) e 0,8429, with good agreement of TIC-Toxo and other assays (Kappa=0,712171), with good intra and inter test reproducibility. This TIC-Toxo is a quick, low cost, one step assay and easily performed, to be used for prenatal ambulatory diagnosis of toxoplasmosis, preceding the laboratorial confirming diagnosis and allowing adequate care of pregnant women or others selected groups at risk of acute toxoplasmosis and fetal congenital disease, specially at Cascavel-Pr.
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Uspořádaná a neuspořádaná pole koloidních nanočástic a jejich využití pro detekci biomolekul / Ordered and disordered arrays of colloidal nanoparticles for biomolecule detectionLigmajer, Filip January 2013 (has links)
This thesis deals with guided self-assembly of gold nanoparticles from their colloidal solutions onto silicon substrates and possible employment of nanoparticles for detection of biomolecules. It was found that by adjustment of solution pH and surface chemistry modification by means of electron beam irradiation it is possible to facilitate nanoparticle deposition to patterns with almost single particle precision. Spectroscopic ellipsometry was then employed in analysis of self-assembled layers of nanoparticles and its combination with a theory of effective medium approximation has proven the ability to assess nanoparticle dimensions and volume fractions. By experiments with thiolated oligonucleotides it has been shown that using ellipsometry one can detect even with very subtle changes in nanoparticle environment caused by biomolecules, thus promising its possible use in the field of biodetection.
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A Lateral Flow Smart Phone Image Analysis DiagnosticTyrrell, Christina Holly 01 August 2013 (has links) (PDF)
A low cost compact diagnostic has many implications in today’s society. Smart phone technology has exponentially grown and with it the imaging capabilities associated with smart phones. The goals of this research are i) to determine the feasibility of combining in the field smart phone images with color dependent assay results, ii) to develop a MatLab® image analysis code to analyze these results, and iii) compare limits of detection between the un-aided eye and MatLab® image analysis software.
Orange G dye is used to create a stock solution and subsequent titers for analysis. Autocad is used to design an assay platform of 10x10 wells that are printed via a Xerox® Phaser printer with wax ink onto nitrocellulose paper. Dilutions are performed and pipetted into the wells. The image analysis code is used to determine hue, saturation, and value (HSV) values of wells. A limit of detection study using the dye is performed. HSV values are used to form calibration curves. The resulting curve fit equations are then integrated into the image analysis code to determine dye concentration. Finally, the complete capability is demonstrated by using an analogous 10x10 well experimental nitrocellulose sheet, which included a follow-up experiment via a spot check analysis.
This study illustrates the feasibility of a low cost image analysis as a tool for lateral flow assay diagnostic versus the unaided eye. Future work includes using this protocol in conjunction with a lateral flow immunoassay and developing an application for the analysis.
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