Determinação voltamétrica de triclocarban e carbendazim em produtos de higiene pessoal e água potável

Lúcio, Maria Mônica Lacerda Martins

26 August 2015

Submitted by Maike Costa (maiksebas@gmail.com) on 2016-05-11T12:53:38Z No. of bitstreams: 1 arquivo total.pdf: 6105657 bytes, checksum: 8404a0fcb54e3893c95fdfb017f0ac96 (MD5) / Made available in DSpace on 2016-05-11T12:53:38Z (GMT). No. of bitstreams: 1 arquivo total.pdf: 6105657 bytes, checksum: 8404a0fcb54e3893c95fdfb017f0ac96 (MD5) Previous issue date: 2015-08-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Triclocarban (TCC) is a bactericide and fungicide widely used in personal care products, while carbendazim (MBC) is a fungicide widely used in cereal crops and a variety of fruits and vegetables, both are considered environmental contaminants. In this paper, propose the study of oxidation and determination of TCC using glassy carbon electrode (ECV) and the use of a carbon paste electrode modified with carbon nanotubes functionalized multi walled (EPC-NTCPMF) to determine MBC. Electrochemical detection of TCC and MBC was studied using different voltammetric techniques on a wide range of pH and the determination was performed on samples of soaps, only the TCC and drinking water at low concentrations, for both contaminants. For TCC, various oxidation processes were observed, however the peak P1 had greater sensitivity and selectivity in acetate buffer, pH 5.4 and was therefore used for the development of voltammetric methods, direct VOQ and adsorptive stripping voltammetry. For adsorptive stripping voltammetry, the linear response range was from 1.8 to 21 × 10-9 mol L-1 with a detection limit (LD) of 3.2 × 10-10 mol L-1, 1,000 times smaller than the LD obtained by direct VOQ. The method of adsorptive stripping voltammetry showed satisfactory levels of repeatability, 4.1% and reproducibility, 5.4% and was applied to determine TCC in soaps samples and an average recovery of 95.3% and drinking water with an average recovery apparent 95.4%. The MBC peaked main oxidation, almost reversible; the better sensitivity was achieved in H2SO4, pH 1.0 on the EPC-NTCPMF using VOQ. The linear response range is between 3 and 150 × 10-10 mol L-1 to LD 1.1 × 10-11 mol L-1. The method developed showed acceptable levels of repeatability, 4.6% and reproducibility, 6.2% and was applied for MBC determination in drinking water samples obtained average apparent recovery of 95.6%. The results obtained in the development of methods for determination of TCC and MBC showed excellent applicability for the studied samples, in addition to having advantages such as low cost instrumentation, analytical fast response, high sensitivity and selectivity. / Triclocarban (TCC) é um bactericida e fungicida amplamente utilizado em produtos de higiene pessoal, enquanto que o carbendazim (MBC) é um fungicida muito utilizado em culturas de cereais e numa grande variedade de frutas e vegetais, e ambos são considerados contaminantes ambientais. Nesse trabalho, propõe-se o estudo da oxidação e determinação do TCC utilizando eletrodo de carbono vítreo (ECV) e o uso de um eletrodo de pasta de carbono modificado com nanotubos de carbono de múltiplas paredes funcionalizado (EPC-NTCPMF) para determinação de MBC. A detecção eletroquímica de TCC e MBC foi estudada utilizando diferentes técnicas voltamétricas sobre uma ampla faixa de pH e a determinação foi realizada em amostras de sabonetes para TCC e em água potável em baixas concentrações para os dois contaminantes. Para TCC, foram observados seis processos de oxidação, entretanto, o processo correspondente ao pico P1 apresentou maior sensibilidade e seletividade em tampão acetato pH 5,4, portanto, foi utilizado para o desenvolvimento das metodologias voltamétricas, VOQ direta e VOQ com redissolução adsortiva. Para a VOQ com redissolução adsortiva, a faixa de resposta linear foi de 1,8 a 21 × 10-9 mol L-1 com limite de detecção (LD) de 3,2 × 10-10 mol L-1, 1.000 vezes menor do que o LD obtido por VOQ direta. O método de redissolução adsortiva apresentou níveis satisfatórios de repetibilidade, 4,1% e reprodutibilidade, 5,4% e foi aplicado para determinação de TCC em amostras de sabonetes, obtendo uma recuperação média de 95,3% e água potável com uma média de recuperação aparente de 95,4%. O MBC apresentou um pico de oxidação principal, quase reversível e a maior sensibilidade foi alcançada em H2SO4, pH 1,0, sobre o EPC-NTCPMF, utilizando VOQ. A faixa de resposta linear está entre 3 e 150 × 10-10 mol L-1 com LD de 1,1 × 10-11 mol L-1. O método desenvolvido apresentou níveis satisfatórios de repetibilidade, 4,6% e reprodutibilidade, 6,2% e foi aplicado para determinação de MBC em amostras de água potável, obtendo-se valor médio de recuperação aparente de 95,6%. Os resultados obtidos no desenvolvimento dos métodos para determinação de TCC e MBC demonstraram excelente aplicabilidade para as amostras estudadas, além de apresentarem vantagens como instrumentação de baixo custo, rápida resposta analítica, elevada sensibilidade e seletividade.

Triclocarban

CIENCIAS EXATAS E DA TERRA::QUIMICA

Nanotubos de carbono

Eletrodos modificados

Voltametria de onda quadrada

Ovltametria de redissolução adsortiva

Contaminantes emergentes

Carbendazim

Carbon nanotubes

Modified electrodes

Square wave voltammetry

Stripping voltammetric

Emerging contaminants

Carbendazim

Novos materiais para aplicações analíticas nas determinações de compostos orgânicos de interesse farmacêutico e ambiental / New materials for analytical application in organic compound determination for pharmaceutical and environmental interests

Fabiana da Silva Felix

19 June 2009

Sensores de filme de carbono, construídos a partir de resistores com 2 Ω de resistência nominal, foram utilizados para aplicações em áreas de interesse ambiental e farmacêutico sem a modificação prévia de suas superfícies. Através de um tratamento eletroquímico em meio ácido, é possível obter uma faixa de potencial (para ambos os limites anódico e catódico) maior comparado aos eletrodos de carbono convencionalmente utilizados. Devido ao fato dos sensores serem confeccionados em escala industrial na Alemanha, seu custo é muito baixo, tornando possível sua utilização na forma de eletrodos descartáveis. Além disso, são caracterizados por uma grande versatilidade, reprodutibilidade e estabilidade. Para comprovar a viabilidade dos eletrodos de filme de carbono como transdutores voltamétricos, amostras de paraquat foram analisadas em águas de rio e potável. A associação com a voltametria de onda quadrada possibilitou obter um limite de detecção inferior ao limite máximo estabelecido para o herbicida em água potável. Estudos por voltametria cíclica mostraram dois picos para a redução do paraquat, similares aos descritos na literatura. Os sensores de filme de carbono também foram adaptados ao sistema de análise por injeção em fluxo para a determinação amperométrica de paracetamol e de ambroxol em formulações farmacêuticas. Em ambos os estudos, foi possível obter ampla faixa linear de concentração, baixos limites de detecção e sensibilidade elevada. Estudos de repetibilidade com os dois analitos apresentaram desvios padrões relativos de até 3%, comprovando a ausência de efeito de memória. Os resultados obtidos durante as análises em fluxo com os novos sensores amperométricos concordaram com as metodologias descritas nas farmacopéias. Ao longo dos quatro anos de doutoramento também foram desenvolvidos outros estudos, os quais estão descritos nos apêndices desta tese. / Carbon film sensors, built from resistors of 2 Ω nominal resistance, were employed for application in the environment and pharmaceutical fields without previous modification of the electrode surface. When these sensors are electrochemically treated they obtain a wider potential window (both anodic and cathodic regions) than many other forms of carbon. Due to the fact that sensors are produced on industrial scale in Germany, the cost of each unit is very low, a feature that enables the use of these electrodes in disposable form. Moreover, they have great versatibility, reproducibility and stability. To prove the suitability of the carbon film electrodes as voltammetric sensors paraquat samples were analysed in river and drinking water. The association with the square wave voltammetry led to a detection limit below the allowed upper limit for herbicide analysis in drinking water. Previous results with cyclic voltammetry showed two peaks for paraquat reduction, in agreement with the literature data. The carbon film sensors were also adapted to the flow injection analysis system for amperometric determination of acetaminophen and ambroxol in pharmaceutical formulations. It was possible to obtain a wide linear working range, low detection limit and high sensitivity for both analytes. During the repeatabilty studies, acetaminophen and ambroxol showed relative standard desviations lower than 3% without any memory effect. The results obtained with a new amperometric sensor associated to FIA were in good agreement with those recommended by pharmacopoeias. In the appendices of this thesis are described other studies which have been developed for four years of PhD.

Amperometria

Análises de fármacos

Compostos orgânicos (Determinação)

Eletroanálise

Eletroquímica (Aplicações)

Filmes de carbono

Pesticidas

Sensores

Voltametria de onda quadrada

Amperometry

Carbon films

Electroanalyses

Electrochemistry

Organic compounds

Pesticides

Pharmaceutical analyses

Sensors

Square wave voltammetry

Desenvolvimento de metodologias eletroanalíticas para determinação de pesticidas em óleo essencial de laranja / Development of electroanalytical methodologies for pesticides determination in orange essential oil

Fernanda Ramos de Andrade

01 August 2014

A citricultura, introduzida no Brasil na época da colonização e explorada comercialmente a partir dos anos 30 do século passado, é um setor de grande importância para o agronegócio brasileiro. Atualmente, o Brasil detém 50% da produção mundial de laranja e cerca de 85% de toda exportação mundial, representando uma captação de divisas de cerca de 2,5 bilhões de dólares por ano, devido principalmente à exportação do suco de laranja. Apesar do suco ser o principal produto de exportação da citricultura, vários subprodutos com valor comercial são obtidos durante seu processo de produção, tais como os óleos essenciais cítricos. Esses subprodutos localizam-se na casca da fruta e são obtidos durante o processo de extração do suco de laranja por prensagem a frio. Devido ao uso intensivo de pesticidas na citricultura e que muitas vezes se acumula na casca da fruta é comum à obtenção de óleos essenciais com resíduos de pesticidas, o que reduz seu preço de mercado internacional e limita sua inserção em mercados exigentes como o Europeu, Japonês e Americano, por exemplo. Este trabalho propõe o desenvolvimento de metodologias eletroanalíticas para a determinação de alguns pesticidas amplamente utilizados na citricultura brasileira e que têm sido encontrados nos óleos essenciais produzidos pelas indústrias de processamento. Inicialmente, foram realizados testes para avaliação da eletroatividade de três pesticidas (piridafention, cihexatina e bromopropilato) amplamente utilizados no Brasil, mas que são proibidos na maioria dos países importadores, sendo, portanto, de importância estratégica. Utilizando-se a técnica de voltametria cíclica verificou-se que o piridafention apresenta resposta sobre o eletrodo compósito de grafite-poliuretana (GPU), a cihexatina apresentou eletroatividade sobre o eletrodo de filme de bismuto e o bromopropilato não foi eletroativo nas superfícies eletródicas testadas. Varreduras realizadas com voltametria cíclica mostraram que o piridafention apresenta um pico de redução em -0,80 V (vs. EECS) sobre eletrodo compósito de GPU em meio ácido (tampão Britton-Robinson 0,1 mol L-1) com características de processo irreversível. Em seguida, desenvolveu-se uma metodologia eletroanalítica, utilizando a técnica de voltametria de onda quadrada (SWV), com a otimização do pH da solução (1,0) e demais parâmetros da SWV como a frequência (80 s-1), amplitude do pulso (50 mV) e incremento de varredura (ΔEi = 5 mV). Curvas analíticas foram obtidas no intervalo de 1,46 a 17,1 µmol L-1, apresentando boa linearidade, com coeficiente de determinação (r2) de 0,998. Os limites de detecção (LD) e de quantificação (LQ) obtidos foram de 0,27 µmol L-1 e 0,92 µmol L-1, respectivamente. A precisão da metodologia desenvolvida foi avaliada por meio da repetibilidade e a reprodutibilidade e a exatidão determinada pelo erro relativo. Os testes de recuperação realizados pelo método de adição de padrão forneceram valores de 98%. A metodologia eletroanalítica desenvolvida para determinação do piridafention foi aplicada em amostras de óleo essencial de laranja, contaminadas com três níveis de concentração 1,5, 2,9 e 5,9 µmol L-1. Foram avaliados quatro procedimentos de extração líquido-líquido, utilizando água Milli-Q como extrator: i) agitação manual da mistura (10 mL de óleo e 10 mL de água) por 4 minutos com repetição do procedimento por 3 vezes; ii) agitação magnética da mistura (5 mL de óleo e 50 mL de água) por 20 minutos em uma única etapa, à temperatura ambiente; iii) agitação magnética da mistura (5 mL de óleo e 50 mL de água) por 20 minutos em uma única etapa, à temperatura de 45°C; iv) agitação da mistura em mesa orbital com tempo de agitação variando de 5 até 180 minutos. Os melhores resultados foram obtidos com o procedimento utilizando a agitação por mesa orbital (iv), sendo recomendado, portanto, para extração do piridafention em amostras de óleo essencial de laranja. No caso da cihexatina, os testes realizados visando à determinação de uma metodologia eletroanalítica mostraram uma baixa reprodutibilidade do eletrodo filme de bismuto inviabilizando a sua aplicação na eletroanálise da cihexatina. Entretanto, devido à importância da cihexatina e do bromopropilato recomenda-se a realização de mais estudos eletroquímicos com o objetivo de se estabelecer novos métodos de análise. / The citrus production introduced in Brazil during the colonization period and commercially exploited since 1930, is very important for the Brazilian agribusiness. Currently, Brazil is responsible for 50% of the total world citrus production and for about 85% of the citrus world exportation trade, representing an income of about 2.5 billion dollars for the country yearly. The orange juice is the major product of the citrus industry, but other commercially valuable byproducts can be obtained during the manufacturing process, such as the citrus essential oils. These byproduct, located at the orange fruit exocarp, are extracted during the juice production process by cold pressing. Due to the use of pesticides in the citrus production, these agrochemicals can be occasionally presented in extracted essential oil products as unwished residues, which significantly reduce their values in the international market and restrict their insertion in exigent markets as the European, Japanese and North American, for instance. This study aim to develop electroanalytical methodologies for the determination of some pesticides widely employed in the Brazilian citrus production and that has been found in the essential oils produced by the processing industries. Preliminar tests were conducted to evaluate the electroactivity of three pesticides (pyridaphention, cyhexatin and bromopropylate) widely applied in Brazil, but not regulated for use in most of the importing countries. Using the cyclic voltammetry technique, these experiments showed that pyridaphenthion presented a good electrochemical response on the graphite-polyurethane composite electrode (GPU), cyhexatin showed electroactivity on thin bismuth film electrode and bromopropylate was not electroactive on the tested electodes. Studies conducted using cyclic voltammetry showed that pyridaphenthion presents a reduction peak in -0.8 V (vs. ESCE) on GPU in acidic medium (Britton - Robinson buffer 0.1 mol L- 1(BR)) with features of an irreversible process. The electroanalytical methodology for pyridaphenthion analysis was developed using square wave voltammetry (SWV) with optimization of pH (1.0) and the SWV scanning parameters, as pulse frequency (80 s-1), amplitude (50 mV), and increment (ΔEi = 5 mV). An analytical curve was obtained for concentrations ranging from 1.46 a 17.1 µmol L-1, showing good linearity expressed in the determination coefficient (r2) of 0.998. The detection limit (LOD) and quantification limit (LOQ) obtained were 0.27 µmol L-1 and 0.92 µmol L-1, respectively. The precision was evaluated by means its repeatability and reproductibility, while accuracy was assessed by means relative error. Recovery experiments conducted using the standard addition method provided a concentration recovering level of 98%. The electroanalytical methodology developed for pyridaphenthion was applied in citrus essential oil samples spiked with three concentration levels 1.5, 2.9 and 5.9 µmol L-1. Four liquid-liquid extraction procedures were evaluated using only Milli-Q purified water as extracting agent: i) manual stirring of the mixture (10 mL of essential oil and 10 mL of water) during 4 minutes, repeating the procedure three times; ii) magnetic stirring of the mixture (5 mL of essential oil and 50 mL of water) during 20 minutes, in a single step, at room temperature; iii) magnetic stirring of the mixture (5 mL of essential oil and 50 mL of water) during 20 minutes, in a single step, at 45o C; iv) orbital shaking of the mixture (5 mL of essential oil and 50 mL of water) for different period of times varying from 5 to 180 minutes. The best results were obtained with the procedure using the orbital shaking table (iv), which is, therefore, recommended for extraction of pyridaphention residues in citrus essential oils samples. For the cyhexatin, studies carried out aiming to determine an electroanalytical methodology, showed low reproducibility of the bismuth film, preventing its application in the electroanalysis of cyhexatin. However, due to the importance of these pesticides in citrus essential oils production it is recommended additional studies regarding the electrochemistry and electroanalysis of these chemicals.

bromopropilato

cihexatina

eletrodo de filme de bismuto

óleo essencial de laranja

piridafention

voltametria de onda quadrada

bismuth film electrode

bromopropylate

cyhexatin

electroanalytical determination

orange essential oil

pyridaphention

square wave voltammetry

Desenvolvimento de metodologia eletroanalítica para quantificação de filtros solares em cosméticos usando eletrodos modificados

Neves, Raiane Aparecida Lopes

21 February 2017

Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-07-20T12:27:21Z No. of bitstreams: 1 raianeaparecidalopesneves.pdf: 1081293 bytes, checksum: de7acb253e8ce7cc8f93a2e3685690c4 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-08-09T12:50:31Z (GMT) No. of bitstreams: 1 raianeaparecidalopesneves.pdf: 1081293 bytes, checksum: de7acb253e8ce7cc8f93a2e3685690c4 (MD5) / Made available in DSpace on 2017-08-09T12:50:31Z (GMT). No. of bitstreams: 1 raianeaparecidalopesneves.pdf: 1081293 bytes, checksum: de7acb253e8ce7cc8f93a2e3685690c4 (MD5) Previous issue date: 2017-02-21 / A importância e a necessidade do uso de protetores solares, também denominados fotoprotetores, nos últimos anos, é uma realidade inquestionável, visto que protegem a pele contra a radiação ultravioleta. A resolução RDC nº 47 de março de 2006 da Agência Nacional de Vigilância Sanitária (ANVISA) determina quais tipos de filtros podem ser usados em produtos de higiene pessoal, cosméticos e perfumes, bem como sua concentração máxima permitida (10 % para benzofenona-3 - BZ-3, 4 % para 4-metilbenzilideno cânfora – MBC e 10 % para 4-metoxicinamato-2-etilhexila – OMC). Portanto, o presente trabalho teve como objetivo o desenvolvimento de um método eletroanalítico utilizando eletrodos modificados e voltametria de onda quadrada para quantificar BZ-3, MBC e OMC em amostras de protetor solar. Foram otimizadas a composição do eletrólito, eletrodo de trabalho e a técnica voltamétrica aplicada. O sistema eletroquímico consistiu em uma célula com três eletrodos: trabalho – eletrodo de ouro modificado com filme de mercúrio, referência – Ag/AgCl(sat) e auxiliar - platina, como eletrólito foi usado 4,0 mL de Tampão Britton Robinson 0,04 mol.L-1 (pH = 4,0), 1,0 mL de Metanol (grau HPLC) e 5,50 x 10-4 mol.L-1 de brometo de cetiltrimetilamônio. As medidas eletroquímicas foram realizadas por voltametria de onda quadrada, sendo o sistema eletroquímico submetido a purga com argônio por 12 minutos antes das análises. Os limites de detecção (LD) e quantificação (LQ) foram 0,47 mg.L-1 e 1,56 mg.L-1 para BZ-3, 0,77 mg.L-1 e 2,58 mg.L-1 para MBC e 0,78 mg.L-1 e 2,59 mg.L-1 para OMC. O método mostrou valores de recuperação entre 83,3 a 98,1 %. Foram encontrados valores de concentração para BZ-3 de 3,49 % m/m (728 mg.L-1), para MBC de 0,56 % m/m (113 mg.L-1) e para OMC 0,99 % m/m (208 mg.L-1). As amostras de protetor solar foram avaliadas por cromatografia líquida de alta eficiência, como método de referência, demostrando uma boa correlação entre os resultados. Desta forma, todos os valores estão abaixo do permitido pela ANVISA. / In the last few years, the importance and necessity of the use of sunscreen protectors, also denominated photoprotectors, is an unquestionable reality, since they protect the skin against the ultraviolet radiation. The resolution RDC n. 47 of March, 2006 of National Sanitary Vigilance Agency (ANVISA) determines which kinds of filters can be used in personal hygiene products, cosmetics and perfumes, as well as their maximal allowed concentration (10% benzophenone-3 – BZ-3, 4% to camphor 4-metylbenzilidene – MBC and 10% to 2-ethylhexyl-4-methoxycinnamate – OMC). Therefore, the present work has as objective the development of an electroanalytical method utilizing modified electrodes and square wave voltammetry to quantify BZ-3, MBC and OMC in sunscreen protector samples. The electrode composition, work electrode and voltammetric technique were optimized. The electrochemical system consisted of a cell with three electrodes: work – gold electrode modified with mercury film, reference – Ag/AgCl(sat) and auxiliary – platinum, using as electrolyte 4.0 mL of Britton Robinson Buffer 0.04 mol.L-1 (pH = 4.0), 1.0 mL of methanol (HPLC degree) and 5.50 x 10-4 mol.L-1 of cetyltrimethylammonium bromide. The electrochemical measurements were realized by square wave voltammetry, being the electrochemical system under an argon purge for 12 minutes before the analyses. The detection (LD) and quantification (LQ) limits were 0.47 mg.L-1 and 1.56 mg.L-1 to BZ-3, 0.77 mg.L-1 and 2.58 mg.L-1 to MBC and 0.78 mg.L-1 and 2.59 mg.L-1 to OMC. The method showed recovery values between 83.3 and 98.1%. Concentration values found were 3.49% m/m (728 mg.L-1) to BZ-3, 0.56% m/m (113 mg.L-1) to MBC and 0.99% m/m (208 mg.L-1) to OMC. The sunscreen protector samples were evaluated by high performance liquid chromatography, as the reference method, demonstrating a good correlation between the results. In this way, all the values are below of that allowed by ANVISA.

Protetor solar

BZ-3

OMC

MBC

Sunscreen protectors

Analysis by square wave voltammetry

BZ-3

OMC

MBC

Quantum dots-amplified electrochemical cytochrome P450 phenotype sensor for tamoxifen, a breast cancer drug

Feleni, Usisipho

January 2017

Philosophiae Doctor - PhD / Breast cancer is regarded as the most common cancer in South Africa and its rate of occurrence is increasing. About one in every 31 South African women are at the risk of developing breast cancer and early diagnosis and treatment guarantee 90% survival rate. Tamoxifen is the drugs of choice for the treatment of all stages of breast cancer. The drug binds with estrogen receptor (ER) to minimize the transcription of estrogen dependent genes. However, nearly 50% of ER-positive breast cancer patients either become resistant or fail to respond to tamoxifen resulting in a serious clinical challenge in breast cancer management. The Grand Health Challenges of South Africa includes the development of cost effective diagnostic systems suitable for early detection of diseases and drug resistivity for timely invention and better patient management. / 2020-08-31

Breast cancer

Capping agents

Cyclic voltammetry (CV)

Cytochrome P450 enzymes

Differential pulse voltammetry (DPV)

Electrochemical phenotype sensors

Indinavir

Limit of detection (LOD)

Palladium telluride

Quantum dots

Square wave voltammetry (SWV)

Tamoxifen

Вольтамперометрическое определение основного вещества противовирусного препарата Триазид® с использованием стеклоуглеродного электрода : магистерская диссертация / Voltammetric determination of the basic substance of the antiviral drug Triazid® using a glassy carbon electrode

Замана, А. А., Zamana, A. A.

January 2018

The object of the study was the pharmaceutical substance TRIAZID of the newest Russian antiviral drug azolo-azinovogo series containing nitro group. Objective: development and validation of the methodology for voltammetric determination of triazide in the pharmaceutical substance TRIAZID on a glassy carbon electrode. Analysis of literature data showed that in the case of biologically active nitro compounds, the most useful for quantitative determination is the electroreduction signal of the nitro group. The advantages of the signal include both the large amount of current generated per mole of the electroactive connection and the relatively low energy requirement for the reduction of the nitro group. This makes it possible to obtain a high current / concentration ratio at low recovery potentials. The conditions for obtaining an analytical signal of triazide on a glassy carbon electrode are optimized. A simple and expressive method for eliminating the interfering effect of dissolved oxygen with the help of sodium sulphite is proposed. / Объектом исследования служила фармацевтическая субстанция ТРИАЗИД новейшего российского противовирусного препарата азоло-азинового ряда, содержащего нитрогруппу. Цель работы: разработка и валидация методики вольтамперометрического определения триазида в фармацевтической субстанции ТРИАЗИД на стеклоуглеродном электроде. Анализ литературных данных показал, что в случае биологически активных нитросоединений наиболее полезным для количественного определения является сигнал электровосстановления нитрогруппы. К преимуществам сигнала можно отнести как большое количество тока, вырабатываемое на моль электроактивного соединения, так и относительно низкую потребность в энергии для восстановления нитрогруппы. Это позволяет получать высокое отношение ток / концентрация при низких потенциалах восстановления. Оптимизированы условия получения аналитического сигнала триазида на стеклоуглеродном электроде. Предложен простой и экспрессный способ устранения мешающего влияния растворенного кислорода с помощью сульфита натрия. Разработана и валидирована по актуальным требованиям Государственной Фармакопеи РФ XIII издания вольтамперометрическая методика определения триазида в фармацевтической субстанции ТРИАЗИД. Контроль содержания триазида по разработанной методике удовлетворяет заявленным критериям приемлемости, не требует дорогостоящего оборудования, привлечения высококвалифицированного персонала, отличается коротким временем анализа. При условии включения в фармстатью предприятия разработанный метод может применяться испытательными лабораториями предприятия в процессе производства препарата.

MASTER'S THESIS

PHARMACEUTICAL SUBSTANCE TRIAZIDE

GLASSY CARBON ELECTRODE

SQUARE-WAVE VOLTAMMETRY

METHODS FOR REMOVING DISSOLVED OXYGEN

VALIDATION OF ANALYTICAL METHODS

Voltametrijske metode na bazi jednostavnih i savremenih elektroda/senzora za određivanje odabranih analita od farmakološkog značaja / Voltammetric methods based on simple and contemporary electrodes/sensors for the determination of selected analytes of pharmacological significance

Vajdle Olga

08 November 2017

<p>Danas, u raznim analitičkim laboratorijama postoji veći broj analitičkih protokola,<br />zasnovanih bilo na izuzetno sofisticiranim ili jednostavnijim tehnikama, koji služe za<br />određivanje različitih ciljnih analita od farmakolo&scaron;kog značaja. Među tim grupama ciljnih analita pripadaju i antibiotici koji predstavljaju veliko otkriće u oblasti medicine i zahvaljujući njima spa&scaron;eno je vi&scaron;e od sedam miliona života, ali pored navedenih koristi, antibiotici mogu da izazovu&nbsp; veliki broj neželjenih efekata i žučne kiseline zajedno sa svojim derivatima, koji su fiziolo&scaron;ki deterdženti, mogu biti citotoksične za organizam ako se njihova koncentracija ne kontroli&scaron;e. U ovoj doktorskoj disertaciji prikazan je razvoj analitičkih metoda pre svega voltametrijskihmetoda u kombinaciji sa jednostavnim i savremenim elektrodama/senzorima za određivanje&nbsp; odabranih analita kao &scaron;to je antraciklični antibiotik doksorubicin (DOX), makrolidni antibiotici<br />eritromicin-etilsukcinata (EES), azitromicina (AZI), klaritromicina (CLA) i roksitromicina&nbsp; (ROX) i 3-dehidro-deoksiholne kiseline.</p><p>Voltametrijska karakterizacija i određivanje gore navedenih antibiotika primenom obnovljive srebro-amalgam film elektrode (Hg(Ag)FE)rađena je direktnom katodnom&nbsp; voltametrijom sa pravougaonim talasima (SWV) i visoko osetljivom adsorptivnom voltametrijom sa pravougaonim talasima (SW-AdSV) u Briton-Robinson puferu, kao pomoćnom elektrolitu, obuhvatajući &scaron;irok opseg pH vrednosti. Odgovor DOX-a primenom&nbsp; Hg(Ag)FE&nbsp;praćen je u intervalu potencijala od -0,20 do -0,80 V.&nbsp; Za analizu tragova, optimizacija metode ukazuje da su optimalni parametri za analitički pik na potencijalu (Ep ) -0,57 V u odnosu na zasićenu kalomelovu elektrodu (ZKE): pH 6,0, potencijal&nbsp; akumulacije -0,20 V i vreme&nbsp; akumulacije 140 s. U model rastvoru, DOX je određivan u koncentracionom opsegu 4,99-59,64&nbsp; ng mL^-1. Razvijena SW-AdSV metoda je primenjena za određivanje DOX-a u obogaćenom uzorku humanog urina. Niža koncentracija DOX-a 9,89ng mL^-1&nbsp;u voltametrijskoj&nbsp; ćeliji je određivana sa relativnom standardnom devijacijom (RSD) manjom od 6,0%. &Scaron;to se ispitivanih makrolida tiče oni su pokazali redukcione signale u dalekoj negativnoj oblasti potencijala. Ispitivanja direktnom katodnom SWV rađena su u opsegu potencijala od -0,75 V do -2,00 V u odnosu na ZKE, pri čemu su dobijena jedan ili dva redukciona pika u opsegu potencijala od -1,5 V do -1,9 V. Oblik i intenzitet signala zavisi od primenjene pH vrednosti u &scaron;irokoj pH oblasti. Za analitičke svrhe, radi razvoja direktne katodne SWV i adsorptivne inverzne/striping SWV metode, pogodnim su se pokazale neutralna i slabo alkalna sredina tj. pH 7,0 sa&nbsp; E_p na -1,67 V u odnosu na ZKE za ROX i EES i pH 7,2 sa E_p na -1,85 V u odnosu na ZKE za AZI i pH 7,4 sa E_p na -1,64 V u odnosu na ZKE za CLA. Na osnovu snimljenih cikličnih voltamograma na&nbsp; optimalnim pH vrednostima, može se predložiti adsorptivno-kontrolisan kinetički proces na elektrodi u slučaju sva&nbsp; četiri ispitivana jedinjenja. Takođe,&nbsp; ¹H NMR merenja uz potiskivanje&nbsp; signala vode u pH oblasti između pH 6,0 i 10,5 ukazuju na to da su makrolidni molekuli pri optimalnim analitičkim uslovima predominantno u protonovanoj formi preko tercijerne amino grupe &scaron;to potpomaže, u sva&nbsp; četiri slučaja, njihovu adsorpciju na odgovarajuće polarizovanoj Hg(Ag)FE. Optimizovane direktne katodne SWV metode&nbsp; pokazuju dobru linearnost u koncentracionom opsegu 4,81-23,3&nbsp; &micro;g mL^-1 , 4,53-29,8&nbsp; &micro;g mL^-1 , 1,96-28,6&nbsp; &micro;g mL^-1 i 1,48-25,9 &micro;g mL^-1 za AZI, EES, CLA odnosno ROX. Razvijene SW-AdSV metode rezultiraju u linearnom odgovoru pri nižim koncentracionim intervalima 1,0-2,46 &micro;g mL^-1 ,&nbsp; 0,69-2,44&nbsp; &micro;g mL^-1, 0,05-0,99 &micro;g mL^-1 i 0,10-0,99&nbsp; &micro;g mL^-1 , za AZI, EES, CLA i ROX. RSD za sve razvijene metode nije veća od 1,5% izuzev SWV metode u slučaju AZI-a gde je 4,5%. Direktna katodna SWV metoda&nbsp; je uspe&scaron;no primenjena za određivanje EES-a u farmaceutskom proizvodu Eritromicin^&reg; dok SW-AdSV metoda je primenjena u slučaju određivanja EES-a u obogaćenom uzorku humanog urina i&nbsp;za određivanje ROX-a u farmaceutskom proizvodu Runac^&reg; . U svim pomenutim slučajevima, primenjena je metoda standardnog dodatka. Pouzdanost i tačnost elaboriranih procedura u slučaju određivanja EES-a u model sistemu i&nbsp; farmaceutskom proizvodu Eritromicin^&reg; su potvrđena poređenjem sa rezultatima dobijenim primenom HPLC-DAD metode.</p><p>Nakon preliminarnih studija 3-dehidro-deoksiholne&nbsp; kiseline/3-dehidro-deoksiholata primenom elektrode od staklastog ugljenika (GCE), gde je uočeno da ne dolazi do formiranja redukcionog signala u Briton-Robinson puferu između pH 5,0 i 11,8 primenom direktne katodne SWV, bizmut-film je izdvojen&nbsp; <em>ex situ</em> na povr&scaron;ini iste elektrode od staklastog ugljenika (BiF-GCE) iz uobičajeno kori&scaron;ćenog rastvora za elektrodepoziciju (0,02 mol L^-1 Bi(NO₃)₃, 1,0 mol L^-1 HCl i 0,5 mol L^-1 KBr) i tako pripremljena elektroda je primenjena za karakterizaciju i određivanje pomenutog jedinjenja u alkalnoj sredini. Redukcioni signal ispitivanog analita od analitičkog značaja je uočen jedino primenom BiF-GCE u Briton-Robinson puferusa pH vrednostima između 9,5 i 11,8 u režimu adsorptivne inverzne/stripingvoltametrije sa pravougaonim talasima, dok u slučaju direktnih katodnih SWV eksperimentalnih uslova uočen je slab redukcioni pik sa niskom strujom maksimuma pika. Optimizovani eksperimentalni uslovi za određivanje 3-dehidro-deoksiholata obuhvataju odgovarajuće kondicioniranje elektrode uključujući kondicioniranje&nbsp; <em>ex situ</em> pripremljene BiF-GCE u Briton-Robinson pomoćnom elektrolitu pH 11,8 do stabilizacije struje bazne linije elektrohemijskim cikliranjem potencijala radne elektrode u potencijalskom opsegu između -1,00 i -2,00 V u odnosu na ZKE (blizu 15 puta) i primenu dva ključna parametara adsorptivne voltametrije sa pravougaonim talasima: vreme akumulacije od 30 s i potencijal akumulacije&nbsp; -1,00 V u odnosu na ZKE. Zbog relativne asimetričnosti dobijenih redukcionih signala ispitivanog analita sa&nbsp; E_p na -1,35 V u odnosu na ZKE, &scaron;to je takođe prisutno i u slučaju primene SW-AdSV, određivanje ispitivanog analita je zasnovano na linearnoj zavisnosti između povr&scaron;ine pika redukcionog signala&nbsp; spitivanog analita i njegove odgovarajuće koncentracije i postignuta granica detekcije je 1,43 &micro;g mL^-1 sa dva linearna opsega kalibracione krive od 4,76 &micro;g mL^-1 do 13,0 &micro;g mL^-1 i od 13,0 &micro;g mL^-1 do 23,1 &micro;g mL^-1 za razvoj analitičke metode. RSD metode je 3,22%. Dodatni eksperimenti, elektroliza ispitivanog analita na potencijalu -1,55 V (blizu maksimuma pika ciljnog analita) u odnosu na ZKE su rađeni primenom GCE u obliku ploče (povr&scaron;ina 33,52 cm 2 ) modifikovane sa&nbsp; <em>ex situ&nbsp;</em>pripremljenim bizmut-filmom. Rastvor od interesa uzorkovan je na početku eksperimenta, nakon 2,5 h i nakon 4,5 h tretmana. Ovakvi uzorci su analizirani primenom ¹H NMR merenja uz potiskivanje signala vode u puferskom rastvoru pH 11,8. Može se pretpostaviti da tokom elektrolize 3-dehidro-deoksiholata dolazi do redukcije keto grupe prisutne u strukturi ispitivanog analita.</p><p>Na osnovu literaturnih podataka da neki od ciljnihmakrolidnih antibiotika kao &scaron;to je npr. azitromicin pokazuju oksidativno pona&scaron;anje na elektrodi od ugljenične paste i elektrodi od zlata deteljna karakterizacija i određivanje&nbsp; četiri makrolidna antibiotika rađena je primenom&nbsp; asične&nbsp;elektrode od ugljenične paste (CPE) koja se sastoji samo od grafitnog praha i parafinskog ulja sa optimizovanih direktnih anodnih SWV metoda. U slučaju EES-a i AZI-a diferencijalna pulsna voltametrija (DPV) je testirana za iste svrhe. Ključni&nbsp; parametar u slučaju razvoja analitičkih voltametrijskih metoda je odabir pH vrednosti pomoćnog elektrolita gde je oblik/simetričnost i intenzitet oskidacionog pika glavni kriterijum prilikom odabira. Kao odgovarajuće pH vrednosti za voltametrijsko određivanje EES-a primenom SWV metode odabrana je pH 8,0 sa E_p na 0,83<br />V u odnosu na ZKE, dok u slučaju DPV metode pH 12,0 sa&nbsp; E_p na 0,55 V u odnosu na ZKE je bila najpogodnija za analitičke svrhe. Za određivanje AZI-a, u slučaju obe SWV i DPV metode pH 7,0 se pokazala najpogodnijom sa E_p analitičkog signala na 0,85 V odnosno 0,80 V u odnosu na ZKE, dok u slučaju CLA i ROX koji su ispitivani samo primenom SWV metode za analitičke svrhe pH 12,0 je bila najpogodnija sredina sa E_p analitičkog signala na 0,65 V odnosno na 0,63 V&nbsp;u odnosu na ZKE. Postignute granice detkcije primenom nemodifikovane CPE i direktne anodne SWV su uglavnom u submikrogramskom koncentracionom opsegu 0,17 &micro;g mL^-1 , 0,32&nbsp; &micro;g mL^-1 i 0,30&nbsp; &micro;g mL^-1, u slučaju EES-a, AZI-a i ROX-a i u niskom mikrogramskom koncentracionom opsegu 1,43&nbsp; &micro;g mL^-1 za CLA. Razvijena SWV metoda sa jednostavnom CPE pokazala se pogodnom za određivanje ROX-a u komercijalnom proizvodu Runac^&reg; tableti. U slučaju optimizovanih DPV metoda postignute granice detekcije za EES i AZI su u niskom mikrogramskom&nbsp; koncentracionom opsegu 1,03&nbsp; &micro;g mL^-1 odnosno 1,53&nbsp; &micro;g&nbsp; mL^-1 . U želji da se&nbsp;postigne niža granica detekcije za AZI, DPV metoda&nbsp; je testirana u kombinaciji sa&nbsp; CPE radnom elektrodom povr&scaron;inski modifikovanom sa zlatnim nanočesticama&nbsp; prečnika 10 nm (Au-CPE) i&nbsp; postignuta granica detekcije je 0,95&nbsp; &micro;g mL^-1 sa&nbsp; E_p analitičkog signala na 0,80 V u odnosu na&nbsp; ZKE. RSD metode u slučaju Au-CPE je 3,5%, dok je u slučaju nemodifikovane CPE 6,0%.&nbsp; Linearnost analitičke metode zasnovane na primeni Au-CPE je dva puta &scaron;ira nego u slučaju&nbsp; primene nemodifikovane CPE.</p><p>Na osnovu dobijenih rezultata može se zaključiti da&nbsp; odgovarajuće kombinacije&nbsp; optimizovanih voltametrijskih tehnika sa ekolo&scaron;ki prihvatljivim i lako primenljivim radnim&nbsp; elektrodama, kao &scaron;to su Hg(Ag)FE, BiF-GCE i CPE zajedno sa Au-CPE, rezultuju razvojem&nbsp; pouzdanih analitičkih metoda, kako u oksidacionim tako i u redukcionim proučavanjima, koje&nbsp; često omogućuju&nbsp; određivanje tragova analita od farmakolo&scaron;kog značaja u jednostavnim, a u&nbsp;nekim slučajevima i u složenim sistemima.&nbsp;</p> / <p>Nowadays in different analytical laboratories there is the increasing number of analytical protocols, either based on highly sophisticated or simpler measurements techniques, which serving for determination of different target analytes of pharmacological importance. Among such target groups of the analyte belongs the antibiotics which present a great discovery in the field of medicine and thanks to them were saved more than seven million people but beside to the mentioned great benefits, antibiotics can cause a large number of side effects and bile acids together with their derivatives which are physiological detergents but if their concentration is not<br />controlled they can be cytotoxic to the body. In the present doctoral dissertation the development of analytical methods, primarily analytical voltammetric methods in combination with simple and contemporary electrodes/sensors, for the determination of selected analytes as antracycline antibiotic doxorubicin (DOX), macrolide antibiotics erythromycin ethylsuccinate (EES), azithromycin (AZI), clarithromycin (CLA) and roxithromycin (ROX) and 3-dehydrodeoxycholic acid were performed.</p><p>Voltammetric characterization and determination of the above mentioned antibiotics using a renewable silver-amalgam film electrode (Hg(Ag)FE) was performed by direct cathodic square-wave voltammetry (SWV) and by highly sensitive adsorptive square-wave voltammetry (SW-AdSV) in aqueous Britton-Robinson buffer solutions as supporting electrolyte covering the wider pH range. The Hg(Ag)FE response of DOX was monitored in the potential range between -0.20 and -0.80 V. For the trace level analysis the method optimization showed that the optimal conditions for the analytical peak with peak potential (E_p) at -0.57 V vs. SCE were: the pH 6.0, the accumulation potential -0.20 V, and the accumulation time 140 s. In the model solutions, DOX was determined in the concentration range of 4.99-59.64 ng mL^-1. The developed SWAdSV method was applied for the determination of DOX in spiked human urine sample. The lowest concentration of DOX of 9.89 ng mL^-1 in voltammetric vessel was determined with the relative standard deviation (RSD) less than 6%. As for the investigated macrolides, they showed reduction signals in fairly negative potential range. During direct cathodic SWV investigations conducted over the potential range from -0.75 V to -2.00 V vs. SCE, either one or two reduction peaks were obtained in the&nbsp; potential range from -1.5 to -1.9 V. For analytical purposes concerning the development of direct cathodic SWV and adsorptive stripping SWV methods the neutral&nbsp; and slightly alkaline media were suitable as pH 7.0 with E_p at -1.67 V vs.&nbsp; SCE for ROX and EES and pH 7.2 and pH 7.4 with E_p at -1.85 V and -1.64 V vs. SCE for AZI and CLA, respectively. Based on the cyclic voltammograms recorded at these pH values, adsorptioncontrolled electrode kinetics process can be proposed for all four investigated compounds. The water suppressed ¹H NMR measurements in the pH range between 6.0 and 10.5 indicated that the macrolide molecules at the optimal analytical conditions are predominantly in protonated form via their tertiary amino groups which supported in all four cases their adsorption on the appropriately polarized Hg(Ag)FE electrode. The optimized direct cathodic SWV methods showed good linearity in concentration ranges 4.81-23.3 &mu;g mL^-1, 4.53-29.8 &mu;g mL^-1, 1.96-28.6&nbsp; &mu;g mL^-1, and 1.48-25.9 &mu;g mL^-1 for AZI, EES, CLA and ROX, respectively. The SW-AdSV methods resulted in the linear responses at lower concentration ranges as 1.0-2.46 &mu;g mL^-1, 0.69- 2.44 &mu;g mL^-1, 0.05-0.99 &mu;g mL^-1 and 0.10-0.99 &mu;g mL^-1, for AZI, EES, CLA and ROX, respectively. The RSD for all developed methods was not higher than 1.5% except the SWV method for AZI with 4.7%. The direct cathodic SWV method was successfully applied for the determination of EES in the pharmaceutical preparation Eritromicin^&reg;, while SW-AdSV was tested in the case of the spiked urine sample and for determination of ROX in pharmaceutical preparation Runac^&reg;. In all above cases, the standard addition method was used. The reliability and accuracy of the above procedures in the case of EES determination in model system and pharmaceutical preparation Eritromicin^&reg; were validated by comparing them with those obtained by means of HPLC-DAD measurements.</p><p>After initial study of 3-dehydro-deoxycholic acid/3-dehydro-deoxycholate by glassy carbon electrode, where the absence of any reduction peak was observed in the Britton-Robinson buffer solutions between pH 5.0 and 11.8 by direct cathodic SWV, a bismuth-film was electrodeposited ex situ on the same glassy carbon electrode surface (BiF-GCE) from the usually used plating solution (0.02 mol L^-1 Bi(NO₃)₃, 1.0 mol L^-1 HCl and 0.5 mol L^-1 KBr) and such prepared film-electrode was applied for the characterization and determination of the the target analyte in alkaline media. The reduction signal of analytical importance was observed only by BiF-GCE in Britton-Robinson buffer solutions with pH values between 9.5 and 11.8 in adsorptive stripping square-wave voltammetry working regime, while in the case of the direct cathodic SWV experimental protocol only a very poor reduction peak was obtained. The optimized experimental conditions for the 3-dehydro-deoxycholate determination consist of the optimized electrode conditioning including the electrochemical cycling of the <em>ex situ </em>prepared BiF-GCE potentials in the potential span between -1.0 and -2.0 V vs. SCE (nearly 15 times) in the Britton-Robinson supporting electrolyte pH 11.8 till the stabilization of the baseline current, and the application of two key parameters of the adsorptive square-wave voltammetric protocol: the accumulation time as 30 s and accumulation potential as -1.0 V vs. SCE. Because of the relative asymmetry of the obtained reduction signals of the target analyte with peak E_p at -1.35 V vs. SCE, which is still present in the case of the SW-AdSV, the quantification of the target analyte was based on the linear correlation between peak area of the reduction signal and its appropriate concentrations, and reached limit of detection is 1.43 &mu;g mL^-1 and with two linear ranges of calibration curve from 4,76 &mu;g mL^-1 to 13.0 &mu;g mL^-1 and from 13,0 &mu;g mL^-1 to 23,1 &mu;g mL^-1 for the development of analytical method. The RSD of the method&nbsp; was 3.22%. Additional experiments were performed applying GCE with rectangular form (area 35.32 cm²) modified with ex situ prepared bismuth-film for the electrolysis of the target analyte which was performed at the potential -1.55 V (nearly the peak maxima of the target analyte) vs. SCE. The solution of interest was sampled at the beginning of the experiment, after 2.5 h and after 4.5 h of treatment. Such samples were analysed by simply water suppressing ¹H NMR measurements in the buffered solution at pH 11.8. It can be assumed that during electrolysis of 3-dehydrodeoxycholate the reduction of the keto group present in the structure of the target analyte can be occurred.</p><p>Driven by earlier literature data about the fact that some of the target macrolide antibiotics as e.g. azithromycin showed oxidation behavior at a carbon paste and gold working electrodes detailed characterization and determination of four target macrolide antibiotics were performed on classical carbon paste electrode (CPE) constituted only from graphite powder and paraffin oil with optimized direct anodic SWV methods. In the cases of EES and AZI differential pulse voltammetric (DPV) methods were tested for the same purpose as well. The key parameter in the case of the development of the analytical voltammetric methods is the selection of the pH value of the supporting electrolyte where the shape/simmetry and intensity of the oxidation peak were the criteria. As the appropriate pH value for determination of EES by SWV method the pH 8.0 was selected with E_p at 0.83 V vs. SCE while in the case of the DPV method the pH 12.0 with E_p at 0.55 V vs. SCE was the most suitable for analytical&nbsp; purpose. As for AZI determination, in the case of both SWV and DPV methods the pH 7.0 was the most appropriate supporting electrolyte with the Ep of analytical signal at 0.85 V and 0.80 V vs. SCE, respectively, while in the case of CLA and ROX which were investigated only with SWV method for the analytical purposes the pH 12.0 was the most suitable with E_p at 0.65 V and at 0.63 V vs. SCE. The obtained detection limits applying the bare CPE and the direct anodic SWV are mainly&nbsp; in submicrogram concentration range as 0.17 &mu;g mL^-1; 0.32 &mu;g mL^-1 and 0.30 &mu;g mL^-1 for EES, AZI, and ROX and in the low microgram concentration range as 1.43 &mu;g mL^-1 for the CLA, respectively. The developed method succesfully tested for the determination of ROX in the commercial formulation, Runac^&reg; tablet. In the case of the optimized DPV methods the obtained detection limits for EES and AZI are in the low microgram concentration range 1.03 &mu;g mL^-1 and 1.53 &mu;g mL^-1, respectively. For the improvement of the sensitivity for AZI the DPV method was tested in combination with a&nbsp; CPE working electrode surface modified with gold nanoparticles with diameter of 10 nm (Au-CPE) and reached the limit of detection was 0.95 &mu;g mL^-1 at E_p of 0.80 V vs. SCE. The RSD of the method in the case of the Au-CPE is 3.5% while in the case of the native CPE 6.0%. The linearity of the Au-CPE based analytical method is twice wider then it is case with the bare CPE applying protocol.</p><p>Based on the obtained results it can be conclude that the appropriate combination of the optimized voltammetric pulse techniques and the environmentally friendly and easy to use working electrodes as Hg(Ag)FE, BiF-GCE and CPE together with Au-CPE resulted in the development of reliable analytical method either in the oxidation or reduction studies, often allowing trace level determination of pharmacological importance target analytes in simpler and in some case complexes systems.</p>

Detekce oxidačního stresu pomocí elektrochemických DNA biosenzorů / Detection of Oxidative Stress Using Electrochemical DNA Biosensors

Jurečková, Zuzana

January 2015

Presented Diploma Thesis is focused on the development, characterization, and utilization of simple and inexpensive electrochemical DNA biosensor for the detection of DNA damage caused by oxidative stress. The initial part of the work is devoted to preparation and characterization of a large-surface carbon film electrode (ls-CFE) modified with carbon nanotubes (CNT/ls-CFE). Carbon nanotubes improve electrochemical properties of the transducer and increase the amount of adsorbed DNA on the electrode surface. Testing of the electrode surface modified with multiwalled carbon nanotubes (MWCNT) was performed using cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) using a redox system [Fe(CN)6]4-/3- and using square wave voltammetry without any redox indicator. Carbon nanotubes have proved to be unsuitable material for our type of biosensor, but it can be used inanalytical chemistry for the determination of electroactive substances. The second part of this Thesis deals with the application of the prepared DNA biosensor for the detection of DNA damage by oxidative stress. The biosensor based on the ls-CFE was chosen for this purpose, having several advantages, such as its fast preparation, a simple mechanical renewal of the electrode surface, a good reproducibility of measurements,...

Cytochrome C biosensor for the determination of trace level arsenic and cyanide compounds

Fuku, Xolile Godfrey

January 2011

In this work, an electrochemical method based on a cyt c biosensor has been developed, for the detection of selected arsenic and cyanide compounds. Boron Doped Diamond (BDD) electrode was used as a transducer, onto which cyt c was immobilised and used for direct determination of Prussian blue, potassium cyanide and arsenic trioxide by inhibition mechanism. The sensitivity as calculated from cyclic voltammetry (CV) and square wave voltammetry (SWV), for each analyte in phosphate buffer (pH= 7) was found to be (1.087- 4.488 ×10-9 M) and the detection limits ranging from 0.0043- 9.1 μM. These values represent a big improvement over the current Environmental Protection Agency (EPA) and World Health Organisation (WHO) guidelines.

Cytochrome c (cyt c)

Boron doped diamond (BDD)

Prussian blue (PB)

Arsenic trioxide (As)

Incubation

Drop coating

Intoxication

Toxicity

Electron-transport chain

Asphyxiates

Cyclic voltammetry (CV)

Square wave voltammetry (SWV)

UV/vis spectroscopy

Cytochrome C biosensor for the determination of trace level arsenic and cyanide compounds

Fuku, Xolile Godfrey

January 2011

In this work, an electrochemical method based on a cyt c biosensor has been developed, for the detection of selected arsenic and cyanide compounds. Boron Doped Diamond (BDD) electrode was used as a transducer, onto which cyt c was immobilised and used for direct determination of Prussian blue, potassium cyanide and arsenic trioxide by inhibition mechanism. The sensitivity as calculated from cyclic voltammetry (CV) and square wave voltammetry (SWV), for each analyte in phosphate buffer (pH= 7) was found to be (1.087- 4.488 ×10-9 M) and the detection limits ranging from 0.0043- 9.1 μM. These values represent a big improvement over the current Environmental Protection Agency (EPA) and World Health Organisation (WHO) guidelines.

Cytochrome c (cyt c)

Boron doped diamond (BDD)

Prussian blue (PB)

Arsenic trioxide (As)

Incubation

Drop coating

Intoxication

Toxicity

Electron-transport chain

Asphyxiates

Cyclic voltammetry (CV)

Square wave voltammetry (SWV)

UV/vis spectroscopy