Development of paper-based color test-strip for drug detection in aquatic environment: Application to oxytetracycline

The wide use of antibiotics in aquaculture has led to the emergence of resistant microbial species. It should be avoided/minimized by controlling the amount of drug employed in fish farming. For this purpose, the present work proposes test-strip papers aiming at the detection/semi-quantitative determination of organic drugs by visual comparison of color changes, in a similar analytical procedure to that of pH monitoring by universal pH paper. This is done by establishing suitable chemical changes upon cellulose, attributing the paper the ability to react with the organic drug and to produce a color change. Quantitative data is also enabled by taking a picture and applying a suitable mathematical treatment to the color coordinates given by the HSL system used by windows. As proof of concept, this approach was applied to oxytetracycline (OXY), one of the antibiotics frequently used in aquaculture. A bottom-up modification of paper was established, starting by the reaction of the glucose moieties on the paper with 3-triethoxysilylpropylamine (APTES). The so-formed amine layer allowed binding to a metal ion by coordination chemistry, while the metal ion reacted after with the drug to produce a colored compound. The most suitable metals to carry out such modification were selected by bulk studies, and the several stages of the paper modification were optimized to produce an intense color change against the concentration of the drug. The paper strips were applied to the analysis of spiked environmental water, allowing a quantitative determination for OXY concentrations as low as 30 ng/mL. In general, this work provided a simple, method to screen and discriminate tetracycline drugs, in aquaculture, being a promising tool for local, quick and cheap monitoring of drugs.

Rapid automated method for on-site determination of sulfadiazine in fish farming: a stainless steel veterinary syringe coated with a selective membrane of PVC serving as a potentiometric detector in a flow-injection-analysis system

Sulfadiazine is an antibiotic of the sulfonamide group and is used as a veterinary drug in fish farming. Monitoring it in the tanks is fundamental to control the applied doses and avoid environmental dissemination. Pursuing this goal, we included a novel potentiometric design in a flow-injection assembly. The electrode body was a stainless steel needle veterinary syringe of 0.8-mm inner diameter. A selective membrane of PVC acted as a sensory surface. Its composition, the length of the electrode, and other flow variables were optimized. The best performance was obtained for sensors of 1.5-cm length and a membrane composition of 33% PVC, 66% onitrophenyloctyl ether, 1% ion exchanger, and a small amount of a cationic additive. It exhibited Nernstian slopes of 61.0 mV decade-1 down to 1.0×10-5 mol L-1, with a limit of detection of 3.1×10-6 mol L-1 in flowing media. All necessary pH/ionic strength adjustments were performed online by merging the sample plug with a buffer carrier of 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid, pH 4.9. The sensor exhibited the advantages of a fast response time (less than 15 s), long operational lifetime (60 days), and good selectivity for chloride, nitrite, acetate, tartrate, citrate, and ascorbate. The flow setup was successfully applied to the analysis of aquaculture waters. The analytical results were validated against those obtained with liquid chromatography–tandem mass spectrometry procedures. The sampling rate was about 84 samples per hour and recoveries ranged from 95.9 to 106.9%.

Desenvolvimento de um Protótipo de Dispensador Automático de Medicamentos

O número de pessoas com idade superior a 65 anos aumentou consideravelmente nos últimos 40 anos. Este incremento de longevidade tem levado ao aparecimento de varias patologias relacionadas com a idade e ao aumento da prevalência das patologias cronicas. Uma grande maioria desta população e poli-medicada e assim sendo a gestão de medicamentos e uma área que pode proporcionar grandes benefícios aos idosos. A grande quantidade de medicamentos assim como as diferentes dosagens e os diferentes horários de toma fazem com que os idosos se confundam no cumprimento do esquema terapêutico aconselhado pelo medico, nomeadamente devido ao declínio cognitivo a que estão sujeitos devido ao envelhecimento humano. Torna-se, portanto, fundamental o desenvolvimento de sistemas inteligentes que auxiliem os idosos na gestão da sua medicação. A presente dissertação de mestrado foi materializada num dispositivo, designado ElderlySafety, que visa responder aos problemas da poli-medicação, através de uma solução tecnológica que incorpora as vertentes de controlo e comunicação. O objectivo do ElderlySafety e relembrar, de forma automática, o idoso da toma atempada dos seus medicamentos e consiste num prototipo de um dispositivo com varias compartições para organização dos vários medicamentos. Este aparelho apresenta 24 compartimentos, um deles referente a uma posição estática, considerada a posição `home' e os restantes dizem respeito a 23 tomas de medicação durante uma semana. Os compartimentos em questão devem ser preenchidos com a devida medicação, pelo cuidador do idoso, no inicio de cada semana. O aparelho esta conectado via Bluetooth a uma aplicação denominada ElderlySafety Online que permite monitorizar todo o sistema. E aqui que e feito o registo, com data, hora e nome do medicamento, de toda a medicação prescrita ao paciente. Também e possível a verificação de possíveis interações medicamentosas, bem como o acesso a informações acerca do que fazer em caso de esquecimento de uma ou mais tomas. Aquando a chegada da data e hora da toma de cada medicação, o aparelho desenvolvido emite um lembrete ao idoso e esse lembrete e feito através de um alerta luminoso. Se o sistema ElderlySafety verificar que o idoso se esquece da toma dos medicamentos tem a capacidade de interagir via e-mail com o cuidador, que poder a ser um familiar próximo, alertando-o para o esquecimento da toma de medicação do paciente a seu cuidado. Os testes de validação realizados ao ElderlySafety revelaram que o prototipo se mostra funcional e apto para integrar um ambiente de vida assistido de qualquer idoso.

Development of paper-based color test-strip for drug detection in aquatic environment: Application to oxytetracycline

The wide use of antibiotics in aquaculture has led to the emergence of resistant microbial species. It should be avoided/minimized by controlling the amount of drug employed in fish farming. For this purpose, the present work proposes test-strip papers aiming at the detection/semi-quantitative determination of organic drugs by visual comparison of color changes, in a similar analytical procedure to that of pH monitoring by universal pH paper. This is done by establishing suitable chemical changes upon cellulose, attributing the paper the ability to react with the organic drug and to produce a color change. Quantitative data is also enabled by taking a picture and applying a suitable mathematical treatment to the color coordinates given by the HSL system used by windows. As proof of concept, this approach was applied to oxytetracycline (OXY), one of the antibiotics frequently used in aquaculture. A bottom-up modification of paper was established, starting by the reaction of the glucose moieties on the paper with 3-triethoxysilylpropylamine (APTES). The so-formed amine layer allowed binding to a metal ion by coordination chemistry, while the metal ion reacted after with the drug to produce a colored compound. The most suitable metals to carry out such modification were selected by bulk studies, and the several stages of the paper modification were optimized to produce an intense color change against the concentration of the drug. The paper strips were applied to the analysis of spiked environmental water, allowing a quantitative determination for OXY concentrations as low as 30 ng/mL. In general, this work provided a simple, method to screen and discriminate tetracycline drugs, in aquaculture, being a promising tool for local, quick and cheap monitoring of drugs.