Electrodegradation of cyclophosphamide in artificial urine by combined methods.

The degradation of the chemotherapeutic drug cyclophosphamide in artificial urine was evaluated by Electrochemical Advanced Oxidation Processes (EAOP). The system consisted of an electrochemical flow reactor with a commercial DSA® electrode (nominal composition Ti / Ru0,3Ti0,7O2) and Ti-mesh cathode. In order to assess the best parameters, the effect of current density, time and flow rate were analyzed using an initial 23 factorial design. The chosen response variable was the energy efficiency to produce free chlorine species (HClO/ClO-). After obtaining the most significant factors, the Central Composite Design (CCD) was performed, where the optimum conditions were determined for the current density range (11.714 mA cm-2 and 66.57 mA cm-2), flow rate (31.33 mL min-1) and time range (19 and 37 min). Under an optimized condition, the efficiency of other combined methods (photo-assisted electrochemical, photochemical, sonoelectrochemical and photo-assisted sonoelectrochemical) was evaluated. The efficiency of degradation processes was determined by removal of Chemical Oxygen Demand (COD), creatinine and urea. Analysis by HPLC demonstrates that the cyclophosphamide was substantially removed during the treatment process of ∼77%. Based on these results, it can be observed that the coupling between electrochemical and photochemical processes is a promising alternative for the treatment of this effluent, as a marked reduction of organic matter is observed (63, 94% of creatinine, 29.62% of urea, 39.1% of TOC) and a low treatment cost ratio.

Modeling the sulfamethoxazole degradation by active chlorine in a flow electrochemical reactor.

The aim of this study is to propose a continuous physicochemical model accounting for the active chlorine production used to degrade recalcitrant sulfamethoxazole (SMX) in an electrochemical flow reactor. The computational model describes the fluid mechanics and mass transfer occurring in the re/actor, along with the electrode kinetics of hydrogen evolution reaction arising on a stainless steel cathode, and the chloride oxidation on a DSA. Specifically, the anodic contributions assume the heterogeneous nature of the adsorbed chlorine species formed on this surface, which are a model requirement to correctly define the experimental reactor performance and degradation efficiency of the contaminant. The experimental validation conducted at different applied current densities, volumetric flows, and chloride concentrations is adequately explained by the model, thus evidencing some of the phenomena controlling the electrocatalytic chlorine production for environmental applications. The best conditions to eliminate the SMX are proposed based on the theoretical analysis of the current efficiency calculated with the model, and experimentally confirmed. The use of the Ti/RuO2-ZrO2-Sb2O3 anode at the bench scale improves the SMX removal by using electro-generated chlorine species adsorbed on its surface, which remarkably increases the oxidation potential of the system along with chlorine desorbed from the electrode. This is a technological innovation concerning other mediated oxidation methods entirely using oxidants in solution.

Electrochemical oxidation of acetaminophen and its transformation products in surface water: effect of pH and current density.

Several studies have been conducted worldwide to develop effective and affordable methods to degrade pharmaceuticals and their metabolites/intermediates/oxidation products found in surface water, wastewater and drinking water. In this work, acetaminophen and its transformation products were successfully degraded in surface water by electrochemical oxidation using stainless steel electrodes. The effect of pH and current density on the oxidation process was assessed and the oxidation kinetics and mechanisms involved were described. Additionally, the results were compared with those obtained in acetaminophen synthetic solutions. It was found that conducting the electrochemical oxidation at 16.3 mA/cm2 and pH 5, good performance of the process was achieved and not only acetaminophen, but also its transformation products were totally degraded in only 7.5 min; furthermore, small number of transformation products were generated. On the other hand, degradation rates of acetaminophen and its transformation products in surface water were much faster (more than 2.5 times) and the reaction times much shorter (more than 4.0 times) than in synthetic solutions at all current densities and pH values evaluated. At pH 3 and pH 5, greater soluble chlorine formation due to the higher HCl amount used to acidify the surface water solutions could enhance the degradation rates of acetaminophen and its transformation products. However, constituents of surface water (ions and solids) could also have an important role on the oxidation process because at pH 9 (non-acidified solutions) the degradation rates were also much greater and the reaction times were much shorter in surface water than in acetaminophen synthetic solutions.

Efficient cephalexin degradation using active chlorine produced on ruthenium and iridium oxide anodes: Role of bath composition, analysis of degradation pathways and degradation extent.

The elimination of cephalexin (CPX) using electro-generated Cl2-active on Ti/RuO2-IrO2 anode was assessed in different effluents: deionized water (DW), municipal wastewater (MWW) and urine. Single Ti/RuO2 and Ti/IrO2 catalysts were prepared to compare their morphologies and electrochemical behavior against the binary DSA. XRD and profile refinement suggest that Ti/RuO2-IrO2 forms a solid solution, where RuO2 and IrO2 growths are oriented by the TiO2 substrate through substitution of Ir by Ru atoms within its rutile-type structure. SEM reveals mud-cracked structures with flat areas for all catalysts, while EDS analysis indicates atomic ratios in the range of the oxide stoichiometries in the nominal concentrations used during synthesis. A considerably higher CPX degradation is achieved in the presence of NaCl than in Na2SO4 or Na3PO4 media due to the active chlorine generation. A faster CPX degradation is reached when the current density is increased or the pH value is lowered. This last behavior may be ascribed to an acid-catalyzed reaction between HClO and CPX. Degradation rates of 22.5, 3.96, and 0.576 µmol L-1 min-1 were observed for DW, MWW and urine, respectively. The lower efficiency measured in these last two effluents was related to the presence of organic matter and urea in the matrix. A degradation pathway is proposed based on HPLC-DAD and HPLC-MS analysis, indicating the fast formation (5 min) of CPX-(S)-sulfoxide and CPX-(R)-sulfoxide, generated due the Cl2-active attack at the CPX thioether. Furthermore, antimicrobial activity elimination of the treated solution is reached once CPX, and the initial by-products are considerably eliminated. Finally, even if only 16% of initial TOC is removed, BOD5 tests prove the ability of electro-generated Cl2-active to transform the antibiotic into biodegradable compounds. A similar strategy can be used for the abatement of other recalcitrant compounds contained in real water matrices such as urine and municipal wastewaters.

Análise da concentração de cloro ativo em sanitizantes industrializados comercializados em Maceió, AL

No Brasil, do ano de 2000 a 2017, ocorreram 12.503 surtos de origem alimentar e os locais que sobressaíram como os mais frequentes na ocorrência destes surtos foram restaurantes e residências tendo como uma das causas principais, as superfícies de equipamentos, utensílios e objetos mal higienizados. O produto mais usado para realizar a higiene é o hipoclorito de sódio (água sanitária), sendo este utilizado tanto para serviços de alimentação como para uso residencial. O hipoclorito é comercializado industrialmente e este pode ser fabricado de forma impropria não correspondendo ao percentual de cloro contido em sua rotulagem. O objetivo deste estudo foi analisar o teor de cloro das marcas comerciais de águas sanitárias industrializadas comercializadas na cidade de Maceió/ AL. A metodologia utilizada para determinação de Cloro Ativo foi o método volumétrico, em solução de hipoclorito de sódio. Duas marcas comerciais apresentaram valores menores que 2% de cloro, sete com valores acima e três com valores entre 2 e 2,5%, valores estes preconizados pela legislação. Os resultados mostram que a fabricação deste produto precisa de fiscalização por órgãos competentes para que o teor de cloro esteja dentro do padrão da Legislação. Com essa inadequação a população será prejudicada, pois estará comprando um produto adulterado.(AU)

In Brazil, from the year 2000 to 2017, 12,503 foodborne outbreaks have occurred, and the other important local as the more frequent occurrence of these outbreaks was restaurants and residences having as one of the main causes, the surfaces of equipment, utensils and objects poorly sanitized. The product used to perform hygiene is sodium hypochlorite (bleach), which is used for both food service as for residential use. The hypochlorite is sold industrially and this can be manufactured in a manner unbecoming not corresponding to the percentage of chlorine contained in your labelling. The aim of this study was to analyze the chlorine content of the trademarks of sanitary water marketed in the industrialised city of Maceió/AL. The methodology used for the determination of active chlorine, was using the volumetric method, solution of sodium hypochlorite. Two trademarks presented values less than 2% chlorine, seven with values above and 3 with values between 2 and 2.5%, these values provided by the legislation. The results show that the manufacture of this product needs supervision by competent bodies so that the chlorine content is within the pattern of legislation. Whit this inadequacy to population will suffer, as will be buying and adulterated product.(AU)

Análise da concentração de cloro ativo em sanitizantes industrializados comercializados em Maceió, AL

No Brasil, do ano de 2000 a 2017, ocorreram 12.503 surtos de origem alimentar e os locais que sobressaíram como os mais frequentes na ocorrência destes surtos foram restaurantes e residências tendo como uma das causas principais, as superfícies de equipamentos, utensílios e objetos mal higienizados. O produto mais usado para realizar a higiene é o hipoclorito de sódio (água sanitária), sendo este utilizado tanto para serviços de alimentação como para uso residencial. O hipoclorito é comercializado industrialmente e este pode ser fabricado de forma impropria não correspondendo ao percentual de cloro contido em sua rotulagem. O objetivo deste estudo foi analisar o teor de cloro das marcas comerciais de águas sanitárias industrializadas comercializadas na cidade de Maceió/AL. A metodologia utilizada para determinação de Cloro Ativo foi o método volumétrico, em solução de hipoclorito de sódio. Duas marcas comerciais apresentaram valores menores que 2% de cloro, sete com valores acima e três com valores entre 2 e 2,5%, valores estes preconizados pela legislação. Os resultados mostram que a fabricação deste produto precisa de fiscalização por órgãos competentes para que o teor de cloro esteja dentro do padrão da Legislação. Com essa inadequação a população será prejudicada, pois estará comprando um produto adulterado

In Brazil, from the year 2000 to 2017, 12,503 foodborne outbreaks have occurred, and the other important local as the more frequent occurrence of these outbreaks was restaurants and residences having as one of the main causes, the surfaces of equipment, utensils and objects poorly sanitized. The product used to perform hygiene is sodium hypochlorite (bleach), which is used for both food service as for residential use. The hypochlorite is sold industrially and this can be manufactured in a manner unbecoming not corresponding to the percentage of chlorine contained in your labelling. The aim of this study was to analyze the chlorine content of the trademarks of sanitary water marketed in the industrialised city of Maceió/AL. The methodology used for the determination of active chlorine, was using the volumetric method, solution of sodium hypochlorite. Two trademarks presented values less than 2% chlorine, seven with values above and 3 with values between 2 and 2.5%, these values provided by the legislation. The results show that the manufacture of this product needs supervision by competent bodies so that the chlorine content is within the pattern of legislation. With this inadequacy to population will suffer, as will be buying an adulterated product

Análise da concentração de cloro ativo em sanitizantes industrializados comercializados em Maceió, AL

No Brasil, do ano de 2000 a 2017, ocorreram 12.503 surtos de origem alimentar e os locais que sobressaíram como os mais frequentes na ocorrência destes surtos foram restaurantes e residências tendo como uma das causas principais, as superfícies de equipamentos, utensílios e objetos mal higienizados. O produto mais usado para realizar a higiene é o hipoclorito de sódio (água sanitária), sendo este utilizado tanto para serviços de alimentação como para uso residencial. O hipoclorito é comercializado industrialmente e este pode ser fabricado de forma impropria não correspondendo ao percentual de cloro contido em sua rotulagem. O objetivo deste estudo foi analisar o teor de cloro das marcas comerciais de águas sanitárias industrializadas comercializadas na cidade de Maceió/ AL. A metodologia utilizada para determinação de Cloro Ativo foi o método volumétrico, em solução de hipoclorito de sódio. Duas marcas comerciais apresentaram valores menores que 2% de cloro, sete com valores acima e três com valores entre 2 e 2,5%, valores estes preconizados pela legislação. Os resultados mostram que a fabricação deste produto precisa de fiscalização por órgãos competentes para que o teor de cloro esteja dentro do padrão da Legislação. Com essa inadequação a população será prejudicada, pois estará comprando um produto adulterado.

In Brazil, from the year 2000 to 2017, 12,503 foodborne outbreaks have occurred, and the other important local as the more frequent occurrence of these outbreaks was restaurants and residences having as one of the main causes, the surfaces of equipment, utensils and objects poorly sanitized. The product used to perform hygiene is sodium hypochlorite (bleach), which is used for both food service as for residential use. The hypochlorite is sold industrially and this can be manufactured in a manner unbecoming not corresponding to the percentage of chlorine contained in your labelling. The aim of this study was to analyze the chlorine content of the trademarks of sanitary water marketed in the industrialised city of Maceió/AL. The methodology used for the determination of active chlorine, was using the volumetric method, solution of sodium hypochlorite. Two trademarks presented values less than 2% chlorine, seven with values above and 3 with values between 2 and 2.5%, these values provided by the legislation. The results show that the manufacture of this product needs supervision by competent bodies so that the chlorine content is within the pattern of legislation. Whit this inadequacy to population will suffer, as will be buying and adulterated product.

Degradation of Paracetamol and Its Oxidation Products in Surface Water by Electrochemical Oxidation.

Paracetamol and its toxic transformation products have been found in surface water, wastewater, and drinking water. Effective methods to degrade these products must be found to reduce their detrimental effects on microorganisms in aquatic systems and minimize the concern on human health. Thus, this study looked into the electrochemical oxidation of paracetamol and its oxidation products on surface water, and results were compared with those of paracetamol synthetic solution oxidation. Degradation of paracetamol was conducted using a stainless steel electrode cell, a pH of 3, and direct current densities of 5.7 mA/cm2 (6 V) and 7.6 mA/cm2 (12 V). For both current densities applied, the pharmaceutical and its oxidation products observed by high-performance liquid chromatography with diode-array detection (HPLC-DAD) at 254 nm were totally degraded. Faster degradation of paracetamol was observed at a higher current density. Indeed, 95% of paracetamol was oxidized in only 15 min at the 7.6 mA/cm2 current density. In comparison to the paracetamol synthetic solution's oxidation, degradation of paracetamol was faster in the surface water than the synthetic solution, at 5.7 mA/cm2. Nevertheless, at 7.6 mA/cm2, total degradation of paracetamol in surface water was delayed up to 40 min, versus 7.5 min in the synthetic solution. Three oxidation products, observed by HPLC-DAD at 254 nm, were fully oxidized. In comparison with the paracetamol synthetic solution, degradation of the oxidation products in surface water was faster than in synthetic solutions for both current densities. Furthermore, the 7.6 mA/cm2 current density resulted in faster degradation of oxidation products. Results obtained from this work are promising for practical applications because short reaction times and low current densities are needed for degradation of paracetamol and its oxidation products. These densities can be potentially supplied by photovoltaic cells.

Performance of (in)active anodic materials for the electrooxidation of phenolic wastewaters from cashew-nut processing industry.

This study investigated the anodic oxidation of phenolic wastewater generated by cashew-nut processing industry (CNPI) using active (Ti/RuO2-TiO2) and inactive (boron doped diamond, BDD) anodes. During electrochemical treatment, various operating parameters were investigated, such as current density, chemical oxygen demand (COD), total phenols, O2 production, temperature, pH, as well as current efficiency and energy consumption. After electrolysis under optimized working conditions, samples were evaluated by chromatography and toxicological tests against L. sativa. When both electrode materials were compared under the same operating conditions, higher COD removal efficiency was achieved for BDD anode; achieving lower energy requirements when compared with the values estimated for Ti/RuO2-TiO2. The presence of Cl- in the wastewater promoted the electrogeneration of strong oxidant species as chlorine, hypochlorite and mainly hypochlorous acid, increasing the efficiency of degradation process. Regarding the temperature effect, BDD showed slower performances than those achieved for Ti/RuO2-TiO2. Chromatographic and phytotoxicity studies indicated formation of some by-products after electrolytic process, regardless of the anode evaluated, and phytotoxic action of the effluent. Results encourage the applicability of the electrochemical method as wastewater treatment process for the CNPI, reducing depuration time.

Chemical sterilization of culture medium for in vitro multiplication of Cochlospermum regium / Esterilização química do meio de cultura para a multiplicação in vitro de Cochlospermum regium

ABSTRACT: Cochlospermum regium roots are used in popular medicine and its extract has diverse phytochemical molecules some with antimicrobial activity, consequently exposing this specie to genetic erosion risks. Thus, the objective of this study was to develop an in vitro multiplication protocol using chemical sterilization of culture medium. Therefore, explants obtained from apical buds of C. regium seedlings were inoculated into with 0.05mg L-1 NAA and 1mg L-1 BAP sterilized by chemical agent sodium hypochlorite (NaOCl) at 0.001%, 0.003% and 0.005% of active chlorine (Cl). Autoclaved culture medium was used as control. Result showed that the contamination by bacterial at 91 days of cultivation was significantly (P<0.05) controlled by autoclaving, 0.001% and 0.005% Cl. Moreover, the callus induction in the culture medium with 0.001% and 0.005% Cl was, respectively, 30% and 20% major than autoclaving sterilization. There was not significant (P<0.05) in the percentage of shoot induction among the sterilization preparations methods, and 65% of the explants survived in the presence of culture medium with 0.005% Cl. Histological analyses indicated that the Cl did not have any deleterious effects on morphogenic events. These results indicated that the chemical sterilization using 0.001% - 0.005% Cl controlled the fungal and bacterial multiplication in the culture medium and no affected the C. regium explants development, becoming it an alternative to autoclaving method.

RESUMO: As raízes de Cochlospermum regium são usadas na medicina popular, pois seu extrato apresenta diversas moléculas fitoquímicas, algumas com atividade antimicrobiana, que, consequentemente, expõe esta espécie ao risco de erosão genética. Assim, o objetivo deste estudo foi elaborar um protocolo de multiplicação in vitro para explantes de C. regium usando esterilização química do meio de cultura. Gemas apicais obtidas de plântulas de C. regium germinadas in vitro foram inoculadas em meio de cultivo MS suplementado com 0,05mg L-1 de ANA e 1mg L-1 de BAP e esterilizado pela adição do agente químico hipoclorito de sódio (NaOCl) nas concentrações de cloro ativo de 0,001%, 0,003% e 0,005%. O meio autoclavado foi utilizado como controle. Os resultados mostraram que a contaminação por bactérias aos 91 dias de cultivo foi significativamente (P<0,05) controlada pela autoclavagem, 0,001% e 0,005% de cloro ativo. Além disso, a indução de calos no meio de cultura com 0,001% e 0,005% de cloro ativo foi, respectivamente, 30% e 20% maior do que na esterilização por autoclavagem. Não houve diferença significativa (P<0,05) da porcentagem de indução de brotos entre os métodos de esterilização e 65% dos explantes sobreviveram na presença de 0,005% de cloro ativo. Análises histológicas indicaram que o cloro ativo não afetou os eventos morfogênicos. Os resultados indicaram que a esterilização química por meio do uso de 0,001% - 0,005% de cloro ativo auxiliou no controle da proliferação de bactérias e fungos no meio de cultura e não afetou o desenvolvimento dos explantes de C. regium, tornando-a uma alternativa em relação a autoclavagem.

Chemical sterilization of culture medium for in vitro multiplication of Cochlospermum regium

ABSTRACT: Cochlospermum regium roots are used in popular medicine and its extract has diverse phytochemical molecules some with antimicrobial activity, consequently exposing this specie to genetic erosion risks. Thus, the objective of this study was to develop an in vitro multiplication protocol using chemical sterilization of culture medium. Therefore, explants obtained from apical buds of C. regium seedlings were inoculated into with 0.05mg L-1 NAA and 1mg L-1 BAP sterilized by chemical agent sodium hypochlorite (NaOCl) at 0.001%, 0.003% and 0.005% of active chlorine (Cl). Autoclaved culture medium was used as control. Result showed that the contamination by bacterial at 91 days of cultivation was significantly (P 0.05) controlled by autoclaving, 0.001% and 0.005% Cl. Moreover, the callus induction in the culture medium with 0.001% and 0.005% Cl was, respectively, 30% and 20% major than autoclaving sterilization. There was not significant (P 0.05) in the percentage of shoot induction among the sterilization preparations methods, and 65% of the explants survived in the presence of culture medium with 0.005% Cl. Histological analyses indicated that the Cl did not have any deleterious effects on morphogenic events. These results indicated that the chemical sterilization using 0.001% - 0.005% Cl controlled the fungal and bacterial multiplication in the culture medium and no affected the C. regium explants development, becoming it an alternative to autoclaving method.

RESUMO: As raízes de Cochlospermum regium são usadas na medicina popular, pois seu extrato apresenta diversas moléculas fitoquímicas, algumas com atividade antimicrobiana, que, consequentemente, expõe esta espécie ao risco de erosão genética. Assim, o objetivo deste estudo foi elaborar um protocolo de multiplicação in vitro para explantes de C. regium usando esterilização química do meio de cultura. Gemas apicais obtidas de plântulas de C. regium germinadas in vitro foram inoculadas em meio de cultivo MS suplementado com 0,05mg L-1 de ANA e 1mg L-1 de BAP e esterilizado pela adição do agente químico hipoclorito de sódio (NaOCl) nas concentrações de cloro ativo de 0,001%, 0,003% e 0,005%. O meio autoclavado foi utilizado como controle. Os resultados mostraram que a contaminação por bactérias aos 91 dias de cultivo foi significativamente (P 0,05) controlada pela autoclavagem, 0,001% e 0,005% de cloro ativo. Além disso, a indução de calos no meio de cultura com 0,001% e 0,005% de cloro ativo foi, respectivamente, 30% e 20% maior do que na esterilização por autoclavagem. Não houve diferença significativa (P 0,05) da porcentagem de indução de brotos entre os métodos de esterilização e 65% dos explantes sobreviveram na presença de 0,005% de cloro ativo. Análises histológicas indicaram que o cloro ativo não afetou os eventos morfogênicos. Os resultados indicaram que a esterilização química por meio do uso de 0,001% - 0,005% de cloro ativo auxiliou no controle da proliferação de bactérias e fungos no meio de cultura e não afetou o desenvolvimento dos explantes de C. regium, tornando-a uma alternativa em relação a autoclavagem.

Chemical sterilization of culture medium for in vitromultiplication of Cochlospermum regium / Esterilização química do meio de cultura para a multiplicação in vitro de Cochlospermum regium

Cochlospermum regium roots are used in popular medicine and its extract has diverse phytochemical molecules some with antimicrobial activity, consequently exposing this specie to genetic erosion risks. Thus, the objective of this study was to develop an in vitro multiplication protocol using chemical sterilization of culture medium. Therefore, explants obtained from apical buds of C. regium seedlings were inoculated into with 0.05mg L-1 NAA and 1mg L-1 BAP sterilized by chemical agent sodium hypochlorite (NaOCl) at 0.001%, 0.003% and 0.005% of active chlorine (Cl). Autoclaved culture medium was used as control. Result showed that the contamination by bacterial at 91 days of cultivation was significantly (P<0.05) controlled by autoclaving, 0.001% and 0.005% Cl. Moreover, the callus induction in the culture medium with 0.001% and 0.005% Cl was, respectively, 30% and 20% major than autoclaving sterilization. There was not significant (P<0.05) in the percentage of shoot induction among the sterilization preparations methods, and 65% of the explants survived in the presence of culture medium with 0.005% Cl. Histological analyses indicated that the Cl did not have any deleterious effects on morphogenic events. These results indicated that the chemical sterilization using 0.001% - 0.005% Cl controlled the fungal and bacterial multiplication in the culture medium and no affected the C. regium explants development, becoming it an alternative to autoclaving method.(AU)

As raízes de Cochlospermum regium são usadas na medicina popular, pois seu extrato apresenta diversas moléculas fitoquímicas, algumas com atividade antimicrobiana, que, consequentemente, expõe esta espécie ao risco de erosão genética. Assim, o objetivo deste estudo foi elaborar um protocolo de multiplicação in vitro para explantes de C. regium usando esterilização química do meio de cultura. Gemas apicais obtidas de plântulas de C. regium germinadas in vitro foram inoculadas em meio de cultivo MS suplementado com 0,05mg L-1 de ANA e 1mg L-1 de BAP e esterilizado pela adição do agente químico hipoclorito de sódio (NaOCl) nas concentrações de cloro ativo de 0,001%, 0,003% e 0,005%. O meio autoclavado foi utilizado como controle. Os resultados mostraram que a contaminação por bactérias aos 91 dias de cultivo foi significativamente (P<0,05) controlada pela autoclavagem, 0,001% e 0,005% de cloro ativo. Além disso, a indução de calos no meio de cultura com 0,001% e 0,005% de cloro ativo foi, respectivamente, 30% e 20% maior do que na esterilização por autoclavagem. Não houve diferença significativa (P<0,05) da porcentagem de indução de brotos entre os métodos de esterilização e 65% dos explantes sobreviveram na presença de 0,005% de cloro ativo. Análises histológicas indicaram que o cloro ativo não afetou os eventos morfogênicos. Os resultados indicaram que a esterilização química por meio do uso de 0,001% - 0,005% de cloro ativo auxiliou no controle da proliferação de bactérias e fungos no meio de cultura e não afetou o desenvolvimento dos explantes de C. regium, tornando-a uma alternativa em relação a autoclavagem.(AU)

Electrochemical treatment of penicillin, cephalosporin, and fluoroquinolone antibiotics via active chlorine: evaluation of antimicrobial activity, toxicity, matrix, and their correlation with the degradation pathways.

Antibiotics are pharmaceuticals widely consumed and frequently detected in environmental water, where they can induce toxic effects and development of resistant bacteria. Their structural variety makes the problem of antibiotics in natural water more complex. In this work, six highly used antibiotics (at 40 µmol L-1) belonging to three different classes (penicillins, cephalosporins, and fluoroquinolones) were treated using an electrochemical system with a Ti/IrO2 anode and a Zr cathode in the presence of NaCl (0.05 µmol L-1). The attack of electrogenerated active chlorine was found to be the main degradation route. After only 20 min of treatment, the process decreased more than 90% of the initial concentration of antibiotics, following the degradation order: fluoroquinolones > penicillins > cephalosporins. The primary interactions of the degrading agent with fluoroquinolones occurred at the cyclic amine (i.e., piperazyl ring) and the benzene ring. Meanwhile, the cephalosporins and penicillins were initially attacked on the ß-lactam and sulfide groups. However, the tested penicillins presented an additional reaction on the central amide. In all cases, the transformations of antibiotics led to the antimicrobial activity decreasing. On the contrary, the toxicity level showed diverse results: increasing, decreasing, and no change, depending on the antibiotic type. In fact, due to the conservation of quinolone nucleus in the fluoroquinolone by-products, the toxicity of the treated solutions remained unchanged. With penicillins, the production of chloro-phenyl-isoxazole fragments increased the toxicity level of the resultant solution. However, the opening of ß-lactam ring of cephalosporin antibiotics decreased the toxicity level of the treated solutions. Finally, the application of the treatment to synthetic hospital wastewater and seawater containing a representative antibiotic showed that the high amount of chloride ions in seawater accelerates the pollutant degradation. In contrast, the urea and ammonium presence in the hospital wastewater retarded the removal of this pharmaceutical.

Electrochemical treatment of shrimp farming effluent: role of electrocatalytic material.

This study investigated the electrochemical oxidation of organic matter present in shrimp farming effluent using three types of electrocatalytic materials: Ti/Ru0.34Ti0.66O2, Ti/Pt, and boron-doped diamond (BDD). An electrochemical cell with 300 mL under stirring agitation was used by applying 20, 40, and 60 mA cm-2. A Ti/Ru0.34Ti0.66O2 anode showed a reduction of chemical oxygen demand (COD) about 84 % after 1 h of electrolysis, while at the same time, 71 % of COD decay was achieved at Ti/Pt. Conversely, only 71 % of COD was removed after 2 h with a BDD anode. Regarding the temperature effect, BDD showed better performances than those achieved for Ti/Ru0.34Ti0.66O2 and Ti/Pt anodes during an electrochemical treatment of a shrimp farming effluent, obtaining 72 % of COD removal by applying 20 mA cm-2 at 40 °C after 15 min. Energy consumption and cost were estimated in order to established the engineering applicability of this alternative process.