Avaliação da Capacidade Antioxidante e da Estabilidade Após Embalamento a Vácuo de Hambúrgueres de Pata-roxa (Scyliorhinus canicula).

Toneladas de pescado são desperdiçadas diariamente aquando do processamento do peixe e o hambúrguer de pata-roxa foi desenvolvido para reaproveitar esse pescado subvalorizado e para ser uma fonte nutricional rica em antioxidantes. No presente trabalho, pretendeu-se comprovar o potencial antioxidante antes e após o tratamento térmico do hambúrguer de pata-roxa, e o potencial citotóxico e antiproliferativo sobre um modelo celular do cancro da mama (MCF-7). Foi também observada a estabilidade do hambúrguer de pata-roxa embalado a vácuo e refrigerado. A extração dos compostos fitoquímicos foi realizada com solventes de polaridade distinta (água, metanol e diclorometano) e com diferentes durações do processo (12h e 24h). O tratamento térmico aplicado foi vinte minutos a 180ºC. O potencial antioxidante foi avaliado pela capacidade de redução do radical livre 1,1-difenil-2-picrilhidrazil (DPPH) e pela capacidade de redução de radicais de oxigénio (ORAC), e através da quantificação total de polifenóis (QTP) pelo método de Folin-Ciocalteu (FC). O potencial citotóxico e antiproliferativo foi avaliado na linha celular MCF-7, cujos resultados foram revelados por ensaios espectrofotométricos (método do brometo de 3- (4,5-dimetiltiazol-2-il)-2,5-difenil tetrazólio (MTT)) e fluorimétricos (método de acetoxi-metil éster de calceína (calceína-AM)). A estabilidade do hambúrguer de pataroxa em vácuo e refrigerado foi avaliada através do estudo microbiológico com metodologias de referência (contagens de “totais” e produtores de sulfureto de hidrogénio (H2S) aeróbios e anaeróbios, esporos de Clostridium sulfitos-redutores, enterobactérias, Escherichia coli e pesquisa de Salmonella spp.), da determinação do índice de ácido tiobarbitúrico (TBA) e da avaliação da cor do hambúrguer pelo sistema CIE-L*a*b*. Os ensaios de DPPH e ORAC comprovaram a atividade antioxidante do extrato de hambúrguer de pata-roxa (metanol, 12h) com 79,5% de redução do DPPH e 8603,01μmol ET/100g para amostras sem tratamento térmico, e 87,4% de redução do DPPH e 2567,27μmol ET/100g para amostras com tratamento térmico. Quanto ao conteúdo fenólico, os extratos (metanol, 12h) revelaram 17,13mg EAG/100g do hambúrguer cru e 31,81mg EAG/100g do hambúrguer cozinhado. A extração de 24 horas não aumentou a quantidade de compostos fitoquímicos presentes no extrato. O hambúrguer apenas revelou ainda um potencial citotóxico in vitro relevante na linha celular MCF-7 (1mg/mL, 24h).Apesar do abuso observado na temperatura de armazenamento em refrigeração (temperatura média de 10,3ºC), o hambúrguer de pata-roxa cru, quando submetido ao embalamento a vácuo, apresentou um aumento no período de vida útil de prateleira de 4 dias relativamente à pata-roxa. Foi detetada a presença de esporos de Clostridium sulfito-redutores e 1,0x101ufc E. coli por 1g de hambúrguer de pata-roxa. Não foi detetada a presença de Salmonella spp. O índice de TBA manteve-se estável, mas o hambúrguer de pata-roxa sofreu uma perda na vivacidade (Cab) e na tonalidade (hab) da cor ao fim de 6 dias em refrigeração. É necessário continuar o estudo para melhorar o novo produto alimentar funcional, mas o presente trabalho permitiu concluir que o hambúrguer de pata-roxa reúne as condições para ter um elevado potencial antioxidante, apresentar maior estabilidade em armazenamento e, em simultâneo, constituir uma solução para o desperdício de pescado.

The cellular lipids of Romboutsia.

We have examined the lipids of three isolates, Romboutsia lituseburensis, Romboutsia ilealis, and Romboutsia sp. strain FRIFI, of the newly described genus Romboutsia by two-dimensional thin-layer chromatography (2D-TLC) and by liquid chromatography/mass spectrometry (LC/MS). We have found three phospholipids, phosphatidylglycerol (PG), cardiolipin and phosphatidic acid in all three species. A fourth phospholipid, lysyl-PG, was found in R. lituseburensis and strain FRIFI. Polyprenyl-phosphates were identified in the lipid extracts of all three species. Three glycolipids, mono-, di- and tri-hexosyldiacylglycerol, were common to all three species. An additional glycolipid, tetrahexosyl-diacylglycerol was identified in strain FRIFI. Acylated trihexosyldiacylglycerol and acyl-tetrahexosydiacylglycerol were also found in R. ilealis and strain FRIFI. Remarkably, no alk-1-enyl ether lipids (plasmalogens) were present in Romboutsia as distinct from bacteria of the related genus Clostridium in which these ether lipids are common. We have compared the lipidome of Romboutsia with that recently described for Clostridium difficile, which has plasmalogens, no lysyl-PG, and no tetrahexosyl-diacylglycerol. According to 16S rRNA gene sequencing, Romboutsia spp. and C. difficile are closely related (>95% sequence identity).

Energy requirements for the continuous biohydrogen production from Spirogyra biomass in a sequential batch reactor

The current energy market requires urgent revision for the introduction of renewable, less-polluting and inexpensive energy sources. Biohydrogen (bioH2) is considered to be one of the most appropriate options for this model shift, being easily produced through the anaerobic fermentation of carbohydrate-containing biomass. Ideally, the feedstock should be low-cost, widely available and convertible into a product of interest. Microalgae are considered to possess the referred properties, being also highly valued for their capability to assimilate CO2 [1]. The microalga Spirogyra sp. is able to accumulate high concentrations of intracellular starch, a preferential carbon source for some bioH2 producing bacteria such as Clostridium butyricum [2]. In the present work, Spirogyra biomass was submitted to acid hydrolysis to degrade polymeric components and increase the biomass fermentability. Initial tests of bioH2 production in 120 mL reactors with C. butyricum yielded a maximum volumetric productivity of 141 mL H2/L.h and a H2 production yield of 3.78 mol H2/mol consumed sugars. Subsequently, a sequential batch reactor (SBR) was used for the continuous H2 production from Spirogyra hydrolysate. After 3 consecutive batches, the fermentation achieved a maximum volumetric productivity of 324 mL H2/L.h, higher than most results obtained in similar production systems [3] and a potential H2 production yield of 10.4 L H2/L hydrolysate per day. The H2 yield achieved in the SBR was 2.59 mol H2/mol, a value that is comparable to those attained with several thermophilic microorganisms [3], [4]. In the present work, a detailed energy consumption of the microalgae value-chain is presented and compared with previous results from the literature. The specific energy requirements were determined and the functional unit considered was gH2 and MJH2. It was possible to identify the process stages responsible for the highest energy consumption during bioH2 production from Spirogyra biomass for further optimisation.

Avaliação da anchoita (engraulis anchoita) salgada maturada acondicionada em atmosfera modificada

A anchoita foi capturada e acondicionada a bordo sob-resfriamento a 0°C com gelo em escamas. Após o recebimento, o pescado foi processado na forma salgado-maturado. Após a maturação foram processadas e embaladas em sacos de polietileno e armazenadas sob-refrigeração a 5°C durante 84 dias. As amostras foram divididas grupos: (1) sob pressão atmosfera normal, (2) vácuo, (3) atmosfera modificada com 50% CO2 + 20% O2 + 30% N2 e (4) 60% CO2 + 10% O2 + 30% N2, em embalagens de polietileno e aluminizadas, termo-seladas e armazenadas sob-refrigeração a 5°C. Os valores de textura tiveram uma redução de 2277,8 N (Kg.m/s2 ) para 821,90 N (Kg.m/s2 ) para o tratamento controle. A qualidade inicial do pescado atendeu aos padrões legais vigentes, apresentando ausência Salmonella sp e enumerações aceitáveis aos padrões de Staphylococcus coagulase positiva, Clostridium sulfito redutores, coliforme totais e a 45ºC. Com relação ao pH, houve diferenças significativas durante o tempo de processamento (p<0,05), o valor passou de 6,3 (início) para 6,4 (final). Com relação aos resultados correspondentes aos parâmetros L*, a* e b* (cor), em todos os tratamentos e ao longo do tempo de processamento (ambas as embalagens), ocorreram diferenças significativas (p<0,05). Os valores de L* variaram de 34,80 para 18,00 (controle) 23,00 (vácuo), 20,21 (T3) e 22,00 (T4) embalagens de polietileno. Nas embalagens de alumínio os valores de L* variaram de 34,00 para 25,00 (controle), 29,00(vácuo), 22,10 (T3) e 26,00 (T4).

Avaliação de alguns parâmetros da qualidade da anchoita (Engraulis anchoita) enlatada em óleo de girassol e em molho de tomate

O consumo de pescado no Brasil cresceu 40% nos últimos 7 anos passando de 6,46 para 9,03 kg/habitante/ano, valor que se aproxima do recomendado pela Organização Mundial de Saúde. A razão está relacionada com a subutilização de determinadas espécies e a falta de diversificação da indústria processadora para a produção de alimentos com maior valor agregado. Considerando o esgotamento de determinadas espécies com a utilização da sobrepesca, é possível o emprego da anchoita na forma de conservas através da utilização de meios de cobertura como molho de tomate e óleo comestível. Este trabalho teve como objetivo elaborar conservas de anchoita (Engraulis anchoita) com a utilização de 2 meios de cobertura: molho de tomate e óleo de girassol, submetidas a tempos de salmouragem diferenciados, 2 e 5 min e com o emprego ou não de pré-cozimento. De acordo com os padrões estabelecidos, as amostras de pescado fresco utilizadas para a execução dos enlatados apresentaram resultados físico químicos adequados comprovando o frescor do pescado envolvido no processo, ou sejam: 16,29 mg/100 g amostra para N-BVT, 7,90 mg/100 g amostra para N-TMA e pH 6,5. As conservas em molho de tomate submetidas a operação de salmouragem durante 2 min, com e sem pré-cozimento apresentaram, respectivamente, 16,57 e 16,24% proteínas, 3,94 e 4,66% lipídios, 73,0 e 73,28% umidade, 3,22 e 3,67% cinzas, 0,17 e 0,19% de cloretos (NaCl). As conservas com molho de tomate, utilizando anchoita eviscerada salmourada por 5 min, com e sem pré-cozimento, apresentaram respectivamente, 15,94 e 15,31% proteínas, 3,15 e 4,90 lipídios%, 73,70 e 73,98% umidade, 3,80 e 4,10% cinzas, 0,21 e 0,24% cloretos (NaCl). Para as conservas de anchoita em óleo de girassol, utilizando tempo de salmouragem de 2 min, com e sem pré-cozimento, apresentaram 16,97 e 16,76% proteínas, 7,68 e 5,70% lipídios, 65,87 e 68,74% umidade, 3,16 e 3,28% cinzas, 0,10 e 0,12% cloretos (NaCl), respectivamente. As conservas utilizando o pescado previamente submetido a salmouragem por 5 min e posteriormente enlatado com a adição de óleo de girassol, com e sem pré-cozimento apresentaram respectivamente, 15,97 e 15,89% proteínas, 7,91 e 5,19% lipídios, 66,26 e 68,23% umidade, 3,78 e 3,87% cinzas, 0,13 e 0,21% NaCl. As análises microbiológicas das conservas submetidas aos diferentes tratamentos mostraram ausência de Salmonella spp, Staphylococcus coagulase positiva e Clostridium sulfito-redutor, resultados estes, de acordo com o estabelecido pela legislação higiênico-sanitária brasileira. Nos testes de esterilidade comercial não foram constatadas alterações visíveis nos enlatados submetidos a incubação por 5 dias a 36 ± 1°C (determinação de micro-organismos aeróbios viáveis) e a 7-10 dias a 55 ± 1°C (termófilos). Considerando as quantidades de pescado enlatado (80, 90 e 100g), o rendimento para todas as amostras apresentaram, no mínimo, 50% de pescado em relação ao peso líquido. A avaliação sensorial realizada por teste de ordenação para a avaliação da preferência não apresentou diferenças significativas entre as amostras.

Effect of time and diet change on the bacterial community structure throughout the gastrointestinal tract and in faeces of the northern brown bandicoot, Isoodon macrourus

A significant gap, in not only peramelid nutritional physiology but marsupial nutrition as a whole, is the lack of information relating to microorganisms of the gastrointestinal tract. This research is a preliminary investigation that will provide a baseline for comparisons among peramelids. The high degree of 16S rRNA gene clones identified in this research that are closely related to culturable bacteria suggests that additional research will enable a more complete description of the gastrointestinal bacteria of I. macrourus. Most identifiable clones belonged to Clostridium and Ruminococcus. This research has confirmed that the hindgut of I. macrourus, the caecum, proximal colon and distal colon, are the main sites for microbial activity.

Metabolomics as a tool to explore the staphylococcal biofilm

Orthopaedic infections can be polymicrobial existing as a microbiome. Infections often incorporate staphylococcal species, including Staphylococcus aureus. Such infections can lead to life threatening illness and implant failure. Furthermore, biofilm formation on the implant surface can occur, increasing pathogenicity, exacerbating antibiotic resistance and altering antimicrobial mechanism of action. Bacteria change dramatically during the transition to a biofilm growth state: phenotypically; transcriptionally; and metabolically, highlighting the need for research into molecular mechanisms involved in biofilm formation. Metabolomics can provide a tool to analyse metabolic changes which are directly related to the expressed phenotype. Here, we aimed to provide greater understanding of orthopaedic infection caused by S. aureus and biofilm formation on the implant surface. Through metagenome analysis by employing: implant material extraction; DNA extraction; microbial enrichment; and whole genome sequencing, we present a microbiome study of the infected prosthesis to resolve the causative species of orthopaedic hip infection. Results highlight the presence of S. aureus as a primary cause of orthopaedic infection along with Enterococcus faecium and the presence of secondary pathogen Clostridium difficile. Although results were hindered by the presence of host contaminating DNA even after microbial enrichment, conclusions could be made over the potential increased pathogenicity caused by the presence of a secondary pathogen and highlight method and sample preparation considerations when undertaking such a study. Following this finding, studies were focused on an orthopaedic clinical isolate of S. aureus and a metabolome extraction method for staphylococcal biofilms was developed using cell lysis through bead beating and solvent metabolome extraction. The method was found to be reproducible when coupled with liquid chromatography-mass spectrometry (LC-MS) and bioinformatics, allowing for the detection of significant changes in metabolism between planktonic and biofilm cultures to be identified and drug mechanism of actions (MOA) to be studied. Metabolomics results highlight significant changes in a number of metabolic pathways including arginine biosynthesis and purine metabolism between the two cell populations, evidence of S. aureus responding to their changing environment, including oxygen availability and a decrease in pH. Focused investigations on purine metabolism looking for biofilm modulation effects were carried out. Modulation of the S. aureus biofilm phenotype was observed through the addition of exogenous metabolites. Inosine increased biofilm biomass while formycin B, an inosine analogue, showed a dispersal effect and a potential synergistic effect in biofilm dispersal when coupled with gentamycin. Changes in metabolism between planktonic cells and biofilms highlight the requirement for antimicrobial testing to be carried out against planktonic cells and biofilms. Untargeted metabolomics was used to study the MOA of triclosan in S. aureus. The triclosan target and MOA in bacteria has already been characterised, however, questions remain over its effects in bacteria. Although the use of triclosan has come under increasing speculation, its full effects are still largely unknown. Results show that triclosan can induce a cascade of detrimental events in the cell metabolism including significant changes in amino acid metabolism, affecting planktonic cells and biofilms. Results and conclusions provide greater understanding of orthopaedic infections and specifically focus on the S. aureus biofilm, confirming S. aureus as a primary cause of orthopaedic infection and using metabolomic analysis to look at the changing state of metabolism between the different growth states. Metabolomics is a valuable tool for biofilm and drug MOA studies, helping understand orthopaedic infection and implant failure, providing crucial insight into the biochemistry of bacteria for the potential for inferences to be gained, such as the MOA of antimicrobials and the identification of novel metabolic drug targets.

Homozygosity for the E526V Mutation in Fibrinogen A Alpha-Chain Amyloidosis: The First Report

Systemic hereditary amyloidoses are autosomal dominant diseases associated with mutations in genes encoding ten different proteins. The clinical phenotype has implications on therapeutic approach, but it is commonly variable and largely dependent on the type of mutation. Except for rare cases involving gelsolin or transthyretin, patients are heterozygous for the amyloidogenic variants. Here we describe the first patient identified worldwide as homozygous for a nephropathic amyloidosis, involving the fibrinogen variant associated with the fibrinogen alpha-chain E526V (p.Glu545Val) mutation. In 1989, a 44-year-old woman presented with hypertension, hepatosplenomegaly, nephrotic syndrome, and renal failure. She started hemodialysis in 1990 and 6 years later underwent isolated kidney transplantation from a deceased donor. Graft function and clinical status were unremarkable for 16 years, despite progressively increased left ventricular mass on echocardiography. In 2012, 4 months before death, she deteriorated rapidly with severe heart failure, precipitated by Clostridium difficile colitis and urosepsis. Affected family members developed nephropathy, on average, nearly three decades later, which may be explained by the gene dosage effects on the phenotype of E526V (p.Glu545Val) fibrinogen A alpha-chain amyloidosis.

Proton-pump inhibitors adverse effects: a review of the evidence and position statement by the Sociedad Española de Patología Digestiva

Introduction: In the last few years a significant number of papers have related the use of proton-pump inhibitors (PPIs) to potential serious adverse effects that have resulted in social unrest. Objective: The goal of this paper was to provide a literature review for the development of an institutional position statement by Sociedad Española de Patología Digestiva (SEPD) regarding the safety of long-term PPI use. Material and methods: A comprehensive review of the literature was performed to draw conclusions based on a critical assessment of the following: a) current PPI indications; b) vitamin B12 deficiency and neurological disorders; c) magnesium deficiency; d) bone fractures; e) enteric infection and pneumonia; f) interactions with thienopyridine derivatives; e) complications in cirrhotic patients. Results: Current PPI indications have remained unchanged for years now, and are well established. A general screening of vitamin B12 levels is not recommended for all patients on a PPI; however, it does seem necessary that magnesium levels be measured at therapy onset, and then monitored in subjects on other drugs that may induce hypomagnesemia. A higher risk for bone fractures is present, even though causality cannot be concluded for this association. The association between PPIs and infection with Clostridium difficile is mild to moderate, and the risk for pneumonia is low. In patients with cardiovascular risk receiving thienopyridines derivatives it is prudent to adequately consider gastrointestinal and cardiovascular risks, given the absence of definitive evidence regardin potential drug-drug interactions; if gastrointestinal risk is found to be moderate or high, effective prevention should be in place with a PPI. PPIs should be cautiously indicated in patients with decompensated cirrhosis. Conclusions: PPIs are safe drugs whose benefits outweigh their potential side effects both short-term and long-term, provided their indication, dosage, and duration are appropriate.

Diarrea crónica por Salmonella typhimurium en paciente inmunocompentente

La diarrea crónica de origen infeccioso en pacientes inmunocompetentes es un cuadro poco frecuente en países desarrollados, aunque ciertos patógenos, generalmente parásitos (Giardia lamblia, Isospora belli, Cryptosporidium, Cyclospora, Strongyloides, Ameba, Trichuris y Schistosoma) y algunas bacterias (Aeromonas, Plesiomonas, Campylobacter, Clostridium difficile, Salmonella o Mycobacterium tuberculosis) pueden ser causantes de diarrea persistente. Se presenta un caso de un paciente que presentó Salmonella typhimunium en el coprocultivo y se recuperó tras tratamiento con levofloxacino durante 7 días.

Biological and chemical strategies for the recovery of precious and rare metals as nanoparticles

Tese de Doutoramento, Ciências do Mar da Terra e do Ambiente, Ramo: Ciências e Tecnologias do Ambiente, Especialidade em Biotecnologia, Faculdade de Ciências e Tecnologia, Universidade do Algarve, 2016

The gut microbiota and inflammatory noncommunicable diseases: associations and potentials for gut microbiota therapies

Rapid environmental transition and modern lifestyles are likely driving changes in the biodiversity of the human gut microbiota. With clear effects on physiologic, immunologic, and metabolic processes in human health, aberrations in the gut microbiome and intestinal homeostasis have the capacity for multisystem effects. Changes in microbial composition are implicated in the increasing propensity for a broad range of inflammatory diseases, such as allergic disease, asthma, inflammatory bowel disease (IBD), obesity, and associated noncommunicable diseases (NCDs). There are also suggestive implications for neurodevelopment and mental health. These diverse multisystem influences have sparked interest in strategies that might favorably modulate the gut microbiota to reduce the risk of many NCDs. For example, specific prebiotics promote favorable intestinal colonization, and their fermented products have anti-inflammatory properties. Specific probiotics also have immunomodulatory and metabolic effects. However, when evaluated in clinical trials, the effects are variable, preliminary, or limited in magnitude. Fecal microbiota transplantation is another emerging therapy that regulates inflammation in experimental models. In human subjects it has been successfully used in cases of Clostridium difficile infection and IBD, although controlled trials are lacking for IBD. Here we discuss relationships between gut colonization and inflammatory NCDs and gut microbiota modulation strategies for their treatment and prevention. (J Allergy Clin Immunol 2015;135:3-13.)

Effect of room temperature transport vials on DNA quality and phylogenetic composition of faecal microbiota of elderly adults and infants

Background: Alterations in intestinal microbiota have been correlated with a growing number of diseases. Investigating the faecal microbiota is widely used as a non-invasive and ethically simple proxy for intestinal biopsies. There is an urgent need for collection and transport media that would allow faecal sampling at distance from the processing laboratory, obviating the need for same-day DNA extraction recommended by previous studies of freezing and processing methods for stool. We compared the faecal bacterial DNA quality and apparent phylogenetic composition derived using a commercial kit for stool storage and transport (DNA Genotek OMNIgene GUT) with that of freshly extracted samples, 22 from infants and 20 from older adults. Results: Use of the storage vials increased the quality of extracted bacterial DNA by reduction of DNA shearing. When infant and elderly datasets were examined separately, no differences in microbiota composition were observed due to storage. When the two datasets were combined, there was a difference according to a Wilcoxon test in the relative proportions of Faecalibacterium, Sporobacter, Clostridium XVIII, and Clostridium XlVa after 1 week's storage compared to immediately extracted samples. After 2 weeks' storage, Bacteroides abundance was also significantly different, showing an apparent increase from week 1 to week 2. The microbiota composition of infant samples was more affected than that of elderly samples by storage, with significantly higher Spearman distances between paired freshly extracted and stored samples (p