Global ETD Search

51	Utvärdering av Copan EswabTM för viabilitet av bakterier / Evaluation of Copan Eswab™ for viability of bacteria Hannu, Olof, Hagman, Leonardo January 2017 (has links) Bakterier har alltid haft en stor inverkan på mänskligheten. För att diagnostisera bakteriella sjukdomar och behandla dem krävs identifiering av bakterien eller bakteriens relevanta egenskaper. Transportmedium har utvecklats för att hålla bakterierna vid liv från provtagning till analys. Syftet med studien var att utvärdera bakteriers viabilitet i det vätskebaserade mediet Copan Eswab jämfört med kolmedium (Copan swab). Bakterierna som ingick i studien var Campylobacter jejuni, Streptococcus pneumoniae, Haemophilus influenzae, Niesseria gonorrhoeae och Fusobacterium nucleatum. Förutom jämförande mellan medierna genomfördes en jämförelse mellan Eswab i kyl och i rumstemperatur. Resultaten för H. influenzae (n=9) och N. gonorrhoeae (n=9) visade att Eswab gav lika många eller fler överlevande bakterier. Gällande F. nucleatum (n=9) visade resultaten att fler överlevde i Copan swab (Copanpinnar) de första 28 timmarna, men även att bakterien inte klarar mer än 28 timmar i rumstemperatur. Gällande S. pneumoniae (n=9) och C. jejuni (n=9) gav båda opålitliga svar. Ytterligare mätpunkter och studier krävs för att erhålla mer pålitliga resultat gällande hur länge bakterierna överlever i Eswab. / Bacteria have always had a great influence on mankind. To diagnose any bacterial disease and treat it it’s necessary to identify the bacteria or any relevant attributes. Different types of specimen transport have been developed to keep the bacteria alive from sampling until the analysis is performed. The purpose of the study was to evaluate the viability of bacteria in the fluid-based media Copan EswabTM compared with charcoal medium (Copan swab). Bacteria included in the study were: Campylobacter jejuni, Streptococcus pneumoniae, Haemophilus influenzae, Niesseria gonorrhoeae and Fusobacterium nucleatum. The study also tried to compare how bacteria survived in Eswab which was refrigerated and in Eswab room temperature. Results for H. influenzae (n=9) and N. gonorrhoeae (n=9) showed that an equal amount or more of the bacteria survived in Eswab. More of F. nucleatum (n=9) survived in Copan swab (Copan swab sticks) for the first 28 hours, additionally they showed that the bacteria won’t survive more than 28 hours in room temperature. Regarding S. pneumoniae (n=9) and C. jejuni (n=9) both displayed unreliable results. Overall more measurements and additional studies are needed for more reliable results. Eswab Haemophilus influenzae Niesseria gonorrhoeae Fusobacterium nucleatum specimen transport Eswab Haemophilus influenzae Niesseria gonorrhoeae Fusobacterium nucleatum transportmedium Microbiology in the medical area
52	1,25(OH)2D3 increase caspase-3 activity in LNCaP cells after 2 minutes and 48h separately Kjellerås, Jennifer January 2007 (has links) Cancer or malignant tumors has a high death frequency in many countries. Nowadays many research facilities are dedicated to find new substances and techniques which would lead to better cancer therapies. Seven years ago a research team from Finland made a remarkable connection between vitamin D deficiencies and an increased chance of getting prostate cancer. The research investigating this statement has lead to findings of a new non-classical effect of the calcium controlling vitamin, 1,25(OH)2D3. This effect involves anti-proliferatory effects and more importantly apoptotic effects resulting in the hope of finding a new drug that can cure prostate cancer with the smallest amount of harm to the body. In an attempt to find out if the signalling pathway of this apoptotic effect is fast or slow, an experiment designed to detect when the apoptotic protein caspase-3 is induced has been performed. Cells from the cell line LNCaP has been cultured and incubated with 1,25(OH)2D3 and after 0min - 48h an assay was performed to detect the relative amounts of caspase-3 present in every sample. The optimal time period (48h) was then subjected to three different concentrations of 1,25(OH)2D3 and read in the same way as the previous samples. The results showed an increase in caspase-3 expression as early as 2 min, but disappear to be seen again at 24h and are more profound in 48h samples. The caspase-3 expression was also seen to form a possible exponential curve in dose-response. prostate cancer vitamin D 1.25(OH)2D3 24.25(OH)2D3 growth inhibition apoptosis antiproliferation Microbiology in the medical area
53	Mechanisms and Dynamics of Mecillinam Resistance in Escherichia coli Thulin, Elisabeth January 2017 (has links) The introduction of antibiotics in healthcare is one of the most important medical achievements with regard to reducing human morbidity and mortality. However, bacterial pathogens have acquired antibiotic resistance at an increasing rate, and due to a high prevalence of resistance to some antibiotics they can no longer be used therapeutically. The antibiotic mecillinam, which inhibits the penicillin-binding protein PBP2, however, is an exception since mecillinam resistance (MecR) prevalence has remained low. This is particularly interesting since laboratory experiments have shown that bacteria can rapidly acquire MecR mutations by a multitude of different types of mutations. In this thesis, I examined mechanisms and dynamics of mecillinam resistance in clinical and laboratory isolates of Escherichia coli. Only one type of MecR mutations (cysB) was found in the clinical strains, even though laboratory experiments demonstrate that more than 100 genes can confer resistance Fitness assays showed that cysB mutants have higher fitness than most other MecR mutants, which is likely to contribute to their dominance in clinical settings. To determine if the mecillinam resistant strains could compensate for their fitness cost, six different MecR mutants (cysB, mrdA, spoT, ppa, aspS and ubiE) were evolved for 200-400 generations. All evolved mutants showed increased fitness, but the compensation was associated with loss of resistance in the majority of cases. This will also contribute to the rarity of clinical MecR isolates with chromosomal resistance mutations. How MecR is mediated by cysB mutations was previously unclear, but in this thesis I propose and test a model for the mechanism of resistance. Thus, inactivation of CysB results in cellular depletion of cysteine that triggers an oxidative stress response. The response alters the intracellular levels of 450 proteins, and MecR is achieved by the increase of two of these, the LpoB and PBP1B proteins, which rescue the cells with a mecillinam-inhibited PBP2. Mecillinam is used for UTI treatments and to investigate mecillinam resistance in a more host-like milieu, MecR strains were grown in urine and resistance was examined. Interestingly, this study showed that neither laboratory, nor clinical cysB mutants are resistant in urine, most likely because the cysteine present in the urine phenotypically reverts the bacteria to susceptibility. These findings suggest that mecillinam can be used to treat also those clinical strains that are identified as MecR in standard laboratory tests, and that testing of mecillinam susceptibility in the laboratory ought to be performed in media that mimics urine to obtain clinically relevant results. In summary, the work described in this thesis has increased ourgeneral knowledge of mecillinam resistance and its evolution. Hopefully this knowledge can be put to good use in clinical settings to reduce the negative impact of antibiotic resistance. Mecillinam Antibiotic resistance Escherichia coli Urinary tract infections Fitness Penicillin binding proteins cysteine biosynthesis Medical and Health Sciences Medicin och hälsovetenskap Microbiology in the medical area
54	Production and characterisation of a chlamydial antigen candidate for vaccine trials Koivula, Therese January 2021 (has links) The bacterium Chlamydia trachomatis is the leading cause of bacterial sexually transmitted infection worldwide. When left untreated, chlamydial infections can lead to severe complications, such as infertility. Lack in current prevention and management due to its asymptomatic course of infection highlight the need for an effective vaccine against chlamydia. There is no vaccine at present to protect against chlamydia, but research is ongoing. A research group at Örebro University has developed a protein antigen candidate. This project focused on the production of the candidate, here called Protein X, for preclinical trials. This included optimising production in Escherichia coli to maximise formation of soluble protein, optimising purification, buffer exchange and removal of His-tag. It was found that formation of soluble protein was favoured in lower expression temperatures. Furthermore, purification was performed on soluble and insoluble protein fractions using immobilised metal affinity chromatography. However, issues with inefficient binding to the resin and purity could not be solved and further optimisation is needed. Buffers were tested to find a suitable buffer for preclinical experiments, but the protein precipitated in all buffers. It was however found that protein from the insoluble fraction dissolved in pure water. Lastly, removal of the His-tag was performed with a non-enzymatic method that utilises nickel ions instead of expensive proteases. Efficient removal was however not achieved and enzymatic methods may be considered instead. In conclusion, this project highlighted issues in the production of Protein X and may guide the research group towards improving this process for efficient preclinical preparations. Chlamydia trachomatis Immunology Vaccine Optimizing protein expression in E. coli Optimizing protein purification IMAC His-tag cleavage Buffer exchange Chlamydial antigen Microbiology in the medical area
55	The Importance of Bacterial Replichore Balance Cerit, Ender Efe January 2021 (has links) In most bacterial pathogens, the genome is comprised within a single circular chromosome which is typically organized by the origin-to-terminus axis that divides the chromosome into equally-sized arms of replication (replichores). This similarity in length is presumed to be required for the synchronization of the two replication forks to meet at the terminus for efficient chromosome segregation. Transfer of genes between organisms, different from the route of parent to offspring, is called horizontal gene transfer (HGT). Acquiring foreign DNA through HGT is an important factor for the evolution of virulence in bacteria since it provides access to new features such as new toxins and antibiotic resistance genes. Chromosomes of many pathogenic bacteria such as Salmonella spp. carry such horizontally-transferred DNA fragments called pathogenicity islands. However, after such HGT events, the existing organization of chromosome can be disrupted and an imbalance between the two halves of the circular chromosome might occur. The predicted outcome of a replichore imbalance is the retardation of growth which in turn might result in the out-competition by other faster-growing bacteria in the environment. For that reason, we have investigated the association of the fitness cost and the replichore imbalance with isogenic strains with varying degrees of inter-replichore inversions. Our results showed that there is a correlation between the magnitude of replichore imbalance and fitness cost, for example 2.49-fold imbalance (one replichore 2.49-fold longer than the other) resulted in 11% reduction of fitness in comparison with balanced replichores. Therefore, our data suggest that the replichore imbalance could be utilized to predict the fitness cost of HGT events. Salmonella bacterial evolution fitness cost chromosome organization and structure chromosomal inversion replichore horizontal gene transfer Microbiology in the medical area
56	Art och resistensmönster hos acinetobacterstammar i blodprover från patienter i skånsk sjukvård 2011-2019 / Species Identification and Resistance Patterns of Acinetobacter Strains in Blood Samples from Patients in Medical Care in Skåne 2011-2019 Nafaa, Fatima January 2021 (has links) Acinetobacter är gramnegativa bakterier som orsakar svåra nosokomiala infektioner hos immunkomprometterade och neutropena patienter. Det har rapporterats att den vanligaste smittkällan är sjukhusutrustning såsom andningsinstrument, där kolonisation av acinetobacter observerats. Av den anledningen att acinetobacter är multiresistenta mot olika antibiotikum medför det att en acinetobact infektioner blir svåra att behandla. Syftet med studien var att undersöka vilka acinetobactarter som orsakat bakteremi i Skåne från 2011-2019 samt undersöka vilka antibiotika de är resistenta för. Dessutom undersöktes hur stor andel av bakteremifynden som är resistenta mot betalaktamantibiotika, och vilka arter som är mest resistenta. För att artidentifiera acinetobacterna användes MALDI-TOF som analysinstrumentet. Resistensbestämningen bestämdes med E-test och diskdiffusionsmetoden, där tolv olika antibiotika testades. Resultatet visade att bland de 107 stammarna var A. Iwoffii störst då den utgjorde 31 st. Dessutom visade resultatet att majoriteten av stammarna var känsliga mot de tolv antibiotikasorterna. Bland de resistenta stammarna var de flesta av arten A. Baumannii som tidigare är kända för att vara multidrug-resistant (MDR). / Acinetobacter are gram-negative bacteria that cause severe nosocomial infections in immunocompromised and neutropenic patients. It has been reported that the most common source of infection is hospital equipment such as respiratory instruments, where colonization of acinetobacter has been observed. Due to the fact that acinetobacter is multi-resistant to various antibiotics, it makes an acinetobact infection difficult to treat. The aim of the study is to investigate which acinetobact species caused bacteremia in Skåne from 2011-2019 and to investigate which antibiotics they are resistant to. In addition, the proportion of bacteremia findings that are resistant to beta-lactam antibiotics was examined, and which species are most resistant. MALDI-TOF was used to identify the species of acientobacter. Twelve different antibiotics were tested with E-test and the disc diffusion method. The results showed that among the 107 strains was A. iwoffii the largest acinetobacter species, which corresponds to 31. In addition, the results obtained showed that the majority of the strains were sensitive to the twelve types of antibiotics. Among the resistant strains were the majority of the species A. Baumannii, which are known to be multidrug resistant (MDR). Acinetobacter Antibiotic MALDI-TOF multi-resistant resistance determination. Acinetobacter Antibiotikum MALDI-TOF multiresistens resistensbestämning Microbiology in the medical area
57	Evaluation and performance comparison between two commercial multiplex gastroenteritis diagnostic systems in a routine laboratory setting Rabe, Nasim Estelle January 2021 (has links) Abstract Background: Gastroenteritis is a common infection and the leading cause of morbidity worldwide and is mostly caused by viruses. Outbreaks appear in both developed and developing countries and result in large economic costs. Rapid detection is important for appropriate treatment, control and to prevent the spread of infection. Objective: Evaluation and performance comparison between the BioFire®FilmArray® Torch System gastrointestinal panel and the Molecular BD MAXTMenteric viral panel to indicate a multiplex method for viral gastroenteritis diagnostic in a routine laboratory setting. Material and methods: In this study, 58 different samples were used which consisted of selected stool specimens from patients who were tested and treated for gastroenteritis infection at Uppsala Academic Hospital and Norrlands University Hospital in Umeå during 2018-2021, samples from Quality control for molecular diagnostics viral gastroenteritis EQA pilot study during 2018-2019 and cultivated strains of different adenovirus species from 2018. All samples were analyzed with both systems for comparison of detected pathogens. Results: Sensitivity and specificity values were 95% and 100% respectively for the BioFire®FilmArray®Torch System and 100% and 93.3% for the BD MAXTMSystem. Conclusions: Bothsystems are rapid and adequate diagnostic tools. The BioFire®FilmArray®Torch System with greater coverage has the ability of detecting more pathogens and is more promising particularly in the occasional infection circumstance. The BD MAXTMSystem demonstrated almost the same results and seems to be a better option in times of an outbreak when the numbers of patients are significantly higher. BD MAXTM System BioFire® FilmArray® Torch System Adenovirus F40/41 Human Astrovirus Norovirus GI/GII Rotavirus Sapovirus. Microbiology in the medical area
58	Assessment of zebrafish embryo toxicity of environmentally relevant antibiotics Mastrangeli, Ophelia January 2021 (has links) Antibiotics are essential drugs in modern medicine. After consumption antibiotics are excreted in unmetabolized form in the urine and reach our sewage treatment plants (STP). STP are not able to degrade all antibiotics leading to release of antibiotics into the aquatic environment. Aquatic animals are thus continuously exposed to antibiotics. This study involved assessment of the toxicity of eight antibiotics previously detected in the river Fyrisån, Uppsala, Sweden, in developing zebrafish (Danio rerio) embryos up to day six of age. The experiments included assessment of embryonal toxicity for the individual antibiotics as well as mixtures of all antibiotics. The mixtures were based on previously measured concentrations in river Fyrisån and tested in increasing concentrations up to 1000-times higher concentrations. In the toxicity assessment different lethal and sublethal endpoints were observed, such as early movements, heart rate, hatching time and length. These experiments were followed by behaviour study observing the swimming activity during alternating dark-light alternations. Lastly, a bioaccumulation study was performed on mixtures of antibiotics to determine if these antibiotics were bioaccumulative in zebrafish embryos. The results showed that these eight antibiotics, individually and as a mixture did not affect any of the endpoints. As for bioaccumulation, none of the eight antibiotics were bioaccumulating in zebrafish embryos. These antibiotics seem to be non-toxic during fish embryonal development. However, the results cannot determine the long-term effects of antibiotic exposure and thus further studies are needed to assess the potential toxicity of environmentally present antibiotics to fish. zebrafish embryo toxicity antibiotics FET Fish embryo toxicity Bioaccumulation zebrafiskembryo toxicitet antibiotika FET Bioackumulering Pharmacology and Toxicology Farmakologi och toxikologi Microbiology in the medical area
59	ADHESION OF AGGREGATIBACTER ACTINOMYCETEMCOMITANS AND STREPTOCOCCUS MUTANS ANALYZED WITH DNA-BASED METHODS Tirawiyeh, Jud, Ali, Fartun January 2023 (has links) Oral health is a part of general health and the two are connected in many ways as well as impact each other. Oral diseases are some of the most common chronic diseases of mankind. Diseases such as caries and periodontitis are two of the most common ones affecting the oral cavity. Bacteria associated with these two diseases are Streptococcus mutans and Aggregatibacter actinomycetemcomitans respectively. Our hypothesis is that extracts from guava leaf or matcha tea affect adhesion of A. actinomycetecomitans or S. mutans to human epithelium. The aim of this study is to investigate a DNA-based method for studying attachment of bacteria to epithelial cells. Two different concentrations of the two bacterial species, high and low, were treated with matcha or guava leaf extract and adhesion on the human epithelial cell cultures was analyzed. The results were then analyzed using qPCR-based methods to test the amount of bacterial adhesion to the epithelial cells. Furthermore, the results showed that matcha was more effective for inhibition of bacterial adhesion than guava leaf.In conclusion, our results show that bacterial adhesion of A. actinomycetecomitans and S. mutans to human epithelial cells can be quantified by DNA-based methods, and the adhesion altered by plant extracts. A. actinomycetemcomitans S. mutans DNA-based qPCR adhesion epithelial cells plant extracts Dentistry Odontologi Microbiology in the medical area
60	Vad är känt om Zikavirusets spridning, dess kliniska bild, patogenes, morfologi, diagnostik samt behandling? Frejd, Rebecka January 2017 (has links) Zikaviruset är ett virus som fått stor uppmärksamhet i framför allt Sydamerika från 2015 och framåt då allt fler fall uppmärksammats. Detta arbete har utförts som en litteraturstudie med mål att sammanfatta kunskapsläget kring Zikavirusets morfologi, spridning, historia, komplikationer, diagnostik samt rådande behandlingsmöjligheter. Som källor används information från Folkhälsomyndigheten, CDC, PAHO och WHO samt MeSH-sökningar via PubMed. Viruset tillhör familjen Flaviviridae. Liknande andra virus i samma grupp kan infektionen ge feber, makulopapulösa hudutslag, konjunktivit, ledvärk, huvudvärk och myalgi. Det beskrevs först redan på slutet av 1940-talet i Afrika och har sedan rapporterats ha spridit sig till Asien, Oceanien, Stilla havsöarna och nu senast med utbrott i Sydamerika. Virusinfektionen har blivit mycket omdiskuterad då allt mer bevis kunnat läggas fram för att den kan leda till Guillain-Barrés syndrom samt även utöva teratogena effekter med mikrocefali som följd. Man har kartlagt spridning framför allt via myggarten Aedes men bevis finns även för att sexuell spridning kan ske samt att sjukdomen förefaller även kunna spridas från mor till foster. Diagnostiken baseras på RT-PCR och serologiska tester. I nuläget finns ingen aktiv behandling. Sammanfattningsvis har Zikavirus spridit sig snabbt genom Syd- och latinamerika sista åren och visat sig utgöra ett hot mot folkhälsan i dessa områden varför ett framtagande av ett fungerande vaccin är önskvärt. zika virus ZIKV zika virus infection diagnosis pathogenicity prevention and control complications transmission epidemiology folkhälsomyndigheten CDC PAHO WHO Medical and Health Sciences Medicin och hälsovetenskap Microbiology in the medical area

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