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Multiresistenzen in klinischen \(C.glabrata\) Isolaten / Multidrug Resistance in clinical \(C.glabarata\) IsolatesWilhelm, Hannah January 2024 (has links) (PDF)
Die Zahl invasiver Pilzinfektionen ausgelöst durch C. glabrata steigt zunehmend und auch die Ausbildung multipler Resistenzen wird immer häufiger registriert. In dieser Arbeit wurden zwei klinische MDR-C. glabrata-Stämme systematisch analysiert, um den Ursprung der Mehrfachresistenz zu finden. Aufgefallen waren jene Isolate in vorhergehenden Untersuchungen von Aldejohann et. al., die 176 Stämme, die dem Referenzzentrum NRZ-Myk zugesandt wurden, auf ihr Resistenzverhalten gegen Echinocandine analysierten und auf FKS-Mutationen untersuchten. Die Isolate CG22 und CG56 zeigten ein Resistenzverhalten gegen Anidulafungin ohne eine FKS-Mutation aufzuweisen. In Mehrfachtestungen wurde das einheitliche Verhalten von CG56 in zehn Einzelkolonien verifiziert, um Mischkulturen oder heterogenes Verhalten innerhalb des Isolates ausschließen zu können. Nach Analyse der gesamten Genomsequenz von CG56 zeigte sich eine Mutation kurz vor der HS-Region von FKS2, die eine Erklärung für das Resistenzverhalten zu liefern scheint. Neben der Mutation in FKS2 wurde ebenfalls eine Mutation in FKS1 und in ERG3 bestätigt. Die Mutation in ERG3 führt zu einer Verschiebung im Sterolsynthesepathway und zu einer Neuverteilung der Zellmembranbestandteile. Das klinische Isolat CG22 fällt mit Resistenzen gegen Azole, Echinocandine und Amphotericin B auf und zeigte ebenfalls eine Mutationen in ERG3. Zusätzlich dazu ergab sich eine Loss-of- Function-Mutation in ERG4 und damit verbunden einen massiv reduzierten Ergosterolgehalt der Zellmembran. Die seltene Kombination aus ERG3 und ERG4 Mutation scheint die Erklärung für die außergewöhnliche Amphotericin B-Resistenz von CG22 zu liefern und wird hier als erstmals bei einem C. glabrata Isolat beschrieben. Dieser besondere Stamm, der sogar als panresistent bezeichnet werden kann, sollte Bestandteil weiterer Forschung werden. Der Sterolsynthesepathway dient als Angriffspunkt vieler Antimykotika und kann durch seine vielen Intermediate und abweichenden Abläufen zu unterschiedlichen Stoffwechselendprodukten führen. Der Ergosterolgehalt der Zellmembran eines C. glabrata-Stammes kann weitere Rückschlüsse auf die Empfindlichkeit des Isolates geben und somit die Chancen des Therapieerfolges der Antimykotikagabe besser vorhersagen und könnte somit einen vielversprechenden Beitrag zur Behandlung lebensbedrohlicher Candidosen leisten. / The number of invasive fungal infections caused by C. glabrata is increasing and the development of resistance to multiple drug classes is also being recorded more frequently. In this study, two clinical MDR C. glabrata strains were systematically analyzed to find the origin of their Multidrug Resistance. These isolates had attracted attention in previous studies by Aldejohann et. al. who studied 176 strains that have been sent to the NRZ-Myk reference center. The strains have been analyzed for their resistance to echinocandins and have been examined for mutations in FKS1 and FKS2 hotspots. The isolates CG22 and CG56 showed resistance to anidulafungin without showing mutation in the FKS hotspots. In multiple testing, the uniform behavior of CG56 was verified in ten individual colonies in order to exclude mixed cultures or heterogeneous behavior within the isolate. Analysis of the entire genome sequence of CG56 revealed a mutation just upstream of the HS region of FKS2, which appears to provide an explanation for the resistance behavior. In addition to the mutation in FKS2, a mutation in FKS1 and ERG3 was also confirmed. The mutation in ERG3 leads to a shift in the sterol synthesis pathway and to a redistribution of the cell membrane components. The clinical isolate CG22 was found to be resistant to azoles, echinocandins and amphotericin B. CG22 showed a mutation in ERG3 and additionally a loss-of-function mutation in ERG4. This leads to a massively reduced ergosterol content of the cell membrane. The rare combination of ERG3 and ERG4 mutation seems to explain the extraordinary amphotericin B resistance of CG22 and is described for the first time in a C. glabrata isolate. This particular strain, which can even be described as panresistant, should become part of further research. The sterol synthesis pathway serves as a target for many antimycotics and can lead to different metabolic products due to its many intermediates and divergent processes. The ergosterol content of the cell membrane of a C. glabrata strain can provide further information on the susceptibility of the isolate. This could possibly predict the chances of therapeutic success of antimycotic treatment better and could therefore make a promising contribution to the treatment of life-threatening candidiasis.
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Resistenzmechanismen gegen Amphotericin B in humanpathogenen Hefepilzen / Resistance mechanism to amphotericin B in human pathogenic yeastsJunghanns, Lara Madeleine January 2024 (has links) (PDF)
Die 2009 erstmals entdeckte Spezies C. auris erlangte binnen kürzester Zeit zunehmend weltweite Aufmerksamkeit. Vor allem die Tendenz der Multiresistenzentwicklung und das rasche Auslösen von nosokomialen Infektionen erschweren den Umgang und die Therapie von C. auris Infektionen im Vergleich zu anderen Candida Spezien. Diese Dissertationsarbeit umfasst eine systematische Resistenzanalyse der im NRZMyk vorhandenen Stammsammlung aus C. auris und C. parapsilosis Isolaten, um Aufschluss über den Wirkmechanismus von Amphotericin B in Hefepilzen zu erlangen. Anhand der zunächst durchgeführten Amphotericin B-Resistenztestungen kristallisierten sich CAU37 und CAU43 mit MHK-Werten bis zu 12 µg/ml als stark Amphotericin B-resistente Isolate heraus. Die Analyse der Sequenzierungsergebnisse zeigte bei beiden Stämmen eine Mutation im ERG4 Gen an Position 576, welche nicht eindeutig als alleinige Ursache für die verminderte Amphotericin B-Empfindlichkeit festgelegt werden konnte. Dennoch wurde im Rahmen eines Survival Assays bei beiden Amphotericin B-resistenten Isolaten anfänglich eine konzentrationsabhängige Aktivität gegenüber Amphotericin B festgestellt, bevor ein Nachwachsen der Kulturen beobachtet wurde. Somit wurde die Vermutung aufgestellt, dass lediglich ein Teil der aufgebrachten Candida-Zellen abgetötet wird und dies in einer Vermehrung der überlebenden Zellen resultiert. Des Weiteren konnte im Rahmen von Resistenztestungen mit dem Sphingolipidinhibitor Myriocin nachgewiesen werden, dass vor allem in Amphotericin B-resistenten Isolaten eine deutliche Wirkungsverstärkung des Polyens hervorgerufen wird. Diese Sensitivitätssteigerung ist allgemein bei allen C. auris Isolaten zu beobachten, fällt bei resistenten Stämmen jedoch deutlich stärker aus. Hierdurch kam die Annahme auf, dass Amphotericin B-Resistenzen auch in möglichen Veränderungen des Sphingolipid-Haushaltes begründet sein könnten. Darüber hinaus scheint Myriocin keinen Einfluss auf Fluconazol-resistente oder FKS-mutierte Echinocandin-resistente C. auris Stämme zu haben. Das ebenfalls untersuchte und von Myriocin abgeleitete Medikament Fingolimod hatte jedoch ebenfalls keinen wirkungsverstärkenden Effekt. Allerdings reagierte ein Großteil der C. auris Isolate (57,6 %) sensitiv gegenüber dem neusten medizinisch bekannten Triazol Isavuconazol und es konnte erstmalig ein ECV-Wert von 0,03125 µg/ml festgelegt werden. Ein valider Vergleich von C. auris zu C. parapsilosis war aufgrund der mangelnden Anzahl an C. parapsilosis Isolaten jedoch nicht möglich / The species C. auris, which was first discovered in 2009, quickly attracted worldwide attention. In particular, the development of multidrug resistance and the rapid onset of nosocomial infections complicate the management and treatment of C. auris infections compared to other Candida species. This dissertation comprises a systematic resistance analysis of the strain collection available at the NRZMyk from C. auris and C. parapsilosis isolates in order to shed light on the mechanism of action of amphotericin B in yeast fungi.
CAU37 and CAU43 ermerged as highly amphotericin B-resistant isolates in the initially performed amphotericin B resistance tests, with MIC values up to 12 µg/ml. Sequencing results showed a mutation in the ERG4 gene at position 576 in both strains, which can`t be clearly identified as the main cause of the reduced susceptibility to amphotericin B. Nevertheless both amphotericin B-resistant isolates initially showed a concentration dependent activity against amphotericin B, followed by a regrowth of the cultures. The hypothesis is, that only some of the applied Candida cells are killed, resulting in a proliferation of the surviving cells. Furthermore the resistance tests with the sphingolipid inhibitor Myriocin in combination with amphotericin B showed that sublethal myriocin concentrations increased the C. auris susceptibility to amphotericin B. This increase in sensitivity is generally observed in all C. auris isolates, but is significantly stronger in resistant strains. This leeds to the assumption that amphotericin B resistance can also be due to possible changes in the sphingolipid balance. Furthermore, myriocin does not appear to have any influence on fluconazole-resistant or FKS-mutated echinocandin-resistant C. auris strains. Fingolimod, a drug also investigated and derived from Myriocin, doesn`t have any enhancing effect either. However the majority of C. auris isolates (57.6 %) reacted sensitively to the latest medically known triazole isavuconazole and for the first time an ECV value of of 0.03125 µg/ml could be determined. A valid comparison of C. auris to C. parapsilosis was not possible due to the lack of C. parapsilosis isolates.
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Intérêt de la lyophilisation pour améliorer la stabilité des microémulsions chargées en Amphotéricine B destinées au traitement de la leishmaniose / Lyophilization as a tool for enhance the stability of microemulsion systems containing Amphotericin B for leishmaniasis treatmentDo Vale Morais, Andreza 20 October 2017 (has links)
La leishmaniose viscérale est une maladie tropicale négligée et létale en l’absence de traitement. L’Amphotéricine B (AmB) est une molécule efficace mais sa forme conventionnelle, Fungizone®, conduit à une toxicité limitant les doses tandis que les formulations lipidiques moins toxiques telles que l’Ambisome® sont très coûteuses. Ainsi, le besoin de nouvelles formes thérapeutiques à la fois non toxiques et peu coûteuses subsiste actuellement. Dans ce travail, nous avons étudié deux solutions possibles : la Fungizone® chauffée (H-AmB) et une microémulsion chargée en AmB (MEAmB). En ce qui concerne la microémulsion, une forme lyophilisée est souhaitable afin de s’affranchir des risques d’hydrolyse et de contamination microbienne. Les objectifs de la thèse étaient de développer les deux nouvelles formes, d’évaluer la toxicité et l’efficacité de H-AmB et MEAmB contre Leishmania donovani (souche LV9) in-vitro et in-vivo et également d’optimiser la lyophilisation de la microémulsion.La microémulsion MEAmB est composée de gouttelettes sphériques dont le diamètre moyen est proche de 35 nm et a montré un comportement rhéologique de type newtonien. L’analyse spectroscopique de H-AmB a révélé la formation de super-agrégats qui sont moins toxiques que d’autres états d’agrégation. La MeAmB ainsi que l’H-AmB ont montré une activité antiparasitaire équivalente à celle d’AmBisome® sur les formes axénique et intramacrophagique de L. donovani. L’indice de sélectivité pour ces deux formulations est élevé, en contraste avec celui de la Fungizone® native. De plus, à la différence d’AmBisome®, elles ont montré une activité importante sur des souches résistantes à l’AmB. L’activité anti-leishmanienne in-vivo des nouvelles formulations est comparable aux formulations de référence. De même, aucune différence significative des marqueurs de toxicité rénale et hépatique n’a pu être observée. Ainsi, l’H-AmB et la MEAmB pourraient être considérées comme des traitements alternatifs de la leishmaniose viscérale, avec l’avantage d’être moins onéreuses à produire que l’Ambisome®.Afin d’optimiser le procédé de lyophilisation de la MEAmB, un plan d’expérience a été mis en œuvre. Ainsi, la taille des gouttelettes est minimisée par l’utilisation de 5% de maltose comme cryoprotectant, avec une température de congélation de -80°C et un temps total de lyophilisation de 24h. Par ailleurs, aucune modification significative de la teneur en AmB n’a été observée après la lyophilisation. Ainsi, la MEAmB lyophilisée est stable et pourrait éviter la dégradation due à la présence d’eau. / Visceral leishmaniasis is a neglected tropical disease that can be fatal if left untreated. Amphotericin B (AmB) is effective in the treatment of this disease, but the conventional formulation, Fungizone® has dose-limiting toxicity while the less toxic lipid-based forms such as Ambisome® are expensive. Therefore, the need for new therapeutic systems remains. In this respect, the heating of the Fungizone® formulation (H-AmB), and the development of a microemulsion (ME) containing AmB (MEAmB) are possible solutions. In addition, it is desirable to remove water from microemulsion systems in order to reduce instability due to microbiological contamination and hydrolysis. Therefore, the objective of this work was to develop and to evaluate the activity and toxicity in vitro and in vivo of H-AmB and MEAmB against Leishmania donovani (strain LV9) and, furthermore, to optimize a lyophilized microemulsion system containing AmB. Rheological, size and morphology studies showed that MEAmB presented average droplet sizes of 35 nm, a Newtonian behavior and spherical morphology. Spectroscopic characterization of H-AmB showed the formation of superaggregates, which are less toxic than the other states of aggregation. In-vitro evaluation on both the axenic and intramacrophagic amastigote forms showed that H-AmB and MEAmB showed similar activity to Ambisome®. A high selectivity index of H-AmB and MEAmB was observed compared with unheated Fungizone®. Furthermore, both new formulations showed high activity against AmB-resistant strains compared with Ambisome®. In-vivo experiments designed to evaluate their activity and toxicity did not reveal significant differences in activity between the new and reference formulations. There were no significant differences either in indicators of renal and hepatic toxicity. Therefore, both H-AmB and MEAmB can be used as an alternative for the treatment of LV9, presenting an advantage over Ambisome® in their lower costs of production. Therefore, a complete experimental design was performed in order to optimize the lyophilisation of the microemulsion system. It was observed that microemulsions with smaller droplet sizes were obtained using maltose as a cryoprotectant at a concentration of 5%, with freezing at -80 ° C, and a lyophilization process period of 24 h. Furthermore, it was observed that ME containing AmB showed no significant changes in drug content before and after the lyophilization process. Therefore, in its lyophilized form, the ME can remain stable and avoid degradation due to the presence of water.
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Safety and Efficacy of Itraconazole Compared to Amphotericin B as Empirical Antifungal Therapy for Neutropenic Fever in Patients with Haematological MalignancySchuler, Ulrich, Bammer, Susanne, Aulitzky, Walter E., Binder, Claudia, Böhme, Angelika, Egerer, Gerlinde, Sandherr, Michael, Schwerdtfeger, Rainer, Silling, Gerda, Wandt, Hannes, Glasmacher, Axel, Ehninger, Gerhard 24 February 2014 (has links) (PDF)
Safety, tolerability and efficacy of itraconazole and amphotericin B (AMB) were compared for empirical antifungal treatment of febrile neutropenic cancer patients. Patients and Methods: In an open, randomised study, 162 patients with at least 72 h of antimicrobial treatment received either intravenous followed by oral itraconazole suspension or intravenous AMB for a maximum of 28 days. Permanent discontinuation of study medication due to any adverse event was the primary safety parameter. Efficacy parameters included response and success rate for both treatment groups. Results: Significantly fewer itraconazole patients discontinued treatment due to any adverse event (22.2 vs. 56.8% AMB; p < 0.0001). The main reason for discontinuation was a rise in serum creatinine (1.2% itraconazole vs. 23.5% AMB). Renal toxicity was significantly higher and more drug-related adverse events occurred in the AMB group. Intention-to-treat (ITT) analysis showed favourable efficacy for itraconazole: response and success rate were both significantly higher than for AMB (61.7 vs. 42% and 70.4 vs. 49.3%, both p < 0.0001). Treatment failure was markedly reduced in itraconazole patients (25.9 vs. 43.2%), largely due to the better tolerability. Conclusions: Itraconazole was tolerated significantly better than conventional AMB and also showed advantages regarding efficacy. This study confirms the role of itraconazole as a useful and safe agent in empirical antifungal therapy of febrile neutropenic cancer patients. / Hintergrund: Es wurden die Sicherheit, Verträglichkeit und Wirksamkeit von Itraconazol und Amphotericin B (AMB) in der antimykotischen Therapie der persistierend febrilen Neutropenie verglichen. Patienten und Methoden: In einer offenen, randomisierten Studie erhielten 162 Patienten mit mindestens 72-stündiger antibiotischer Therapie entweder Itraconazol (erst intravenös, dann oral) oder AMB (intravenös) für maximal 28 Tage. Primärer Sicherheitsparameter war die dauerhafte Unterbrechung der Studienmedikation aufgrund von Nebenwirkungen. Die Wirksamkeitsparameter umfassten die Ansprech- und Erfolgsrate für beide Behandlungsgruppen. Ergebnisse: Signifikant weniger Itraconazol-Patienten brachen die Behandlung wegen Nebenwirkungen ab (22,2 vs. 56,8% AMB; p < 0,0001). Hauptursache für Studienabbrüche war der Anstieg des Serum-Kreatinin-Spiegels (1,2% Itraconazol vs. 23,5% AMB). Nephrotoxische und weitere Nebenwirkungen traten im AMB-Studienarm signifikant häufiger auf. Intention-to-Treat (ITT)-Analysen zeigten eine bessere Wirksamkeit von Itraconazol: Ansprech- und Erfolgsrate waren signifikant höher als unter AMB (61,7 vs. 42% und 70,4 vs. 49,3%, beide p < 0,0001). Behandlungsversagen trat bei Itraconazol-Patienten merklich weniger auf (25,9 vs. 43,2%). Schlussfolgerungen: Die Verträglichkeit von Itraconazol war signifikant höher als beim herkömmlichen AMB. Itraconazol zeigte ebenfalls Vorteile in der Wirksamkeit. Diese Studie bestätigt die Rolle von Itraconazol als sinnvolles und sicheres Medikament in der empirischen antimykotischen Therapie von fiebrigen neutropenischen Tumorpatienten. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Safety and Efficacy of Itraconazole Compared to Amphotericin B as Empirical Antifungal Therapy for Neutropenic Fever in Patients with Haematological MalignancySchuler, Ulrich, Bammer, Susanne, Aulitzky, Walter E., Binder, Claudia, Böhme, Angelika, Egerer, Gerlinde, Sandherr, Michael, Schwerdtfeger, Rainer, Silling, Gerda, Wandt, Hannes, Glasmacher, Axel, Ehninger, Gerhard January 2007 (has links)
Safety, tolerability and efficacy of itraconazole and amphotericin B (AMB) were compared for empirical antifungal treatment of febrile neutropenic cancer patients. Patients and Methods: In an open, randomised study, 162 patients with at least 72 h of antimicrobial treatment received either intravenous followed by oral itraconazole suspension or intravenous AMB for a maximum of 28 days. Permanent discontinuation of study medication due to any adverse event was the primary safety parameter. Efficacy parameters included response and success rate for both treatment groups. Results: Significantly fewer itraconazole patients discontinued treatment due to any adverse event (22.2 vs. 56.8% AMB; p < 0.0001). The main reason for discontinuation was a rise in serum creatinine (1.2% itraconazole vs. 23.5% AMB). Renal toxicity was significantly higher and more drug-related adverse events occurred in the AMB group. Intention-to-treat (ITT) analysis showed favourable efficacy for itraconazole: response and success rate were both significantly higher than for AMB (61.7 vs. 42% and 70.4 vs. 49.3%, both p < 0.0001). Treatment failure was markedly reduced in itraconazole patients (25.9 vs. 43.2%), largely due to the better tolerability. Conclusions: Itraconazole was tolerated significantly better than conventional AMB and also showed advantages regarding efficacy. This study confirms the role of itraconazole as a useful and safe agent in empirical antifungal therapy of febrile neutropenic cancer patients. / Hintergrund: Es wurden die Sicherheit, Verträglichkeit und Wirksamkeit von Itraconazol und Amphotericin B (AMB) in der antimykotischen Therapie der persistierend febrilen Neutropenie verglichen. Patienten und Methoden: In einer offenen, randomisierten Studie erhielten 162 Patienten mit mindestens 72-stündiger antibiotischer Therapie entweder Itraconazol (erst intravenös, dann oral) oder AMB (intravenös) für maximal 28 Tage. Primärer Sicherheitsparameter war die dauerhafte Unterbrechung der Studienmedikation aufgrund von Nebenwirkungen. Die Wirksamkeitsparameter umfassten die Ansprech- und Erfolgsrate für beide Behandlungsgruppen. Ergebnisse: Signifikant weniger Itraconazol-Patienten brachen die Behandlung wegen Nebenwirkungen ab (22,2 vs. 56,8% AMB; p < 0,0001). Hauptursache für Studienabbrüche war der Anstieg des Serum-Kreatinin-Spiegels (1,2% Itraconazol vs. 23,5% AMB). Nephrotoxische und weitere Nebenwirkungen traten im AMB-Studienarm signifikant häufiger auf. Intention-to-Treat (ITT)-Analysen zeigten eine bessere Wirksamkeit von Itraconazol: Ansprech- und Erfolgsrate waren signifikant höher als unter AMB (61,7 vs. 42% und 70,4 vs. 49,3%, beide p < 0,0001). Behandlungsversagen trat bei Itraconazol-Patienten merklich weniger auf (25,9 vs. 43,2%). Schlussfolgerungen: Die Verträglichkeit von Itraconazol war signifikant höher als beim herkömmlichen AMB. Itraconazol zeigte ebenfalls Vorteile in der Wirksamkeit. Diese Studie bestätigt die Rolle von Itraconazol als sinnvolles und sicheres Medikament in der empirischen antimykotischen Therapie von fiebrigen neutropenischen Tumorpatienten. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Estudo de subemulsões e microemulsões contendo anfotericina B para administração oral /Franzini, Cristina Maria. January 2006 (has links)
Orientador: Anselmo Gomes de Oliveira / Banca: Marco Vinícius Chaud / Banca: Renata Fonseca Vianna Lopez / Resumo: O objetivo esse trabalho foi o desenvolvimento de sistemas microemulsionados ou subemulsionados estabilizados por fosfatidilcolina de soja (FS) associada à tensoativos hidrofílicos para veiculação de AmB. Foi avaliada a utilização de pluronic (PLU) como co-tensoativo e observou-se o predomínio de sistemas mais viscosos. O estudo do comportamento reológico das MEs, mostrou que todas as amostras apresentaram comportamento Newtoniano, mantendo a viscosidade constante independente da velocidade de deformação. Os estados de agregação da AmB foram avaliados através de seus espectros de absorção relativos às diferentes concentrações, inclusão em ciclodextrinas e incorporação no sistema microemulsionado selecionado. Foi verificada uma modificação relativa na proporção de monômeros do fármaco. A técnica de nefelometria foi realizada e indicou aumento no tamanho das gotículas da ME com o aumento da concentração da AmB. Verificou-se que a incorporação de AmB nos sistemas desenvolvidos é dependente da proporção relativa da fase interna oleosa. A liberação de AmB, in vitro, é mais prolongada à medida que aumenta a proporção de fase interna oleosa. Os sistemas microemulsionados e subemulsionados mostraram-se eficazes na veiculação de AmB apresentando-se como sistema reservatório facilitando a liberação prolongada. / Abstract: The objective of this work was the development of subemulsified and microemulsified systems stabilized by soya phosphatidylcholine (FS) and/or FS associated to hydrophylic surfactants to AmB veiculation. It was evaluated the use of pluronic (PLU) as co-surfactant and it was observed the predominancy of the more viscose systems. The study of the rheological behavior of MEs verified that all the samples have presented Newtonian behavior, maintaining the viscosity constant independent of the deformation speed. The states of aggregation of the AmB have been evaluated through its relative absorption specters to the different concentrations, inclusion in cyclodextrins and incorporation in the selected microemulsion system. A relative modification in the proportion of monomers of the drug was verified. The Nefelometry technique was performed and showed increase in the droplets size of the ME with increase to the AmB concentration. It was verified that the AmB incorporation in the developed systems is dependent on the oil phase. The in vitro release of AmB is more prolonged as long as the internal oil phase increases. The microemulsified and subemulsified systems appear as more effective in the AmB veiculation presenting themselves as reservatory system, facilitating the prolonged release. / Mestre
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Cellular differentiation and antibiotic production by Streptomyces nodosus immobilised in alginate capsulesPereira, Tanya, University of Western Sydney, College of Health and Science, School of Natural Sciences January 2007 (has links)
Encapsulation is a novel technique that involves the entrapment of materials such as cells, enzymes or chemicals within a semi-permeable matrix and is being explored as a drug delivery system. This project investigated the encapsulation of Streptomyces nodosus in alginate to assess whether this organism can produce the antifungal drug amphotericin B from within the matrix. New methods were developed to immobilise S. nodosus mycelia and spores in alginate capsules, assess bacterial viability and detect ng mL–1 quantities of amphotericin B in culture fluids. When capsules were cultured and cell proliferation was encouraged, organisms formed protrusions on the surface of the capsules. Differentiated branched hyphae that never progressed to sporogenic hyphae were observed on the surface of these structures. Viability was maintained for up to 30 days and low levels of amphotericin B were produced. The emergence of a co-existing free-dwelling population was also observed. Culturing immobilised organisms using conditioned media from an amphotericin deficient S. nodosus strain, augmented the development of the free-dwelling population resulting in the detection of amphotericin B in the culture fluid and full differentiation to sporogenic hyphae. This is the first report of sporulation of S. nodosus in liquid environments and demonstrates that immobilised S. nodosus can produce antibiotics. The sporulation of free-dwelling organisms was also induced using conditioned media and manipulation of quorum size, indicating a solid surface is not required for sporulation. Conditioned media from other Streptomyces spp. induced variable responses including sporulation, pigment formation and antibiotic production, possibly demonstrating communication between species and/or alteration in nutritional status. This new model for the life cycle of S. nodosus will permit the study of developmental pathways, antibiotic production, microbial community structure and inter-species and intra-species signalling. / Doctor of Philosophy (PhD)
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Analysis of Secondary Metabolites from Aspergillus fumigatus and Penicillium nalgiovense : Antimicrobial Compounds from Filamentous Fungi Isolated from Extreme EnvironmentsSvahn, Stefan January 2015 (has links)
This thesis describes the cultivation and extraction of filamentous fungi isolated from extreme environments in the search for new antibiotic compounds. Filamentous fungi are a rich source of medicines including antibiotics, and it is believed that many currently unknown fungal species and bioactive fungal metabolites remain to be discovered. Aspergillus fumigatus and Penicillium nalgiovense strains were isolated from an antibiotic-contaminated riverbed near Hyderabad, India, and soil taken from a penguin’s nest on Paulete Island, Antarctica, respectively. It was anticipated that the extreme conditions within these environments would exert unusual selective pressures on their filamentous fungi, possibly causing the secretion of new bioactive compounds. The cultivation, extraction and analysis of metabolites from the A. fumigatus strain resulted in the isolation of the antimicrobial substance gliotoxin. Subsequent investigations revealed that this strain’s secretion of gliotoxin was increased by as much as 65 % when it was cultivated in the presence of pathogen-associated molecular patterns. These results indicate the existence of a fungal receptor/signaling system for detecting nearby bacteria. The scope for using gliotoxin and the related metabolite bis(methyl)gliotoxin as biomarker metabolites for diagnosing the lethal pulmonary condition invasive aspergillosis was also investigated. Bronchoalveolar lavage fluid from 42 patients with and without possible invasive aspergillosis was extracted and analyzed. The results obtained suggest that gliotoxin and bis(methyl)gliotoxin are not suitable markers for diagnosing invasive aspergillosis. Studies on the P. nalgiovense strain from Antarctica resulted in the isolation of the antifungal agent amphotericin B. The secretion of this compound increased when P. nalgiovense was cultured on a potato-dextrose agar enriched with coconut flakes rather than liquid RPMI 1640 medium. This was the first time amphotericin B was isolated from any organism other than the bacterium Streptomyces nodosus. The results presented in this thesis will be useful in the continuing search for novel bioactive compounds, the diagnosis of fungal infections, and as a source of insight into the interactions between microorganisms. Moreover, they show that even extensively studied fungal genera such as Aspergillus and Penicillium are not completely understood and may produce unexpected or previously unknown bioactive metabolites under appropriate conditions.
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Cellular differentiation and antibiotic production by Streptomyces nodosus immobilised in alginate capsulesPereira, Marie Antoinette Tanya. January 2007 (has links)
Thesis (PhD) -- University of Western Sydney, 2007. / A thesis submitted to the University of Western Sydney, College of Health and Science, School of Natural Sciences, as a requirement for the degree of Doctor of Philosophy. Includes bibliography.
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Microemulsões biocompatíveis de anfotericina B para administração oral : estudo estrutural, liberação in vitro e farmacocinética pré-clínica /Pestana, Kelly Chrystina. January 2009 (has links)
Resumo: Anfotericina B (AmB) é o fármaco de escolha para o tratamento das infecções fúngicas invasivas, importante causa de morbidade e mortalidade em pacientes imunodeprimidos. A toxicidade da AmB na forma convencional tem estimulado o desenvolvimento de novas formulações para a administração do fármaco. Neste trabalho foram estudadas microemulsões óleo/água, contendo fosfatidilcolina de soja/tween 20 como agentes tensoativos, CaptexTM 200 como fase oleosa e tampão fosfato 50mM pH 7,2 como fase aquosa, com o objetivo de reduzir a toxicidade e aumentar a absorção oral da AmB. Os sistemas obtidos com diferentes proporções dos componentes foram descritos através de um diagrama de fase pseudo-ternário. As microestruturas foram caracterizadas por espalhamento dinâmico de luz (DLS), reologia, microscopia de luz polarizada e espalhamento de raios X a baixo ângulo (SAXS). Foi desenvolvido e validado um método por CLAE para a determinação de AmB em plasma para aplicação em estudo do perfil farmacocinético do fármaco veiculado na ME em ratos. A nefrotoxicidade da AmB foi avaliada pela determinação da creatinina plasmática dos ratos após administração oral da nova formulação desenvolvida (50 mg/kg), e comparada à administração da formulação convencional na mesma dose. Foi observado que o tamanho das gotículas das microemulsões aumenta quando a AmB é incorporada ao sistema. As amostras apresentaram comportamento Newtoniano e, dependendo da composição do sistema, antitixotropia foi observada. Também foi observado que a viscosidade aumenta com o aumento da fase oleosa assim como a formação de estruturas lamelares ordenadas que são desfavorecidas com a adição do fármaco. A incorporação do fármaco depende das proporções de fase oleosa e tensoativo. As interações da AmB... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Amphotericin B (AmB) is the drug of choice for therapy of invasive fungal infections, an important cause of morbidity and mortality among immunodeficient patients. The high toxicity of AmB in its conventional formulation have induced the development of innovative formulations for the drug administration. In this work, oil-in-water microemulsions containing soya phosphatidylcholine/Tween® 20 (1:1) as surfactant, captexTM 200 as oil phase, and phosphate buffer 50mM, pH 7.2 as aqueous phase were studied in order to reduce AmB toxicity and increase its oral absorption. Systems obtained with different proportions of the components were described by pseudoternary phase diagram. The microstructures of the system were characterized by dynamic light scattering (DLS), rheological behavior, polarized light microscopy and small angle X-ray scattering (SAXS). Was developed and validated a fast and selective HPLC method to determine AmB for application to study of pharmacokinetic profile of drug in rats. The nephrotoxicity of AmB was assessed by determining of rat plasma creatinine after oral administration of the novel formulation (50 mg/kg) and comparing with it a conventional formulation in the same dose. It was observed that the oil droplets size increase when AmB is incorporated into the system. The samples presented Newtonian behavior depending on the system composition. An anti-thixotropic behavior was found, as well, the viscosity increases withthe oil phase. The data showed the formation of ordered structures with lamellar arrangements in the drug unloaded systems and that order decrease with the drug incorporation. The AmB incorporation into the system was dependent on both the oil phase and surfactant. The interactions of AmB with the systems can control both the drug solubility and release... (Complete abstract click electronic access below) / Orientador: Anselmo Gomes de Oliveira / Coorientador: Rosangela Gonçalves Peccinini / Banca: Maria Palmira Daflon Gremião / Banca: Marco Vinícius Chaud / Banca: Newton Andreo Filho / Banca: Raul Cesar Evangelista / Doutor
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