Spelling suggestions: "subject:"beta lactam antibiotic""
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Synthesis of spirolactams via phenylseleno group transfer radical cyclization and secondary amine formation via reductive aminationusing InCl3/Et3SiH promoted by Lewis acidLaw, Ka-lun., 羅嘉倫. January 2007 (has links)
published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy
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Investigation of novel mechanisms of resistance and susceptibility to [beta]-lactam antibiotics in methicillin-resistant Staphylococcus aureusBa, Xiaoliang January 2016 (has links)
No description available.
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Part I : synthesis of azetidin-2-ones from pyrazolidin-3-ones ; Part II : synthesis of a subunit of the immunosuppressant FK-506Toske, Steven Gerald 10 June 1993 (has links)
Graduation date: 1994
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Synthesis of beta-lactam-4-ylidenes and their application as synthons for novel beta-lactam synthetic methodologies.Zoghbi, Michel. Warkentin, John. Unknown Date (has links)
Thesis (Ph.D.)--McMaster University (Canada), 1991. / Source: Dissertation Abstracts International, Volume: 54-02, Section: B, page: 0835.
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Characterization of the metallo-[beta]-lactamase L1 from Stenotrophomonas maltophiliaPeriyannan, Gopal Raj. January 2004 (has links)
Thesis (Ph. D.)--Miami University, Dept. of Chemistry and Biochemistry, 2004. / Title from second page of PDF document. Includes bibliographical references.
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Ethyl N-bromo-alkylcarbamates as heterocyclic precursors and extractives from Oceanapia sp.Dovey, Martin Charles. January 2001 (has links)
The synthesis of p-lactams has been of foremost importance since the discovery of penicillin by Sir Alexander Fleming, in 1928, and its susequent structure elucidation in 1945. Ethyl N-2-bromo-alkylcarbamates show considerable potential as precursors to p- lactams. In the past, p-lactams have been prepared by many methods, none of which have involved 2-3 bond formation. The proposed ring closure using ethyl N-2-bromoalkylcarbamate involves 2-3 bond formation, making this method of synthesis novel. This work describes two attempted methods of cyclisation. The first using a Grignard reagent, and the second, using abstraction of an acidic proton a to a phosphonate group. These methods of intramolecular cyclisation were based on analogous intermolecular additions, which are also described. The second method was also used to determine the general potential of ethyl N-bromo- alkylcarbamtes as precursors to other heterocyclic systems. / Thesis (M.Sc.)-University of Natal, Durban, 2001. / NRF & NRF/DEA & T.
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Improving the enzymatic synthesis of semi-synthetic beta-lactam antibiotics via reaction engineering and data-driven protein engineeringDeaguero, Andria Lynn 16 August 2011 (has links)
Semi-synthetic β-lactam antibiotics are the most prescribed class of antibiotics in the world. Chemical coupling of a β-lactam moiety with an acyl side chain has dominated the industrial production of semi-synthetic β-lactam antibiotics since their discovery in the early 1960s. Enzymatic coupling of a β-lactam moiety with an acyl side chain can be accomplished in a process that is much more environmentally benign but also results in a much lower yield. The goal of the research presented in this dissertation is to improve the enzymatic synthesis of β-lactam antibiotics via reaction engineering, medium engineering and data-drive protein engineering.
Reaction engineering was employed to demonstrate that the hydrolysis of penicillin G to produce the β-lactam nucleus 6-aminopenicillanic acid (6-APA), and the synthesis of ampicillin from 6-APA and (R)-phenylglycine methyl ester ((R)-PGME), can be combined in a cascade conversion. In this work, penicillin G acylase (PGA) was utilized to catalyze the hydrolysis step, and PGA and α-amino ester hydrolase (AEH) were both studied to catalyze the synthesis step. Two different reaction configurations and various relative enzyme loadings were studied. Both configurations present a promising alternative to the current two-pot set-up which requires intermittent isolation of the intermediate, 6-APA.
Medium engineering is primarily of interest in β-lactam antibiotic synthesis as a means to suppress the undesired primary and secondary hydrolysis reactions. The synthesis of ampicillin from 6-APA and (R)-PGME in the presence of ethylene glycol was chosen for study after a review of the literature. It was discovered that the transesterification product of (R)-PGME and ethylene glycol, (R)-phenylglycine hydroxyethyl ester, is transiently formed during the synthesis reactions. This never reported side reaction has the ability to positively affect yield by re-directing a portion of the consumption of (R)-PGME to an intermediate that could be used to synthesize ampicillin, rather than to an unusable hydrolysis product.
Protein engineering was utilized to alter the selectivity of wild-type PGA with respect to the substituent on the alpha carbon of its substrates. Four residues were identified that had altered selectivity toward the desired product, (R)-ampicillin. Furthermore, the (R)-selective variants improved the yield from pure (R)-PGME up to 2-fold and significantly decreased the amount of secondary hydrolysis present in the reactions.
Overall, we have expanded the applicability of PGA and AEH for the synthesis of semi-synthetic β-lactam antibiotics. We have shown the two enzymes can be combined in a novel one-pot cascade, which has the potential to eliminate an isolation step in the current manufacturing process. Furthermore, we have shown that the previously reported ex-situ mixed donor synthesis of ampicillin for PGA can also occur in-situ in the presence of a suitable side chain acyl donor and co-solvent. Finally, we have made significant progress towards obtaining a selective PGA that is capable of synthesizing diastereomerically pure semi-synthetic β-lactam antibiotics from racemic substrates.
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Investigation of exudative epidermitis and ear necrosis in pigsPark, Jeonghwa 23 December 2011 (has links)
This thesis is an investigation of two common skin conditions of pigs: exudative epidermitis (EE) and ear necrosis (EN). The cause of exudative epidermitis and risk factors are well understood, however the study was prompted because of reports of treatment failure. A survey of veterinary practitioners (n=15) and pork producers (n=58) was conducted to determine which treatments are commonly used. Amongst farmer respondents topical treatments were often used and in serious cases injectable penicillin G was administered. Thirty farms with a history of EE were visited and skin samples taken from affected pigs. The antimicrobial resistance pattern for isolates of Staphylococcus hyicus and Staphylococcus aureus revealed that almost all isolates were resistant to penicillin G and ampicillin. In addition, certain isolates of S. hyicus as well as S. aureus were shown to possess the mecA gene which is associated with resistance to methicillin. The presence of widespread resistance to penicillin G among staphylococci isolates suggests a reason for poor treatment response. The presence of the mecA gene in staphylococci other than S. aureus recovered from pigs has not been reported before and is of interest from a public health standpoint.
A second study investigated EN. The causative agent(s) and the associated risk factors are not well understood. Eleven case farms were visited and skin biopsies and oral swabs taken from pigs in early, mid and late stages of the disease. Bacteriological culturing was performed for staphylococci and spirochetes as well as histological examination of the biopsy samples. Farm-level risk factors were assessed on 14 case farms and 9 control farms. Staphylococci were generally recovered in abundance from the majority of samples but spirochetes were not cultured and only identified microscopically in a small number of tissue samples. Histology revealed that the disease appeared to occur first as a lesion on the epidermal surface that caused tissue damage and led to subsequent invasion of the dermis. This pathogenesis was consistent with the hypothesis that staphylococci colonize the skin surface and produce exfoliating toxins. Ear biting was noted to be commonly present and may be an important contributing factor. / Ontario Pork
Animal Health Strategic Initiative Fund
Ontario Ministry of Agriculture, Food and Rural Affairs(OMAFRA)
Ontario Veterinary College, University of Guelph
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The effect of resuscitation fluids on beta lactam antibiotic pharmacokinetics in interstitial tissue in acute thermal injuryKanchanamala Ranasinghe Unknown Date (has links)
Advantages and disadvantages of administration of resuscitation fluids in burns patients have been discussed at length. However, the effect of resuscitation fluids on tissue physiological endpoints and tissue antibiotic distribution is scarcely reported, yet clinically crucial. The preliminary studies of this thesis involved evaluation of the literature and the development of a non - recovery anaesthetized rat model of burn injury suitable for the study of plasma and tissue physiological changes and antibiotic pharmacokinetics (PK). Therefore, the first series of the studies for this thesis was designed to examine the relative effects of a range of crystalloid and colloid-containing resuscitation fluids on tissue pH following burn injury in a rat model. The secondary aims were to examine the effects of these fluids on tissue blood flow, plasma protein extravasation (PPE) and evaporative water loss (EWL). In these studies we confirmed that the burn injury and fluid resuscitation were accompanied by a tissue acidosis. Administration of Lactated Ringers’ Albumin (LRA) and Lactated Ringers’ Dextran (LRD) effectively attenuated the degree of tissue acidosis in the thermally injured and non injured sites for 180 minutes post burn and the transepidermal water loss (TEWL) on the non injured sites during the first 60 minutes of the acute phase of burn injury. The second phase of the work was designed to assess the changes in antibiotic distribution with the administration of these different fluids in plasma as well as in interstitial tissues in the burn and the non burn sites. This study showed that for cephalothin (4g/kg body weight, administered intravenously (IV)), Lactated Ringers solution (LR) and Hypertonic Saline (HS) showed similar plasma PK with Time > Minimum inhibitory concentration (MIC) (> 180 minutes) in plasma. However, the antibiotic tissue distribution was more skewed towards lower levels for HS when compared with LR. For piperacillin (18g/kg body weight, administered IV), Time > MIC was considerably low comparatively, being only 55 min for both LR and HS. Antibiotic concentrations did not reach the MIC with LRA resuscitation. When considering the interstitial tissues, Time > MIC for cephalothin was lower than HS with LR on both the burn and the non burn sites. T > MIC for piperacillin was zero for all fluids in both burn and non burn sites. The major finding of this study was that with LRA resuscitation, antibiotic distribution was significantly lower than seen with LR and HS for both antibiotics studied in the interstitial tissue fluid space in both the burn and non burn sites. The final phase of the work was designed to study the apparent permeability co efficient of Keratinocytes (KC) to antibiotics in the presence of simulated pH changes observed in burn tissue in thermal injury using colloids and crystalloids. This study found that there was no significant difference between the basolateral and apical concentrations of antibiotics observed neither with the different pH values nor with time. However, there was definitely a significant difference in the apparent permeability of the cells with LR vs LRA and that the permeability was higher with LR than LRA. This study confirmed that the presence of LR allows greater permeation of the antibiotic into the KC, and also that with LRA resuscitation, the antibiotic tends to stay at higher concentrations in the interstitial compartment. These studies demonstrate that choice of resuscitation fluid following burn injury can affect both changes in tissue physiology and antibiotic distribution, warranting further study in both animal models and patient populations.
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Processo intensificado de hidrolise enzimatica de penicilina G e purificação dos produtos em reator multi-estagio e contra-corrente / Intensificated process of hydrolysis of penicillin G and purification of the products in a multi-stage couter-current reactorFerreira, Juliana de Souza 16 July 2004 (has links)
Orientadores: Telma Teixeira Franco, Adrianus Johannes Straanhof, Lucas Antonius Maria van der Wielen / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-05T06:02:03Z (GMT). No. of bitstreams: 1
Ferreira_JulianadeSouza_D.pdf: 5552134 bytes, checksum: f2234304e4f228a88bb1b83073350bfa (MD5)
Previous issue date: 2004 / Resumo: Este trabalho estuda a hidrólise enzimática da penicilina G (PenG) em ácido 6-aminopenicilânico (6-APA) e ácido fenil acético (PAA). Em um reator contra-corrente multi-estágio e em baixos valores de pH, a reação enzimática ocorre na fase aquosa e os produtos são separados entre a fase aquosa e a fase orgânica (acetato de butila). Além disso, em pH baixo, a cristalização do 6-APA ocorre quando concentrações de PenG são altas. Ambos fenômenos deslocam o equilíbrio no sentido de conversão do substrato, promovendo alta produtividade. A primeira etapa deste trabalho refere-se à avaliação da atividade e estabilidade da penicilina amidase a baixo pH e na presença de acetato de butila (BuAc). A enzima apresentou máxima atividade na faixa de pH 8,0 - 9,0 e permaneceu estável mesmo em pHs baixos (3,0 - 6,0) num período de incubação de até 32 dias. Embora a atividade enzimática sofra um decréscimo de aproximadamente 80%, isto não representa empecilho para sua utilização no emprego da hidrólise de PenG em processo contínuo e bifásico (água e BuAc) em pH baixo. O efeito de PenG, PAA e BuAc na cristalização do 6-APA e os parâmetros cinéticos de cristalização também foram avaliados. Os resultados mostraram que as impurezas não exerceram efeito sobre a cristalização de 6-APA, na faixa de pH entre 4 e 5 e nas concentrações de impurezas de 0,55 mM - 3,0 mM. A avaliação da cinética de cristalização possibilitou o uso de um modelo que pode predizer as taxas de cristalização de 6-APA. Um modelo quantitativo foi desenvolvido para o cálculo do pH e das concentrações do substrato e dos produtos nos estágios do reator contra-corrente. Os dados fornecidos pelo modelo podem ser utilizados para otimizar as condições de operação como: estágio de alimentação, vazão volumétrica das fases e concentração inicial do substrato. Na última etapa deste trabalho foi feita uma revisão bibliográfica sobre biorreatores extrativos em que são apresentadas as vantagens de cada configuração e as restrições dos processos biocatalíticos. Através desta revisão, foi verificado que o uso de um sistema, formado por agitadores acoplados a hidrocic1ones em série, pode representar uma opção adequada de reatores multi-estágio contra-corrente para a hidrólise de PenG em escala de laboratório / Abstract: This work studies the enzymatic hydrolysis of penicillin G (PenG) into 6-aminopenicillanic acid (6-APA) and phenylacetic acid (PAA). In a multi-stage countercurrent reactor and at low pH, the enzymatic reaction takes place in the aqueous phase and the products are separated between the aqueous phase and organic phase (butyl acetate - BuAc). Furthermore, 6-APA crystallization occurs at low pH when PenG concentrations are high. Both phenomena shift the equilibrium towards conversion of substrate, favoring high productivity. The first step of this work, concerns the evaluation of activity and stability of penicillin amidase at low pH and in the presence of butyl acetate (BuAc). The enzyme presented the maximum activity in the pH 8.0 - 9.0 and remained stable at low pHs (3.06.0) during at least 32 days. Although the enzyme activity decreased by 80%, this does not represent a drawback in the application of a biphasic (water and BuAc) and continuous PenG hydrolysis at low pH. The effect of PenG, PAA and BuAc in APA crystallization and the kinetic parameters were also analyzed. The results showed that impurities have no effect on APA crystallization, in the pH range 4 - 5 and in the impurity concentrations of 0.55 mM - 3.0 mM. The evaluation of crystallization kinetics allowed the use of a mo del that predicts the APA crystallization rates. A quantitative model was developed in order to calculate the pH and substrates and products concentrations in the countercurrent reactor. The data provided by the model can be used to optimize the operation conditions: stage of feed, flow rate of phases and initial substrate concentration. In the last step of this work, a literature review concerning extractive bioreactor was made. This review presents the advantages of each configuration and the restrictions of the biocatalytic processes. Through this review, a integrated system of mixers and hydrocydone was suggested as an appropriate option of multi-stage countercurrent reactor for PenG hydrolysis in laboratory scale / Doutorado / Desenvolvimento de Processos Químicos / Doutor em Engenharia Química
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