Global ETD Search

481	Development of PEGylated polyacridine peptides for in vivo gene delivery of plasmid DNA Fernandez, Christian Antonio 01 December 2010 (has links) Gene therapy provides an opportunity to ameliorate several genetic disorders and treat numerous diseases by using nucleic acid-based materials to modulate gene activity. However, the greatest challenge for successful gene therapy applications remains delivery. Two general approaches are currently under investigation to improve gene delivery efficiencies. The first is by encapsulating therapeutic genes into modified viruses that are effective at transfecting cells but that have also caused serious side effects during clinical evaluations in 1999 and 2003. In contrast, non-viral gene therapy provides the safety of conventional pharmaceutical products, but possesses inadequate transfection efficiencies for clinical use. Successful non-viral gene delivery systems require evasion of the reticuloendothelial system (RES) while in circulation, a targeting ligand for efficient cellular uptake, and perhaps several additional components for efficient cellular disposition once the carrier has been internalized. Engineering sophisticated gene delivery systems requires modular designs that are well characterized and optimized to circumvent each limiting barrier associated with gene delivery. The following thesis is focused on developing stabilized DNA polyplexes for in vivo applications and coupling their administration with current physical methods of non-viral gene delivery. The aim behind this approach is to systematically prepare gene carriers and evaluate their ability to maintain DNA transfection competent in order to determine which bioconjugate is the most successful for ultimately creating gene carriers that do not require physical interventions for gene expression. The non-viral gene delivery systems presented in the thesis are based on PEGylated polyacridine peptides that bind to DNA predominantly by intercalation rather than by ionic interactions with DNA. The initial experimental chapters deal with the discovery of these novel DNA polyplexes, and the latter chapters focus on the optimization of their design for targeted in vivo gene delivery. The results demonstrate that PEGylated polyacridine DNA polyplexes possess improved compatibility for in vivo administration and that their flexible design is beneficial for preparing multi-component gene delivery systems. Acridine Drug Delivery Gene Therapy Pharmacokinetics Plasmid DNA Polyplex Pharmacy and Pharmaceutical Sciences
482	Développement d'un modèle in vitro dynamique innovant pour l'optimisation des schémas thérapeutiques des antibiotiques / Development of an innovative dynaminc in vitro model for the optimization of antibiotic dosing regimen Broussou, Diane 15 October 2018 (has links) Parmi les stratégies d'amélioration des traitements des infections bactériennes chroniques, visant à accroître l'activité bactéricide ou à limiter la sélection de résistances, le développement de combinaisons d'antibiotiques existants constitue une stratégie prometteuse. L'objectif de cette thèse était d'évaluer l'efficacité d'une combinaison d'antibiotiques sur un biofilm bactérien dans un système in vitro dynamique qui permet de simuler les concentrations d'antibiotiques observées chez les patients traités. Nous avons montré que pour des infections complexes dues à de fortes charges bactériennes ou à la présence d'un biofilm, les études dans le système in vitro dynamique menées sur plusieurs jours apportaient plus d'informations sur l'efficacité d'une combinaison d'antibiotiques que des techniques standardisées menées avec des concentrations d'antibiotiques stables au cours du temps. Nous avons aussi montré que sur un biofilm, même si certaines associations n'ont pas d'impact sur la biomasse du biofilm elles permettent en revanche de maintenir des populations moins sensibles aux antibiotiques à des seuils relativement bas, alors que les mêmes antibiotiques utilisés seuls favorisent l'émergence de résistances au cours du traitement. Enfin, des essais préliminaires pour mimer des infections comme les mammites bovines ou les cystites ont montré que ce système pouvait être plus largement utilisé pour l'optimisation des schémas thérapeutiques en médecine humaine et en médecine vétérinaire. / Among strategies to improve the treatment of chronic bacterial infections by increasing the bactericidal activity or by limiting the selection of resistance, the development of combinations of existing drugs is a promising strategy. The aim of this thesis was to evaluate the efficacy of a combination of antibiotics on a bacterial biofilm in a dynamic in vitro system which allows to simulate the concentrations observed in patients. We have shown that for complicated infections due to large bacterial loads or to biofilms, in vitro dynamic studies over several days provided more information on the efficacy of a combination of antibiotics than classical methods conducted with constant antibiotic concentrations over time. We have also shown that on a biofilm, even if associations do not have an impact on the overall size of the biofilm, they maintain less-susceptible populations at relatively low levels, whereas the same antibiotics promote the emergence of resistance during treatment when used alone. Finally, preliminary trials to mimic infections such as bovine mastitis or cystitis have shown that this system could be more widely used for the optimization of dosage regimens in human medicine and veterinary medicine. Pharmacologie Pharmacocinétique Antibiotiques Antibiorésistance Combinaisons d'antibiotiques Pharmacology Pharmacokinetics Antibiotics Antimicrobial resistance Antibiotic combination
483	Treatment strategies to reverse efflux transporter-mediated resistance to Tyrosine kinase inhibitors D'Cunha, Ronilda Raymond 01 December 2018 (has links) Multidrug resistance (MDR), a phenomenon in which tumors that were initially sensitive, recur and start showing resistance not only to the initial chemotherapeutic agent but also to various anticancer drugs that are structurally and functionally different from the initial drug, constitutes one of the main reasons for the failure of chemotherapy. An important mechanism of MDR is the enhanced cellular efflux of anticancer agents due to an overexpression of ATP-binding cassette (ABC) transporters (i.e. efflux transporters), especially P-glycoprotein (Pgp), Multidrug Resistance-associated Protein 1 (MRP1) and Breast Cancer Resistance Protein (BCRP), in cancer cells. In order to reverse this resistance, there has been a lot of emphasis on the development of Pgp, MRP1 and BCRP inhibitors. Although this search has been ongoing for three decades, there are still no clinically available efflux transporter modulators. Tyrosine kinase inhibitors (TKIs) are a novel, rapidly growing class of anticancer agents that have a target-based mechanism of action, and their use transformed cancer chemotherapy due to higher specificity and enhanced safety profiles compared to conventional chemotherapeutic agents. Despite their tremendous success in treating various types of tumors, patients develop resistance to TKIs over time. Most of the FDA- approved TKIs are substrates of Pgp and/or BCRP, and as a result, these efflux transporters are also an important cause of conferred resistance against TKIs in cancer cells. Additionally, none of the 31 approved TKIs have an indication for use in brain tumors and interestingly, this may also due to the presence of Pgp and BCRP at the blood-brain barrier (BBB) and in the tumor cells, which prevent the TKI from crossing the BBB and reaching its target tumor site. Since Pgp- and BCRP- mediated TKI efflux has been shown to be involved in TKI resistance, the inhibition of these transporters could represent a potential TKI resistance reversal strategy. Over the last three decades, a large number of Pgp and/or BCRP inhibitors have been identified, but none of them have successfully made it to the clinic. It was observed that most drugs identified as inhibitors were either unable to achieve Pgp and BCRP inhibitory concentrations in-vivo without imparting severe toxicity, or did not possess adequate bioavailability and tissue distribution profiles in order to reach the tumor site. From these identified candidate inhibitors, after much thought and consideration, we chose to investigate TKIs and methylated flavones as modulators of efflux transporter-mediated TKI resistance. The overall goal of this project was to investigate the promising chemosensitizing potential of TKIs and methylated flavones in efflux transporter-mediated TKI resistance, both in-vitro and in-vivo. To identify potent efflux transporter inhibitor TKIs, we evaluated the effect of various TKIs on the accumulation of afatinib, the model TKI substrate, in Pgp- and BCRP- overexpressing cell lines. Afatinib was chosen as the model TKI substrate for our study because it undergoes very minimal metabolism in several species. Afatinib is a substrate of both Pgp and BCRP, but is not a substrate of uptake transporters. Therefore, it was anticipated that an in-vivo efflux transporter-mediated interaction with afatinib would most likely not be confounded or masked by other factors influencing its disposition. From the in-vitro cell uptake studies, we found that nilotinib is a potent inhibitor of both Pgp and BCRP, and it reversed Pgp- and BCRP- mediated afatinib efflux. Subsequently, an in-vivo study was carried out in mice to investigate the interaction between afatinib and nilotinib; and also the impact of nilotinib on the pharmacokinetics and tissue distribution of afatinib. Afatinib exposure in the plasma and in most tissues, namely liver, lung, kidney, heart, muscle, fat, and skin, was found to be significantly increased when nilotinib was coadministered with afatinib. Further, the nilotinib concentrations in most mice tissues was above that needed for Pgp and BCRP inhibition. These results showed that nilotinib could be a potent chemosensitizing agent for Pgp- and BCRP- mediated TKI resistance. Additionally, a significant increase in afatinib brain exposure was observed in the mice which were administered afatinib in combination with nilotinib. This is an interesting and important finding that could potentially be very useful in the treatment of primary and metastasized brain tumors. We also developed a physiologically based pharmacokinetic model of afatinib to characterize its tissue disposition in mice organs, and this model was then scaled up to humans. The developed model accurately predicted afatinib plasma exposure in healthy volunteers and patients with solid malignant tumors, renal impairment, and hepatic impairment. To investigate the chemosensitizing potential of methylated flavones in efflux transporter-mediated TKI resistance, the Bcrp1 inhibitory effect of 5,7-DMF and its effect on sorafenib accumulation was evaluated in-vitro. 5,7- DMF was found to be a potent inhibitor of Bcrp1 and consequently, its impact on the pharmacokinetics and tissue distribution of sorafenib was evaluated in mice. Results showed that co-administration with 5,7-DMF led to significantly greater sorafenib exposure in plasma and in most tissues collected. This indicated that 5,7-DMF may represent a promising chemosensitizing agent for Bcrp1-mediated TKI resistance due to its low toxicity and potent Bcrp1 inhibition. Our results may have important clinical implications as TKIs are currently the most widely used anticancer agents. 5,7-DMF may show great potential in reversing MDR in tumors expressing BCRP. On the other hand, TKI-TKI combination therapy, especially with nilotinib as the perpetrator, is an attractive strategy to combat both Pgp- and BCRP-mediated TKI resistance. Additionally, since nilotinib has a wide volume of distribution and can reach various tissues at concentrations sufficient enough to inhibit Pgp and BCRP; it could potentially be used as a chemosensitizer in the treatment of numerous types of cancers. Furthermore, its chemosensitizing potential could particularly be useful in the treatment of primary and metastatic brain tumors. Further studies are warranted to assess the chemosensitizing effect of nilotinib in tumor xenograft models. drug-drug interaction Efflux transporter inhibitors Multi-drug resistance pharmacokinetics Tyrosine Kinase Inhibitors
484	Pharmacokinetic modeling of pollutant fluxes by limnoplankton Wen, Yuan Hua. January 1996 (has links) No description available. Pharmacokinetics. Freshwater algae. Zooplankton. Toxicity testing -- Mathematical models.
485	An investigation of the pharmacokinetics and lymphatic transport of recombinant human leukaemia inhibitory factor Segrave, Alicia Maree January 2004 (has links) Abstract not available Drugs -- Physiological transport Lymph Drug delivery systems Drug targeting
486	New process development of dense gas technology for the processing of pharmaceuticals Sih, Roderick Peng Tze, Chemical Sciences & Engineering, Faculty of Engineering, UNSW January 2008 (has links) Drug re-engineering is an effective method for engineering existing products in alternative dosage forms and with enhanced pharmacokinetics. Insulin for the management of diabetic symptoms is an ideal candidate for re-engineering. Current subcutaneous therapy results in low patient compliance and is ineffective in meeting the physiological need for post-prandial insulin. Implementation of dose titration for more efficient blood-glucose management is also inconvenient and uncomfortable. Inhaled insulin is presented as a superior alternative to current therapy. The lungs offer excellent access to the circulatory system. Aerosols suspended in inspired air may deposit on lung epithelia and be available for systemic absorption. To evade the defense mechanism of the human respiratory tract, particle sizes have traditionally been minimized to achieve necessary aerosol performance. Recent developments indicate that more efficient performance augmentation may also be achieved by decreasing the bulk density of powders and modifying surface characteristics. Light and fluffy powders with rough surfaces experience much higher drag forces within an airstream. The Atomized Rapid Injection for Solvent Extraction (ARISE) process is a unique precipitation platform devised by incorporating a rapid injection technique for energetic solution delivery into supercritical fluid (SCF) media to effect recovery of previously dissolved pharmaceutical compounds. The quasi-instantaneous delivery of solutions alleviates the drawbacks of the use of capillary nozzles or micro-orifices, gradual elution and mixing controlled precipitation kinetics in existing SCF precipitation techniques. Most importantly, the energetic release of solution into SCF media effects supersaturation over a much larger spatial volume and promotes the homogeneous precipitation of low bulk density powders. ARISE processed insulin powders displayed characteristics that were highly influenced by anti-solvent conditions and powders of different qualities were obtained as a function of anti-solvent pressures. At lower anti-solvent pressures, powders of narrow particle size distribution were achieved, an indication of homogeneous supersaturation levels within processing. Span, the index of size distribution was as low as 0.991. At higher anti-solvent pressures, supersaturation rates were increased while mixing efficiencies decreased, resulting in powders of wider size distribution, and powder bulk densities as low as 0.01 g/ml. Low bulk density insulin displayed in-vitro respirable fractions as high as 78%. Particle Inhalation Technology Supercritical Fluid Technology ARISE Technology Particle Design Nanotechnology Pharmacokinetics Pharmaceutical technology
487	Deterministic modelling of kinetics and radiobiology of radiation-cisplatin interaction in the treatment of head and neck cancers. Marcu, Loredana Gabriela January 2004 (has links) One of the main objectives of combining radiation treatment and chemotherapy is to obtain a therapeutic gain by an improved tumour control with less or no enhancement of normal tissue toxicity. The optimal schedule for the combined treatment of cisplatin-radiation is still under investigation. Neither the optimal time interval, nor the most adequate sequence of administration of cisplatin and radiation are known. The results of the trials are also inconclusive. Some trials showed a supra-additive effect from the administration of cisplatin before radiotherapy, others, on contrary, from the injection of drug after radiotherapy. The present work encompasses the major challenges brought by the combined modality treatment: cisplatin-radiotherapy. The major goal of this work was to investigate the optimal treatment sequencing between cisplatin and radiotherapy and also the optimal schedule for head and neck carcinomas. Therefore, a computer-based tumour model with literature-given biological parameters has been developed which has allowed the simulation of treatment with radiation and chemotherapy. Radiotherapy has been simulated on the virtual tumour and the effects of radiotherapy on tumour regression and regrowth have been analyzed. Also, the mechanisms of cisplatin's action on tumour have been implemented, and the phenomena of drug resistance and tumour repopulation during chemotherapy studied. Finally, the combined modality treatment has been simulated, and the effect of drug-radiation interaction on tumour behaviour evaluated. The current investigation has shown that cisplatin administered immediately before radiation gives similar tumour control to the post-radiation sequencing of the drug. Furthermore, the killing effect of the combined modality treatment on tumour increases with the increase in cell recruitment. The individual cell kill produced by cisplatin and radiation leads to an additive-only tumour response when the treatments are given concurrently, and for a synergistic effect cisplatin must potentiate the effect of radiation. The final conclusion, by which cisplatin administered on a daily basis leads to a better tumour control than cisplatin administered weekly, is in accordance with the latest trial results on head and neck cancers. Therefore, treatment regimens that correlate better with the pharmacokinetics and the radiobiological properties of the therapeutic agents result in better outcomes. / Thesis (Ph.D.)--School of Chemistry and Physics, 2004.
488	Pharmacotherapy for Parkinson's Disease - Observations and Innovations Nyholm, Dag January 2003 (has links) <p>Pharmacotherapy for Parkinson’s disease (PD) is based on levodopa, the most effective dopaminergic drug. The development of motor complications constitutes the major challenge for new or refined therapies.</p><p>To evaluate the impact of levodopa pharmacokinetics on motor function, an observational study in the patients’ home environment was carried out. A high variability in plasma levodopa levels was found in all patients, irrespective of treatment regimen. The impact of levodopa pharmacokinetics was further studied in a crossover trial comparing sustained-release tablets and continuous daytime intestinal infusion. Infusion produced significantly decreased variability in plasma levels of levodopa, resulting in significantly normalised motor function. A permanent system for long-term levodopa infusion has been developed and 28 patients have been followed for 87 patient-years. Motor response was generally preserved during the long-term observation period, implying that there is no development of tolerance to infusion therapy. Levodopa tablets are normally used in multiples of 50 or 100 mg, thus a rough estimate of individual dosage. A new concept for individualising levodopa/carbidopa doses with microtablets of 5/1.25 mg is under development. An electronic drug-dispensing device for administering the microtablets was tested on patients with PD. All were able to handle the dispenser and most were interested in future use of the concept. Self-assessment of symptoms is accurate in PD, but traditional paper diaries are associated with low compliance. A wireless electronic diary was compared with a corresponding paper diary. The time-stamped and thus completely reliable patient compliance was 88% with the electronic diary.</p><p>To conclude, pharmacokinetics of levodopa is the major determinant for motor fluctuations in PD. Every effort to individualise dosage and to smooth out the fluctuations in levodopa concentrations should be made, e.g. by means of microtablets or enteral infusion. Electronic patient diaries for real-time data capture are suitable for PD studies.</p> Neurosciences Parkinson's disease levodopa pharmacokinetics infusion drug delivery systems electronic patient diary Neurovetenskap Neurology Neurologi
489	Blood-Brain Barrier Transport of Drugs Across Species with the Emphasis on Health, Disease and Modelling Tunblad, Karin January 2004 (has links) <p>The transport of drugs across the blood-brain barrier (BBB) has been investigated in different species using morphine and morphine-6-glucuronide (M6G) as model compounds. The influence of probenecid on the BBB transport of morphine and M6G was investigated, and the consequences of meningitis and severe brain injury on the concentrations of morphine in the brain were examined. All data were obtained by microdialysis, and data analysis using mathematical models was emphasised.</p><p>Morphine is exposed to active efflux at the BBB in rats, pigs and humans. In addition, the half-life of morphine is longer in the brain than in blood in these species. These interspecies similarities show the predictive potential of the two animal models for the BBB transport of morphine in humans. In the pig the exposure of the brain to morphine was higher in the presence of meningitis than when healthy. This was interpreted as a decrease in the active efflux and an increase in the passive diffusion over the injured BBB. In contrast, there was no significant difference in the concentrations of morphine in the “better” (uninjured) or the “worse” (injured) brain tissue in brain trauma patients. The extent of the transport across the BBB is similar for morphine and M6G. However, co-administration of probenecid only increased the brain concentrations of morphine, demonstrating that morphine and M6G are substrates for different efflux transporters at the BBB. An integrated model for the analysis of data obtained by microdialysis was developed. This model makes fewer assumptions about the recovery, the protein binding and the time of the dialysate observation than a previous model and traditional non-compartmental analysis and should, therefore, yield more reliable parameter estimates.</p><p>Knowledge of the consequences of efflux transporters and disease on the brain concentrations of a drug can be useful for individualising the dosing regimen in patients. </p> Pharmaceutical biosciences Blood-brain barrier Disease Microdialysis Modelling Transport Pharmacokinetics NONMEM Farmaceutisk biovetenskap Biopharmacy Biofarmaci
490	Clinical Pharmacokinetics of the Antimalarial Artemisinin Based on Saliva Sampling Gordi, Toufigh January 2001 (has links) <p>Artemisinin is the parent compound of a novel family of antimalarials. Repetitive administrations of artemisinin to both healthy volunteers and malaria patients have been shown to result in decreased plasma concentrations of the compound, most probably due to an autoinduction of different CYP450 enzymes. The aim of this thesis was to investigate the clinical pharmacokinetics and efficacy of different dosage regimens of the drug, and study the kinetics of the enzyme induction. Moreover, the putative interaction of the compound with blood components was investigated in vitro. </p><p>Artemisinin was found to distribute into red blood cells, competing with oxygen for binding to hemoglobin. The compound was stable in plasma and, in contrast to previous reports, did not bind to red blood cell membranes. </p><p>To circumvent the logistical and ethical problems associated with plasma sampling, suitability of saliva as substitute was investigated. Moreover, due to the large number of collected samples, an HPLC method, enabling a direct injection of saliva and plasma samples, was developed. </p><p>Saliva artemisinin concentrations were found to correlate with its unbound plasma levels, making saliva a suitable body fluid for pharmacokinetic studies of the compound. Based on saliva samples, artemisinin was shown to exhibit a dose-dependent kinetics and efficacy in malaria patients, with a possible sex-effect on the metabolism of the compound during the first treatment day. Moreover, the time-dependent kinetics of the compound was observed in both malaria patients and healthy subjects. A physiological approach was utilized to model the autoinduction in the latter group. A model with a feedback mechanism of enzymes was able to describe the data, with estimations of the half-lives of induction (3.15 hrs) and elimination of enzymes (32.9 hrs), as well as pharmacokinetic parameters of artemisinin. </p><p>In conclusion, artemisinin was found to exhibit a fast induction of enzymes, with time- and dose-dependent drug kinetics and dose-dependent antimalarial efficacy. </p> Pharmaceutical biosciences Artemisinin pharmacokinetics saliva HPLC pharmacodynamics Farmaceutisk biovetenskap Biopharmacy Biofarmaci

Search results