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Σύνθεση και μελέτη φουλλερενικών συζευγμάτων αντικαρκινικών ουσιώνΜπαντζή, Μαρίνα 01 October 2012 (has links)
Η θεραπεία του καρκίνου αποτελεί στις μέρες μας μία από τις μεγαλύτερες προκλήσεις της επιστημονικής κοινότητας παγκοσμίως. Τα συμβατικά φάρμακα που κυκλοφορούν εδώ και χρόνια προσβάλλουν τόσο τα καρκινικά όσο και τα υγιή κύτταρα. Το αποτέλεσμα είναι η πρόκληση σοβαρών παρενεργειών, οι οποίες δεν επιτρέπουν τη χορήγηση θεραπευτικών δόσεων.
Η ανάπτυξη της νανοτεχνολογίας έχει βοηθήσει κατά πολύ το επιστημονικό πεδίο όσον αφορά τη διάγνωση και τη θεραπεία του καρκίνου. Τα νανοσωματίδια παρέχουν ένα νέο τρόπο χορήγησης των αντικαρκινικών φαρμάκων, λειτουργώντας ως φορείς που εξαγγειώνονται στην περιοχή του όγκου, επιτρέποντας με αυτόν τον τρόπο άμεση πρόσβαση στα καρκινικά κύτταρα. Τα συγκεκριμένα σωματίδια μπορούν να τροποποιηθούν κατάλληλα, ώστε να αποκτήσουν τη δυνατότητα να δεσμευθούν στις μεμβράνες των καρκινικών κυττάρων, στο μικροπεριβάλλον τους ή σε κυτταροπλασματικούς ή πυρηνικούς υποδοχείς. Κατά συνέπεια, μεταφέρονται στοχευμένα υψηλές συγκεντρώσεις του φαρμάκου στα καρκινικά κύτταρα και μειώνεται η τοξικότητα στους φυσιολογικούς ιστούς.
Η ανάπτυξη τροποποιημένων νανοφορέων για τη χορήγηση των αντικαρκινικών φαρμάκων μπορεί να περιορίσει τα προβλήματα που συνδέονται με τα συμβατικά συστήματα χορήγησης, όπως έλλειψη εκλεκτικότητας και τοξικότητα. Οι νανοφορείς που έχουν μελετηθεί μέχρι σήμερα, εμφανίζουν σημαντικά προβλήματα, όπως δομική αστάθεια, δομική ετερογένεια και ελλειπή έλεγχο μεγέθους και σχήματος. Υπάρχει, συνεπώς, μια αυξανόμενη ανάγκη για ανάπτυξη προηγμένων συστημάτων μεταφοράς αντικαρκινικών φαρμάκων, στα οποία το σχήμα, το μέγεθος και η ικανότητα φόρτωσης να μπορούν να ρυθμιστούν κατάλληλα, προκειμένου να μεγιστοποιηθεί η αποτελεσματικότητα και να ελαχιστοποιηθεί η τοξικότητα των φαρμάκων.
Τα φουλλερένια (C60) ανήκουν στην κατηγορία των νανοφορέων που μελετούνται εκτενώς για τη χορήγηση αντικαρκινικών παραγόντων. Η δυνατότητα των φουλλερενίων για την εκπλήρωση των παραπάνω προδιαγραφών έγκειται στη μεγάλη δυνατότητα τροποποίησης της βασικής τους δομής και την παρασκευή πληθώρας παραγώγων με επιθυμητές ιδιότητες. Το μεγαλύτερο μειονέκτημα αυτών των μορίων είναι η ελάχιστη διαλυτότητά τους στο νερό. Το πρόβλημα αυτό μπορεί να αντιμετωπιστεί με την πρόσδεση σε αυτά υδρόφιλων πολυμερών, όπως είναι η πολυαιθυλενογλυκόλη (PEG).
Στην παρούσα εργασία, παρουσιάζονται τα αποτελέσματα της σύνθεσης ενός συζεύγματος πεγκυλιωμένου μορίου φουλλερενίου (C60) με το αντικαρκινικό φάρμακο δοξορουμπικίνη, καθώς και η in vitro αξιολόγηση του τελικού προϊόντος. Στόχος είναι η αύξηση της αποτελεσματικότητας και η μείωση της τοξικότητας του φαρμάκου, μέσω στοχευμένης μεταφοράς στον καρκινικό όγκο. Ένα πεγκυλιωμένο σύζευγμα φουλλερενίου (C60) με δοξορουμπικίνη (FULL-PEG-DOX) συντέθηκε επιτυχώς σε έξι στάδια με συνολική απόδοση 25,7% και χαρακτηρίστηκε με 1H-NMR, IR και UV. Η δραστικότητα του τελικού προϊόντος, καθώς επίσης και δύο ενδιάμεσων προϊόντων (FULL-PEG και FULL-DOX) αλλά και του υδροχλωρικού άλατος της δοξορουμπικίνης ενάντια στον καρκίνο ελέγχθηκε in vitro σε καρκινικές σειρές κυττάρων MCF-7. Το τελικό προϊόν εμφάνισε ικανοποιητική αντικαρκινική δράση, κυρίως μέσω αναστολής του πολλαπλασιασμού των καρκινικών κυττάρων.
Τα αποτελέσματα της μελέτης μπορούν να θεωρηθούν ιδιαίτερα ενθαρρυντικά και δικαιολογούν τη συνέχιση της ερευνητικής προσπάθειας για στοχευμένη χορήγηση δοξορουμπικίνης σε καρκινικά κύτταρα μέσω της πρόσδεσής της σε τροποποιημένα μόρια φουλλερενίου. / Cancer’s treatment is nowadays one of the most important challenges that the scientific community worldwide has to face. Conventional anticancer drugs, which are in the market many years, affect both cancer and normal cells. Hence, they cause serious side effects, which make the administration of therapeutic drug doses impossible.
The development of nanotechnology has changed the scientific landscape in terms of cancer diagnosis and treatment. Nanoparticulate drug carriers provide a new mode of cancer drug delivery. They can extravasate at tumor site, allowing direct drug access to cancer cells. These particles allow exquisite modification for binding to cancer cell membranes, the microenvironment or to cytoplasmic or nuclear receptor sites. This results to the delivery of high drug concentrations to the targeted cancer cells with reduced toxicity to normal (healthy) tissue.
The application of engineered nanocarriers for the delivery of anticancer drugs may alleviate the problems associated with conventional anticancer drug delivery systems, such as lack of selectivity and toxicity. Drug nanocarriers explored to date suffer from inherent limitations, including instability, structural heterogeneity and poor control over size and shape. There is an increasing need for advanced delivery agents for the anticancer drugs where shape, size, functionalization and loading capacity can be precisely tuned in order to maximize efficacy and minimize drug toxicity.
Among the nanocarriers which are currently studied as drug delivery systems for anticancer agents are fullerenes (C60). The potential of fullerenes to address the above specifications lies in the immense scope for chemical derivatization to the basic structure. Except for their high toxicity to normal cells, the main drawback of these carbon molecules is their poor solubility to water. This problem can be overcome by attaching on fullerene particles hydrophilic polymers, such as polyethylene glycol (PEG).
In the present work, the results of synthesis and in vitro biological evaluation of a pegylated fullerene conjugate with the potent anticancer drug Doxorubicin are represented. The main goal is to increase efficacy and reduce toxicity of doxorubicin, through targeted delivery to tumors, by conjugating the drug to pegylated fullerenes. A pegylated fullerene-doxorubicin conjugate has been successfully synthesized in 6 steps with a 25.7 % overall yield and was characterized by 1H-NMR, IR and UV. The final product, two intermediate products and doxorubicin hydrochloride were evaluated in vitro against MCF-7 cancer cells lines. The final product exhibited satisfactory anticancer activity mainly by inhibiting proliferation.
The results of this study justify further investigation of the potential of pegylated fullerenes as targeted nanocarriers of doxorubicin.
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Nanopart?culas de magnetita com oxacilina obtida por moagem de alta energia para aplica??es biom?dicasCarvalho, Juliana Fernandes de 26 February 2013 (has links)
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Previous issue date: 2013-02-26 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The drug targeting has been the subject of extensive studies in order to develop site-specific treatments that minimize side effects and become more effective anticancer therapy. Despite considerable interest in this class, drugs like antibiotics also have limitations, and have been neglected. Using new pharmaceutical technologies, the use of magnetic vectors appear as promising candidate for drug delivery systems in several studies. Small magnetic particles bound to the drug of interest can be modulated according to the orientation of a magnet outside the body, locating and holding in a specific site. In this work, we propose the use of High Energy Milling (HEM) for synthesis of a magnetic vector with characteristics suitable for biomedical applications by intravenous administration, and for the formation of an oxacillin-carrier complex to obtain a system for treating infections caused by Staphylococcus aureus. The results of the variation of milling time showed that the size and structural properties of the formed material change with increasing milling time, and in 60 hours we found the sample closest to the ideal conditions of the material. The vector-drug system was studied in terms of structural stability and antimicrobial activity after the milling process, which revealed the integrity of the oxacillin molecule and its bactericidal action on cultures of Staphylococcus aureus ATCC / A vetoriza??o de f?rmaco tem sido alvo de exaustivos trabalhos no intuito de desenvolver tratamentos s?tio-espec?ficos que minimizem efeitos adversos e torne mais efetiva a terapia antineopl?sica. Apesar do grande interesse nessa classe, f?rmacos como os antibi?ticos tamb?m apresentam limita??es, e t?m sido negligenciados. Utilizando novas tecnologias farmac?uticas, o emprego de vetores magn?ticos aparece como candidato promissor para sistemas de entrega de f?rmaco em in?meros estudos. As pequenas part?culas magn?ticas ligadas ao f?rmaco de interesse podem ser moduladas de acordo com a orienta??o de um ?m? externo ao corpo, localizado e retendo o ativo no local de interesse. Nesse trabalho n?s propomos a utiliza??o de Moagem de Alta Energia (MAE) para s?ntese do vetor magn?tico com caracter?sticas apropriadas para aplica??es biom?dicas por via de administra??o intravenosa, e para complexa??o do carreador ? Oxacilina para obten??o de um sistema para tratamento de infec??es por Staphylococcus aures. Os resultados da varia??o do tempo de moagem demonstraram que as propriedades estruturais e de tamanho do material formado se alteram com o aumento do tempo de moagem, e dentre os per?odos estudados, 60 horas foi escolhido como o mais pr?ximo das propriedades ideais do material. A complexa??o vetor-f?rmaco foi estudada em termos de estabilidade estrutural e de atividade antimicrobiana ap?s o processo de moagem, que revelaram a integridade da mol?cula de Oxacilina e de sua a??o bactericida sobre culturas de Staphylococcus aures ATCC
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Síntese e aplicação de hidróxidos duplos lamelares: adjuvantes funcionais para incremento de solubilidade e sistema de liberação de fármacosFONTES, Danilo Augusto Ferreira 18 March 2016 (has links)
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Previous issue date: 2016-03-18 / FACEPE / Os hidróxidos duplos lamelares (HDL), também conhecidos como compostos tipo hidrotalcita, são materiais capazes de incorporar espécies biologicamente ativas, negativamente carregadas, na sua região interlamelar, de modo a neutralizar as cargas po-sitivas das lamelas, através do mecanismo de troca iônica. Além deste mecanismo, os HDL possuem alta capacidade de adsorção de materiais não iônicos e carregados positivamente, através de interações eletrostáticas e ligações de hidrogênio na sua vasta área superficial. Os HDL possuem ocorrência natural e também podem ser sintetizados em laboratório por rotas simples e de baixo custo, que permitem o isolamento de sólidos de alta pureza. O presente trabalho tem por objetivo a síntese e caracterização de HDL (CaAl-HDL e MgAl-Cl-HDL), e sua aplicação junto aos fármacos antiretrovirais Efavirenz (EFZ) e Zidovudina (AZT), e do anti-chagásico Benznidazol (BNZ). Os materiais obtidos foram caracterizados pelas técnicas de difração de raios-X (DRX), termogravimetria (TG), calorimetria exploratória diferencial (DSC), análise térmica diferencial (DTA), espectroscopia no infravermelho (IV), microscopia eletrônica de varredura (MEV), microscopia de luz polarizada e análise elementar de metais e de carbono, hidrogênio e nitrogênio (CHN). Foi possível observar que em sistemas com HDL de cálcio e alumínio (CaAl-HDL), obtido pelo método de evaporação do solvente, contendo até 30% de EFZ e até 20% do BNZ, o fármaco tornou-se uma molécula com características amorfas, perdendo seu caráter cristalino. Este fenômeno pôde ser comprovado através da ausência de planos cristalinos do fármaco no DRX, e também do seu ponto de fusão no DSC. Nos testes de liberação, estes sistemas obtiveram destaque no incremento de solubilidade, sendo a proporção HDL-EFZ 30% a mais promissora, com aumento de 558% do EFZ solúvel em relação ao fármaco isolado; e o sistema HDL-BNZ 20%, proporcionando 702% de aumento na solubilidade do fármaco. Desta maneira comprovou-se que associação entre o CaAl-HDL e o BNZ e EFZ (fármacos de baixa solubilidade) confere incremento de solubilidade, promovendo uma maior taxa de dissolução nos estudos in vitro. A solubilidade aquosa de um fármaco constitui requisito prévio à absorção e obtenção de resposta clínica, para a maioria dos medicamentos administrados por via oral. No sistema contendo MgAl-Cl-HDL e AZT, obtido pelo método de síntese por co-precipitação a pH constante, foi possível notar que, o fármaco tornou-se amorfo através da interação com a superfície do HDL, como evidenciado através do DRX, TG, IV e MEV. No estudo de liberação, foi possível obter um perfil de liberação prolongada do AZT, de 90% de fármaco em 24 horas de estudo. Os sistemas CaAL-HDL:EFZ e MgAl-Cl-HDL:AZT tornaram-se menos tóxicos quando comparados a seus respectivos fármacos isolados, enquanto o sistema CaAL-HDL:BNZ, não alterou a toxicidade do BNZ, quando testados em linhagem de macrófagos humanos. / Layered double hydroxides (LDH), also known as hydrotalcite compounds, are materials able to incorporate biologically active species, negatively charged, into the interlayer region, to neutralize the positive charges of the lamellae through the ion exchange mechanism. Besides this mechanism, LDH have a high adsorption capacity for positively charged non-ionic materials, through electrostatic interactions and hydrogen bonds on its vast surface area. LDH are found in nature and can also be synthesized by simple and low-cost routes, that allow for the isolation of high purity solids. This paper presents the synthesis and characterization of the LDH (CaAl-LDH e MgAl-Cl-LDH), its applications with the antiretroviral drugs efavirenz and zidovudine, and the anti-chagas drug Benznidazol. The materials were characterized by the techniques of x-ray diffraction (XRD), thermogravimetry (TG), differential scanning calorimetry (DSC), differential thermal analysis (DTA), infrared spectroscopy (IR), scanning electron microscopy (SEM), polarized light microscopy, and elemental analysis of metals and carbon, hydrogen and nitrogen (CHN). It was observed that in systems with CaAl-HDL, obtained by the solvent evaporation method, containing up to 30% of EFZ and 20% of BNZ, the drug became a molecule with amorphous characteristics, losing its crystalline character. This phenomenon could be demonstrated by the absence of the drug crystal planes in the XRD analysis, and also by its melting point in the DSC analysis. In the release experiments, these systems stood out because they promoted an increase in solubility, with LDH-EFZ 30% being the most promising, with an increase in the EFV solubility of 558% compared to the drug itself; and the LDH-BNZ 20% system providing a 702% increase in solubility. Thus, the association between CaAl-LDH and BNZ and EFZ (low solubility drugs) was proven to increase the solubility of these drugs, promoting a higher dissolution rate in in vitro studies. The aqueous solubility of a drug is a prerequisite for obtaining absorption and clinical response for most drugs administered orally. In the system containing MgAl-Cl-LDH and AZT, obtained by the method of co-precipitation at constant pH, it was noticeable that, after the synthesis, the drug became amorphous due to the interaction with the surface of the LDH, as evidenced by the XRD, TG, SEM, and IR analyses. In the release study, it was possible to obtain a profile of the prolonged release of AZT, 90% of the drug in a 24-hour experiment. The cell viability experiment showed that the CaAl-LDH:EFZ and MgAl-Cl-HDL:AZT systems became less toxic than the isolated drugs and the CaAl-HDL:BNZ system did not alter the toxicity of the drug itself, when tested in human macrophage lineage.
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Biopharmaceutical investigations of doxorubicin formulations used in liver cancer treatment : Studies in healthy pigs and liver cancer patients, combined with pharmacokinetic and biopharmaceutical modellingDubbelboer, Ilse R January 2017 (has links)
There are currently two types of drug formulation in clinical use in the locoregional treatment of intermediate hepatocellular carcinoma (HCC). In the emulsion LIPDOX, the cytostatic agent doxorubicin (DOX) is dissolved in the aqueous phase, which is emulsified with the oily contrast agent Lipiodol® (LIP). In the microparticular system DEBDOX, DOX is loaded into the drug-eluting entity DC Bead™. The overall aim of the thesis was to improve pharmaceutical understanding of the LIPDOX and DEBDOX formulations, in order to facilitate the future development of novel drug delivery systems. In vivo release of DOX from the formulations and the disposition of DOX and its active metabolite doxorubicinol (DOXol) were assessed in an advanced multisampling-site acute healthy pig model and in patients with HCC. The release of DOX and disposition of DOX and DOXol where further analysed using physiologically based pharmacokinetic (PBPK) and biopharmaceutical (PBBP) modelling. The combination of in vivo investigations and in silico modelling could provide unique insight into the mechanisms behind drug release and disposition. The in vivo release of DOX from LIPDOX is not extended and controlled, as it is from DEBDOX. With both formulations, DOX is released as a burst during the early phase of administration. The in vivo release of DOX from LIPDOX was faster than from DEBDOX in both pigs and patients. The release from DEBDOX was slow and possibly incomplete. The in vivo release of DOX from LIPDOX and DEBDOX could be described by using the PBBP model in combination with in vitro release profiles. The disposition of DOX and DOXol was modelled using a semi-PBPK model containing intracellular binding sites. The contrast agent Lipiodol® did not affect the hepatobiliary disposition of DOX in the pig model. The control substance used in this study, cyclosporine A, inhibited the biliary excretion of DOX and DOXol but did not alter metabolism in healthy pigs. The disposition of DOX is similar in healthy pigs and humans, which was shown by the ease of translation of the semi-PBPK pig model to the human PBBP model.
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Monitoramento do pH e dos níveis de inserção óssea antes e após tratamento com sistemas bioadesivos poliméricos para a liberação modificada de metronidazol intrabolsa periodontal / Monitoring the pH and the attachment bone levels before and after treatment with bioadhesive polymeric systems with periodontal intrapocket modified release of metronidazolBastos, Mônica Danielle Ribeiro 13 January 2016 (has links)
O objetivo deste estudo foi avaliar clinicamente em humanos sistemas semissólidos (géis) e filmes contendo sal de metronidazol e conjugado de benzoato de metronidazol associados à raspagem e alisamento radicular (RAR), para o tratamento de periodontite. Foram avaliados o pH do fluido crevicular, os níveis clínicos de inserção óssea de suporte aos dentes envolvidos no tratamento periodontal, antes e após os tratamentos, além do perfil de liberação dos fármacos por meio de cromatografia líquida de alta eficiência (CLAE). Participaram do estudo 45 pacientes da Faculdade de Odontologia de Ribeirão Preto USP, de ambos os gêneros, os quais possuíam ao menos 2 dentes com periodontite crônica, compondo um total para o estudo de 96 dentes, divididos aleatoriamente em 3 grupos: grupo 1 raspagem e alisamento radicular (RAR) controle ativo; grupo 2 RAR + filme com metronidazol; grupo 3 RAR + gel de metronidazol. As concentrações de metronidazol e o tempo de liberação do fármaco no fluido crevicular gengival foram monitorados, avaliando-se ainda os efeitos dessas formulações com relação a parâmetros clínicos da periodontite. Os efeitos dos tratamentos foram avaliados pelo acompanhamento longitudinal de parâmetros clínicos (profundidade de sondagem, nível clínico de inserção e sangramento à sondagem). Os resultados da análise das concentrações de metronidazol e benzoato de metronidazol na bolsa periodontal dos pacientes foram considerados em avaliação paralela intragrupos e demonstraram que o filme e o gel foram detectados em concentração efetiva até 48 horas após a aplicação in situ, porém não foi observada diferença significante entre os grupos avaliados. Quanto aos valores de pH após o tratamento, eles variaram entre 6 e 8. No nível clínico de inserção houve diferença estatística significante entre os três grupos avaliados, sendo que o grupo que recebeu apenas tratamento periodontal convencional apresentou os melhores valores. Houve redução progressiva do sangramento à sondagem nos tempos T15 e T30 nos três grupos considerados. No que se refere aos parâmetros clínicos, ambas as terapias (gel e filme) foram eficazes em promover a redução na profundidade à sondagem, ganho no nível clínico de inserção e apresentaram melhora na saúde periodontal considerando-se o menor sangramento após a sondagem que o grupo controle (RAR somente). / The objective of this study was to clinically evaluate in humans semisolid (gels) and films systems containing metronidazole and metronidazole benzoate conjugate salts associated with scaling and root planing (SRP) for the treatment of chronic periodontitis. It was evaluated the pH of crevicular fluid and clinical bone attachment levels of the teeth involved in periodontal disease, before and after treatment, in addition to the release profile of drugs by high-performance liquid chromatography (HPLC). The study included 45 patients (both genders), from School of Dentistry of Ribeirão Preto, University of São Paulo, which had at least two teeth with chronic periodontitis, making a total for the study of 96 teeth which were randomly divided into 3 groups: Group 1 - scaling and root planing (SRP) - active control; Group 2 - RAR + film with metronidazole; Group 3 - SRP + gel with metronidazole. The metronidazole concentration and the drug release profile time in gingival crevicular fluid were monitored by evaluating the effects of such formulations, further with respect to clinical parameters of periodontitis. The effects of the treatments were evaluated for longitudinal monitoring of clinical parameters (probing depth, clinical attachment level and bleeding on probing). The results of the analysis of metronidazole and metronidazole benzoate concentrations in periodontal pockets of the patients were considered in a intragroup parallel evaluation and showed that the film and the gel were both detected in effective concentration till 48 hours after in situ application, but there was no difference significant between the groups. As for pH values after treatment, they ranged from 6 to 8. In clinical attachment level it was no statistically significant difference among the three groups, and the group that received only conventional periodontal treatment showed the best values. There was a progressive reduction in bleeding on probing in T15 and T30 times in all the three groups considered. With regard to clinical parameters, both therapies have been effective in promoting reduction in probing depth and gain in clinical attachment level as the control group, and both therapies showed improvement in periodontal health considering minor bleeding after probing that the (SRP alone) control group.
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SIMVASTATIN INCORPORATED PERIVASCULAR POLYMERIC CONTROLLED DRUG DELIVERY SYSTEM FOR THE INHIBITION OF VASCULAR WALL INTIMAL HYPERPLASIAKrishnan, Aadithya 13 September 2007 (has links)
No description available.
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Formulating an Essential Oil Extracted from Monodora myristica into a Tablet That Forms In-situ Nanostructured Dispersions.Agboluaje, Elizabeth Oladoyin January 2021 (has links)
No description available.
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Design of new bio-gated nanodevices for advanced communication processes and targeted controlled release of therapeutic agentsGiménez Morales, Cristina 22 April 2016 (has links)
[EN] The present PhD thesis, which is entitled "Design of new bio-gated nanodevices for advanced communication processes and targeted controlled release of therapeutic agents" is focused on the development of new functional hybrid organic-inorganic materials for applications in the field of the controlled delivery of target molecules.
The first chapter of the present thesis gives an introduction to the organic-inorganic hybrid materials functionalized with "molecular gates" and its application in controlled release processes.
The second chapter of this thesis is focused on the development of a new nanodevice able to deliver its cargo as a function of the glucose concentration. The nanodevice is based on mesoporous silica nanoparticles loaded with a suitable fluorophore and functionalized with propylbenzymidazole moieties on the pore outlets. The mesopores are then capped with an active cyclodextrin modified glucose oxidase enzyme (through the formation of an inclusion complex between the cyclodextrins and the propylbenzymidazole group anchored to the solid support). When glucose is added its enzymatic oxidation produced gluconic acid. This acid induced a decrease in the pH of the medium and the protonation of the benzymidazole group that might result in the inclusion complex dethreading and the subsequent cargo release.
The third chapter of the thesis is focused on the development of a new redox-responsive material for the controlled delivery of cytotoxic drugs in cancer cells.
The system is based on mesoporous silica nanoparticles loaded with a reporter (safranin O) and functionalized with two different sized polyethylene glycol chains in the pore outlets using a disulfide linkage. In presence of glutathione, the disulfide bonds are cleaved allowing the release of the entrapped cargo. Once confirmed the aperture protocol, the uptake of the gated nanoparticles and their ability to deliver the cargo (fluorophore or cytotoxic agent) in HeLa cells were tested. Moreover, cell viability assays were also performed.
The fourth chapter of the thesis is focused on the preparation and the study of a nanodevice for the controlled delivery in senescent cells in a murine model of pulmonary fibrosis. The material is prepared using mesoporous silica nanoparticles (as an inorganic support) and galactoligosaccharide (molecular gate) moieties anchored on the external surface. In presence of senescent cells, which overexpress ß-galactosidase enzyme, the hydrolysis of the galactooligosaccharide capping molecules take place and the cargo release from the inner of the pores is produced (rhodamine B). After the in vitro studies, the ability of nanoparticles to accumulate and release their payload in tissues with abundance of senescent cells was evaluated in vivo. For that purpose, mice with induced pulmonary fibrosis, pathogenesis with associated increased alveolar senescence, were treated with the synthesized material and subsequently examined to assess its ability to accumulate and release its payload (fluorophore) in lung's damaged areas.
In the fifth chapter of the thesis it has been explored the concept of cascade chemical communication using different types of nanodevices, each of them loaded with a certain messenger and externally functionalized with a gate-like entity that controls the release of the payload. When the enzyme able to hydrolyze the molecular gate that blocks the pores of the first type of nanoparticles (S1), is added to an aqueous suspension containing the three nanoparticles, the delivery of the chemical messenger 1 is produced. This messenger is able to open the second type of nanoparticles (S2) which delivers the messenger 2. Finally, the messenger 2 triggers the aperture of the third group of gated system (S3), which ultimately delivers its load (a dye) as a final response. / [ES] La presente tesis doctoral titulada "Diseño de nuevos nanodispositivos para procesos avanzados de comunicación y liberación controlada y dirigida de agentes terapéuticos" está centrada en el desarrollo de nuevos materiales híbridos orgánico-inorgánicos funcionales para aplicaciones en el campo de la liberación controlada de moléculas de interés.
El primer capítulo de la tesis ofrece una introducción a los materiales híbridos orgánico-inorgánicos funcionalizados con "puertas moleculares" y su aplicación en procesos de liberación controlada.
En el segundo capítulo de la tesis se aborda el desarrollo de un nanodispositivo capaz de responder y liberar su carga en función de la concentración de glucosa. Este nanodispositivo está basado en nanoparticulas de sílice mesoporosa funcionalizadas en su superficie externa con grupos benzimidazol y con los poros cargados con un fluoróforo. Los poros se cierran al añadir la enzima glucosa oxidasa funcionalizada con ciclodextrinas (por formación de un complejo de inclusión entre el benzimidazol y los oligosacáridos cíclicos). Al adicionar glucosa se produce su oxidación enzimática dando ácido glucónico. Este ácido induce una bajada del pH del medio con la consiguiente protonación de los benzimidazoles y la ruptura de los complejos de inclusión. Esta ruptura provoca la salida de la enzima de la superficie y la liberación del colorante atrapado en los poros.
El tercer capítulo de la tesis se ha centrado en el desarrollo de un material para la liberación controlada de agentes citotóxicos en células cancerosas en respuesta a cambios en el potencial redox. De nuevo se emplean nanopartículas de sílice mesoporosa con los poros cargados con un colorante (safranina O) y la superficie externa funcionalizada con dos polietilenglicoles conteniendo enlaces disulfuro. En presencia de glutatión se produce la reducción del enlace disulfuro con la consiguiente liberación del colorante. Una vez confirmado el protocolo de apertura, se estudió la internalización y la liberación de un fluoróforo y de un agente citotóxico en el modelo celular HeLa, realizando además ensayos de viabilidad.
En el cuarto capítulo de la tesis se ha preparado y ensayado un nanodispositivo para la liberación controlada en células senescentes en un modelo murino de fibrosis pulmonar. El material se prepara empleando nanopartículas de sílice mesoporosa y un galactooligosacárido anclado en la superficie externa. En presencia de células senescentes, que sobreexpresan la enzima ¿-galactosidasa, se produce la hidrólisis del oligosacárido con la consiguiente liberación de la carga atrapada en los poros del soporte (rodamina B). Tras los estudios in vitro, la capacidad del nanodispositivo de acumularse y liberar su carga en tejidos ricos en células senescentes se evaluó in vivo. Para ello, ratones con fibrosis pulmonar inducida, patología en la que se ha descrito la aparición de senescencia, se trataron con el material sintetizado y posteriormente fueron examinados para comprobar la capacidad de acumularse y liberar su carga (fluoróforo) en la zona pulmonar dañada.
En el quinto capítulo se ha explorado el proceso de comunicación química en cascada empleando tres tipos de nanopartículas mesoporosas de sílice cargadas con diferentes mensajeros y funcionalizadas con tres puertas moleculares distintas. Cuando sobre una suspensión de las tres nanopartículas se añade la enzima capaz de hidrolizar la puerta molecular que bloquea los poros del primer tipo de nanopartículas (S1), se produce la liberación del mensajero 1. Este mensajero es capaz de inducir la apertura del segundo tipo de nanopartículas (S2), que a su vez liberan al medio el mensajero 2. Por último, el mensajero 2 es capaz de abrir la puerta molecular del tercer tipo de nanopartículas (S3), que liberan finalmente su carga (un colorante) como respuesta final. / [CA] La present tesis doctoral titulada "Disseny de nous nanodispositius per a processos avançats de comunicació i lliberació controlada i dirigida d'agents terapèutics" està centrada en el desenvolupament de nous materials híbrids orgànic-inorgànic funcionals per a aplicacions en el camp de la lliberació controlada de molècules d'interès.
El primer capítol de la tesis ofereix una introducció als materials híbrids orgànic-inorgànic funcionalitzats amb "portes moleculars" i la seua aplicació en processos de lliberació controlada.
En el segon capítol de la tesis s'aborda el desenvolupament d'un nanodispositiu capaç de respondre i lliberar la seua càrrega en funció de la concentració de glucosa. Este nanodispositiu està basat en nanopartícules de sílice mesoporoses funcionalitzades a la seua superfície externa amb grups benzimidazol i amb els pors carregats amb un fluoròfor. Els pors queden bloquejats al afegir el enzim glucosa oxidasa funcionalitzada amb ciclodextrines (per formació d'un complex d'inclusió entre el benzimidazol i els oligosacàrids cíclics). Al afegir glucosa es produeix la seua oxidació enzimàtica donant lloc a àcid glucònic. Este àcid indueix una baixada del pH del medi amb la consegüent protonació dels benzimidazols i el trencament dels complexes d'inclusió. Este trencament provoca l'eixida del enzim de la superfície i la lliberació del colorant atrapat als pors.
El tercer capítol de la tesis s'ha centrat en la preparació d'un material per a la lliberació controlada d'agents citotòxics en cèl¿lules canceroses en resposta a canvis en el potencia redox. De nou s'empren nanopartícules de sílice mesoporoses amb els pors carregats amb un colorant (safranina O) i la superfície externa funcionalitzada amb dos polietilenglicols (de diferent pes molecular) contenint enllaços disulfur. En presència de glutatió es produeix la reducció del enllaç disulfur amb la consegüent lliberació del colorant. Una volta confirmat el protocol d'obertura, es va estudiar la internalització i la lliberació d'un fluoròfor i d'un agent citotòxic en el model cel¿lular HeLa, realitzant ademés assajos de viabilitat.
En el quart capítol de la tesis s'ha preparat i s'ha estudiat un nanodispositiu per a la lliberació controlada en cèl¿lules senescents, en un model murí de fibrosis pulmonar. El material es prepara emprant nanopartícules de sílice mesoporoses i un galactooligosacàrid anclat a la superfície externa del material. En presència de cèl¿lules senescents, que sobreexpresen el enzim ¿-galactosidasa, es produeix la hidròlisis del oligosacàrid amb el consegüent alliberament de la càrrega atrapada en els pors del suport (rodamina B). Després dels estudis in vitro, la capacitat del nanodispositiu d'acumular-se i lliberar la càrrega en teixits rics en cèl¿lules senecents es va evaluar in vivo. Amb este propòsit, ratolins amb fibrosis pulmonar induïda, patologia en la que s'ha descrit l'aparició de senescència en els teixits danyats, es van tractar amb el material sintetitzat i posteriorment van ser examinats per a comprovar la capacitat d'acumular-se i lliberar la seua càrrega (fluoròfor) en la zona dels pulmons afectada.
En el quint capítol s'ha explorat el procés de comunicació química en cascada utilitzant tres tipus de nanopartícules mesoporoses de sílice carregades amb diferents missatgers i funcionalitzades amb tres portes moleculars diferents. Quan, sobre una suspensió de les tres nanopartícules, s'afegeix l'enzim capaç d'hidrolitzar la porta molecular que bloqueja els pors del primer tipus de nanopartícules (S1), es produeix la lliberació del missatger 1 des de S1. Este missatger és capaç d'induir l'obertura del segon tipus de nanopartícules (S2), les quals lliberen al medi el missatger 2. Per últim, el missatger 2 és capaç d'obrir la porta molecular del tercer tipus de nanopartícules (S3), que lliberen finalment la seua càrr / Giménez Morales, C. (2016). Design of new bio-gated nanodevices for advanced communication processes and targeted controlled release of therapeutic agents [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/62822
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Nanotechnology and supramolecular chemistry in controlled release and molecular recognition proceses for biomedical applications"De la Torre Paredes, Cristina 08 January 2018 (has links)
Tesis por compendio / La presente tesis doctoral, titulada "Nanotecnología y química supramolecular en procesos de liberación controlada y reconocimiento molecular para aplicaciones biomédicas", se centra en dos temas importantes: el reconocimiento molecular y los procesos de liberación controlada.
Esta tesis doctoral está estructurada en cuatro capítulos.
El primer capítulo introduce el concepto de materiales híbridos orgánicos-inorgánicos funcionalizados con puertas moleculares y sus aplicaciones biomédicas como nanomateriales para dirigir y controlar la liberación controlada de fármacos. Además se introduce una breve descripción sobre sensors colorimétricos basados en la base de la quimica supramolecular, particularmente en los procesos de reconocimiento molecular.
En particular, el capítulo 2 describe la preparacion de cinco nanodispositivos que responden a enzimas. Estos materiales híbridos se componen de dos unidades principales: un soporte mesoporoso basado en sílice inorgánica, capaz de encapsular moléculas orgánicas y un compuesto orgánico anclado en la superficie externa del soporte mesoporoso inorgánico que actúa como puerta molecular. Todos los sistemas propuestos utilizan puertas moleculares peptídicas que responden a temperatura o enzimas como estímulo.
La segunda parte de esta tesis doctoral se centra en el diseño y desarrollo de un nuevo compuesto químico capaz de detectar monóxido de carbono in vivo.
En resumen, para todos los resultados antes mencionados podemos decir que esta tesis doctoral constituye una contribución científica original al desarrollo de la química supramolecular. Sus resultados derivados de los estudios presentados dejan rutas abiertas para continuar el estudio y el desarrollo de nuevos materiales híbridos y sensors químicos más eficientes para aplicaciones biomédicas y terapeuticas. / This PhD thesis entitled "Nanotechnology and supramolecular chemistry in controlled release and molecular recognition processes for biomedical applications", is focused on two important subjects: molecular recognition and controlled delivery processes.
This PhD thesis is structured in four chapters.
The first chapter introduces the concept of organic-inorganic hybrid materials containing switchable "gate-like" ensembles and their biomedical applications as nanomaterials for targeting and control drug delivery. Furthermore, is introduced a short review about chromo-fluorogenic chemosensors based on basic principles of supramolecular chemistry, particulary in molecular recognition processes.
In particular, in chapter 2 is focus on the development of enzymatic-driven nanodevices. These hybrid materials are composed of two main units: an inorganic silica based mesoporous scaffold, able to store organic molecules and an organic compound anchored on the external surface of the inorganic mesoporous support than acts as molecular gate. All the systems proposed use peptidic gates that respond to temperature or enzimatic stimulis.
The second part of this PhD thesis is focused on the design and development of a new chemical compound capable of detecting carbon monoxide in vivo. In summary, for all the results above mentioned we can say that this PhD thesis constitutes an original scientific contribution to the development of supramolecular chemistry. Its results derived from the studies presented leaves open routes to continue the study and development of new hybrid materials and more efficient chemical sensors with biomedical and therapeutic applications. / La present tesi doctoral, titulada "Nanotecnologia i química supramolecular en processos d'alliberament controlat i reconeixement molecular per a aplicacions biomèdiques", es centra en dos temes importants de la química: el reconeixement molecular i els processos d'alliberament controlat.
Aquesta tesi doctoral està estructurada en quatre capítols.
El primer capítol introdueix el concepte de materials híbrids orgànics-inorgànics funcionalitzats amb portes moleculars i les seves aplicacions biomèdiques com nanomaterials per dirigir i controlar l'alliberament controlat de fàrmacs. A més s'introdueix una breu descripció sobre sensors colorimètrics fonamentats en la base de la química supramolecular, particularment en els processos de reconeixement molecular.
En particular, el capítol 2 descriu la preparació de cinc nanodispositius que responen a enzims. Aquests materials híbrids es componen de dues unitats principals: un suport mesoporos basat en sílice inorgànica, capaç d'encapsular molècules orgàniques i un compost orgànic ancorat a la superfície externa del suport mesoporós inorgànic que actua com a porta molecular. La segona part d'aquesta tesi doctoral es centra en el disseny i desenvolupaent d'un nou compost químic capaç de detectar monòxid de carboni in vivo.
En resum, per a tots els resultats abans mencionats podem dir que esta tesi doctoral constituïx una contribució científica original al desenvolupament de la química supramolecular. Els seus resultats derivats dels estudis presentats deixen rutes obertes per a continuar l'estudi i el desenvolupament de nous materials hibrids i sensors químics més eficients per a aplicacions biomèdiques i terapeutiques. / De La Torre Paredes, C. (2017). Nanotechnology and supramolecular chemistry in controlled release and molecular recognition proceses for biomedical applications" [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/94043 / Compendio
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Développement de résistances bactériennes suite à l'administration d'enrofloxacine par voie orale, intramusculaire et locale chez un modèle porcinBéraud, Romain January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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