Paclitaxel e metotrexato associados a uma nanoemulsão lipídica no tratamento da aterosclerose em coelhos / Paclitaxel and methotrexate associated with a lipidic nanoemulsion in the treatment of atherosclerosis in rabbits

Tatiana Solano Vitório

09 November 2009

Em estudos anteriores, mostramos que uma nanoemulsão artificial (NEm) de composição semelhante à da lipoproteína de baixa densidade se liga a receptores de lipoproteínas de baixa densidade após sua injeção na corrente sanguínea. Como tais receptores estão superexpressos em células com altas taxas de proliferação, como ocorre no cancer e na aterosclerose, a NEm pode ser utilizada como veículo para direcionar drogas a estas células, diminuindo sua toxicidade e aumentando sua ação farmacológica. Recentemente, reportamos que a associação de um derivado do agente antiproliferativo paclitaxel, o oleato de paclitaxel (OPTX) à NEm reduziu em 60% a área lesionada de aortas de coelhos submetidos à dieta rica em colesterol. Neste estudo, testamos o efeito sinérgico da terapia combinada do OPTX-NEm com um derivado do metotrexato, o di-dodecil metotrexato (DMTX), também associado à NEm. O MTX, além de sua ação antiproliferativa, também possui propriedades imunossupressoras. Coelhos machos da raça Nova Zelândia foram submetidos à dieta enriquecida com 1% de colesterol durante 8 semanas. A partir da quinta semana de consumo da dieta, 8 animais foram injetados semanalmente com solução salina por via endovenosa (grupo controle) e 8 receberam o tratamento combinado de OPTX-NEm (4mg/Kg) com DMTX-NEm (4mg/Kg), por 4 semanas. Ao final das 8 semanas, os animais foram sacrificados. As aortas dos animais foram retiradas, abertas longitudinalmente, fixadas em formalina tamponada a 10% e coradas com Escarlate R para a análise macroscópica da lesão. Os arcos aórticos foram seccionados em fragmentos de 5mm, embebidos em parafina e os cortes realizados foram corados com hematoxilina-eosina, para a determinação da área das camadas íntima e média. O tratamento combinado de OPTX-NEm com DMTX-NEm reduziu a área das lesões em 82%, em comparação ao grupo controle, e a razão da área da lesão/área total diminuiu de 0,82±0,08 para 0,08±0,06 (p<0,01). Por meio das avaliações da variação do consumo de ração, peso corporal e contagem de leucócitos totais (p>0,05), pode-se afirmar que os tratamentos não apresentaram toxicidade significativa, exceto pela queda na contagem de eritrócitos (p<0,05). Como conclusão, a quimioterapia combinada de OPTX e DMTX associados à NEm como veículo mostrou-se eficaz na redução da área de lesão aterosclerótica em coelhos e a toxicidade relacionada aos fármacos foi nitidamente reduzida. / In previous studies we have shown that an artificial nanoemulsion (NEm) that resemble LDL composition are taken-up by LDL receptors after injection into the bloodstream. As those receptors are upregulated in cells with higher proliferation rates, as occurs in cancer and atherosclerosis, NEm can be used as vehicle to direct drugs against those cells, diminishing toxicity and increasing pharmacological action. Recently, we reported that association of antiproliferative agent paclitaxel derivative, paclitaxel oleate (OPTX) to NEm reduced by 60% the lesion area of cholesterol-fed rabbits. In this study, the combined chemotherapy of OPTX-NEm with a methotrexate derivative, di-dodecil methotrexate (DMTX), also associated with NEm, was tested for synergistic effects. MTX, besides antiproliferative action, has also immunosuppressant properties. Male New Zealand rabbits were fed a 1% cholesterol diet for 60 days. Starting from day 30, 8 animals were treated with 4 weekly I.V. saline solution injections (control group) and 8 with combined OPTX-NEm (4 mg/kg) plus DMTX-NEm (4 mg/kg) for additional 30 days. On day 60, the animals were sacrificed for analysis. Aorta was excised, open longitudinally, placed in 10% buffered formalin and stained in Scarlet R for lesion macroscopic analysis. Segments of 5mm of the aortic arch were embedded in paraffin and sections were taken and stained in hematoxylin-eosin for intima and media area measurement. In comparison with controls, treatment with combined OPTX-NEm plus DMTX-NEm reduced the lesion area by 82% and the lesion/total area ratio was decreased from 0,82±0,08 to 0,08±0,06 (p<0.01). Except for decrease in erythrocyte count (p<0.05), treatments were devoid of significant toxicity, as evaluated by food intake, body weight and leucocyte count (p>0.05). In conclusion, this novel approach consisting in combined chemotherapy of OPTX and DMTX using NEm as a drug-targeting vehicle showed effective lesion area regression in rabbits and marked toxicity reduction.

Aterosclerose

Bioquímica clínica

Direcionamento farmacológico

Fármacos imunossupressores

Metotrexato

Nanoemulsão

Paclitaxel

Artheriosclerosis

Atherosclerosis

Clinical Biochemistry

Drug-targeting

Immunosuppressive drugs

Methotrexate

Nanoemulsion

Paclitaxel

COMPUTATIONAL APPROACHES TO PROTONATION AND DEPROTONATION REACTIONS FOR BIOLOGICAL MACROMOLECULES AND SUPRAMOLECULAR COMPLEXES

mohammed, ahmed

10 1900

<p>Understanding and predicting chemical phenomena is the main goal of computational chemistry. In this thesis I present my work on applying computational approaches to study chemical processes in biological and supramolecular systems.</p> <p>pH-responsive molecular tweezers have been proposed as an approach for targeting drug-delivery to tumors, which tend to have a lower pH than normal cells. In chapter 2 I present a computational study I performed on a pH-responsive molecular tweezer using <em>ab initio</em> quantum chemistry in the gas phase and molecular dynamics simulations in solution. The binding free energy in solution was calculated using Steered Molecular Dynamics. We observe, in atomistic detail, the pH-induced conformational switch of the tweezer and the resulting release of the drug molecule. Even when the tweezer opens, the drug molecule remains near a hydrophobic arm of the molecular tweezer. Drug release cannot occur, it seems, unless the tweezer is a hydrophobic environment with low pH.</p> <p>The protonation state of amino acid residues in proteins depends on their respective pK_a values. Computational methods are particularly important for estimating the pK_a values of buried and active site residues, where experimental data is scarce. In chapter 3 I used the cluster model approach to predict the pK_a of some challenging protein residues and for which methods based on the numerical solution of the Poisson-Boltzmann equation and empirical approaches fail. The ionizable residue and its close environment were treated quantum mechanically, while the rest of the protein was replaced by a uniform dielectric continuum. The approach was found to overestimate the electrostatic interaction leading to predicting lower pK_a values.</p> / Master of Science (MSc)

Molecular tweezers

drug targeting

drug release

molecular switching

pH responsive molecules

density functional theory

steered molecular dynamics

cluster model

protein pKa prediction

buried residues

Physical Chemistry

Physical Chemistry

Synthèse et formulation des nanoparticules polymère ciblant l'E-sélectine : évaluation in vitro dans un modèle d'endothélium activé / Synthesis and formulation of polymeric nanoparticles targeting E-selectin : in vitro evaluation in a model of activated endothelium

Jubeli, Emile

17 May 2011

Ce travail de thèse avait pour objectif d’élaborer un système vecteur ciblantl’endothélium pathologiquement activé dans les tissus enflammés, infectés ou tumoraux.Ce vecteur est sous forme de nanoparticules décorées de ligands glycosides capablesd’interagir avec l’E-sélectine, un récepteur exprimé sur les cellules endothélialesactivées.Nous avons mis au point une synthèse de copolymère amphiphile avec une architectureà bloc muni sur sa partie hydrophile d’un ligand glucidique. Ce copolymère a été par lasuite utilisé pour la préparation de nanoparticules de type coeur/couronne. La partiehydrophobe centrale est entourée d’une couronne hydrophile dont l'encombrementstérique et la mobilité limitent l'opsonisation de la particule. Le ciblage actif a été assurépar la présence d’un ligand du récepteur de l’E-sélectine aux extrémités des chaînes depolymères hydrophiles à la surface du vecteur.Avec ces nanoparticules dont les propriétés de surface sont prédéfinies, nous avonsmontré in vitro l’association efficace avec les cellules endothéliales activées, ce qui apermis de valider ce concept de ciblage moléculaire actif par l’intermédiaire du couplerécepteur/ ligand. Un tel système permettra d’améliorer l’indice thérapeutique et labiodistribution des principes actifs anti-inflammatoire et/ou anticancéreux. / The objective of this work was to develop a delivery system targeting pathologically activated endothelium within inflamed, infectious, and some tumoral tissues. This system is composed of nanoparticles bearing sugar residues that are able to recognize and interact with E-selectin, a receptor expressed on the activated endothelial cells.We synthesized an amphiphilic block copolymer with the hydrophilic part terminated by a carbohydrate ligand. The construction was achieved by a combination of click chemisty, ring-opening polymerization and atom transfer radical polymerization. This copolymer was used to prepare nanoparticles of the core/shell type where the central hydrophobic body is surrounded with the hydrophilic shell that can stabilize the particles in aqueous media and limit their opsonisation. Active targeting was achieved by coupling an analogue of sialyl Lewis X, the physiological ligand of E-selectin to the end of the hydrophilic polymer chains on the surface of the particles.We were able to demonstrate in vitro the efficient association of these nanoparticles with defined surface properties with activated endothelial cells. This allowed us to validate our concept of active molecular targeting using this couple receptor/ligand couple. Such a system could be used to improve the therapeutically index and the biodistribution of anti-inflammatory and anti-tumor drugs.

E-sélectine

Endothélium activé

ROP/ATRP

Polymère amphiphile

Ligand glucidique

HUVECs

Ciblage des médicaments

Méthotrexate

Click chemistry

Nanoparticles

E-selectin

Activated endothelium

ROP/ATRP

HUVECs

Amphiphilic polymers

Drug targeting

Methotrexate and Molecular imaging

Desenvolvimento de sistema magn?tico polim?rico contendo antimicrobianos para tratamento de infec??es por Helicobacter pylori

Pontes, Thales Renan Ferreira

24 February 2014

Made available in DSpace on 2015-02-24T17:42:52Z (GMT). No. of bitstreams: 1 ThalesRFP_DISSERT.pdf: 5363462 bytes, checksum: 16f2d3a123870a2d8c63de00ac4bf689 (MD5) Previous issue date: 2014-02-24 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Helicobacter pylori is the main cause of gastritis, gastroduodenal ulcer disease and gastric cancer. The most recommended treatment for eradication of this bacteria often leads to side effects and patient poor compliance, which induce treatment failure. Magnetic drug targeting is a very efficient method that overcomes these drawbacks through association of the drug with a magnetic compound. Such approach may allow such systems to be placed slowed down to a specific target area by an external magnetic field. This work reports a study of the synthesis and characterization of polymeric magnetic particles loaded with the currently used antimicrobial agents for the treatment of Helicobacter pylori infections, aiming the production of magnetic drug delivery system by oral route. Optical microscopy, scanning electron microscopy, transmission electron microscopy, x-ray powder diffraction, nitrogen adsorption/desorption isotherms and vibrating sample magnetometry revealed that the magnetite particles, produced by the co-precipitation method, consisted of a large number of aggregated nanometer-size crystallites (about 6 nm), creating superparamagnetic micrometer with high magnetic susceptibility particles with an average diameter of 6.8 ? 0.2 &#956;m. Also, the polymeric magnetic particles produced by spray drying had a core-shell structure based on magnetite microparticles, amoxicillin and clarithromycin and coated with Eudragit? S100. The system presented an average diameter of 14.2 ? 0.2 &#956;m. The amount of magnetite present in the system may be tailored by suitably controlling the suspension used to feed the spray dryer. In the present work it was 2.9% (w/w). The magnetic system produced may prove to be very promising for eradication of Helicobacter pylori infections / A Helicobacter pylori ? a principal causa de gastrites, ?lceras gastroduodenais e c?ncer g?strico. O esquema terap?utico de primeira escolha para a erradica??o desse pat?geno leva muitas vezes a elevado n?mero de rea??es adversas, baixa ades?o do paciente e consequentemente falha na terap?utica. A vetoriza??o magn?tica ? uma t?cnica bastante difundida na literatura que visa minimizar esses problemas, atrav?s da associa??o de f?rmacos a n?cleos magn?ticos direcionando para o local de a??o por interm?dio de campo magn?tico externo. O presente trabalho relata o estudo da s?ntese e caracteriza??o de part?culas polim?ricas magn?ticas contendo os mais frequentes antimicrobianos (amoxicilina e claritromicina) usados no tratamento de infec??es por Helicobacter pylori, objetivando a produ??o de um sistema para vetoriza??o magn?tica por via oral. Granulometria baseada no di?metro de Feret, microscopia eletr?nica de varredura e transmiss?o, difratometria de raio-x, isotermas de adsor??o/dessor??o de nitrog?nio e magnetometria de amostra vibrante revelaram que as part?culas de magnetita, produzidas pelo m?todo da coprecipita??o, consistem em grande n?mero de agregados de cristalitos de tamanhos nanom?tricos (da ordem de 6 nm) os quais formam part?culas microm?tricas superparamagn?ticas de alta susceptibilidade magn?tica, tendo formato irregular com di?metro m?dio de 6,8 ? 0,2 &#956;m. Os n?cleos magn?ticos foram revestidos por pol?mero (Eudragit? S100) em conjunto com amoxicilina e claritromicina (forma polim?rfica II) sendo obtido micropart?culas n?cleo-camada de formato irregular, pela t?cnica de secagem por aspers?o (spray dryer), com um di?metro m?dio de 14,2 ? 0,2 &#956;m. A quantidade de magnetita presente no sistema pode ser adaptada pelo controle da suspens?o inicial usada na alimenta??o do spray dryer. No presente trabalho o conte?do magn?tico final foi estimado em 2,9 % (p/p). Com base nos resultados obtidos, o sistema magn?tico produzido pode se tornar bastante promissor na erradica??o de infec??es por Helicobacter pylori

CNPQ::CIENCIAS DA SAUDE::FARMACIA

Targeting acute phosphatase PTEN inhibition and investigation of a novel combination treatment with Schwann cell transplantation to promote spinal cord injury repair in rats

Walker, Chandler L.

02 April 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Human traumatic spinal cord injuries (SCI) are primarily incomplete contusion or compression injuries at the cervical spinal level, causing immediate local tissue damage and a range of potential functional deficits. Secondary damage exacerbates initial mechanical trauma and contributes to function loss through delayed cell death mechanisms such as apoptosis and autophagy. As such, understanding the dynamics of cervical SCI and related intracellular signaling and death mechanisms is essential. Through behavior, Western blot, and histological analyses, alterations in phosphatase and tensin homolog (PTEN)/phosphatidylinositol-3-kinase (PI3K) signaling and the neuroprotective, functional, and mechanistic effects of administering the protein tyrosine phosphatase (PTP) inhibitor, potassium bisperoxo (picolinato) vanadium ([bpV[pic]) were analyzed following cervical spinal cord injury in rats. Furthermore, these studies investigated the combination of subacute Schwann cell transplantation with acute bpV(pic) treatment to identify any potential additive or synergistic benefits. Although spinal SC transplantation is well-studied, its use in combination with other therapies is necessary to complement its known protective and growth promoting characteristics. v The results showed 400 μg/kg/day bpV(pic) promoted significant tissue sparing, lesion reduction, and recovery of forelimb function post-SCI. To further clarify the mechanism of action of bpV(pic) on spinal neurons, we treated injured spinal neurons in vitro with 100 nM bpV(pic) and confirmed its neurprotection and action through inhibition of PTEN and promotion of PI3K/Akt/mammalian target of rapamycin (mTOR) signaling. Following bpV(pic) treatment and green fluorescent protein (GFP)-SC transplantation, similar results in neuroprotective benefits were observed. GFP-SCs alone exhibited less robust effects in this regard, but promoted significant ingrowth of axons, as well as vasculature, over 10 weeks post-transplantation. All treatments showed similar effects in forelimb function recovery, although the bpV and combination treatments were the only to show statistical significance over non-treated injury. In the following chapters, the research presented contributes further understanding of cellular responses following cervical hemi-contusion SCI, and the beneficial effects of bpV(pic) and SC transplantation therapies alone and in combination. In conclusion, this work provides a thorough overview of pathology and cell- and signal-specific mechanisms of survival and repair in a clinically relevant rodent SCI model.

Spinal cord -- Regeneration

Tissue engineering

Apoptosis

Autophagic vacuoles

Cell death

Cellular signal transduction

Cell transplantation

Neuroprotective agents

Central nervous system -- Regeneration

Drug targeting

Proteins -- Synthesis

Protein-tyrosine phosphatase

Rats as laboratory animals

Μελέτη των παραμέτρων της σύνθεσης υβριδικών κολλοειδών νανοκρυστάλλων με υπερπαραμαγνητικές ιδιότητες για την ανάπτυξη πολυλειτουργικών συστημάτων ελεγχόμενης χορήγησης αντικαρκινικών ουσιών

Σεργίδης, Ανδρέας

28 May 2015

Η Πακλιταξέλη (PTX) αποτελεί ένα ευρέως διαδεδομένο αντινεοπλασματικό φάρμακο και ενδείκνυται σε μεταστατικό καρκίνο του μαστού, καρκίνο ωοθηκών, μη μικροκυτταρικό καρκίνο του πνεύμονα και σε σάρκωμα Kaposi ασθενών με AIDS. Παρ’ όλα αυτά, η σημαντική τοξικότητα που εμφανίζει (μυελοκαταστολή, νευροτοξικότητα, αντιδράσεις υπερευαισθησίας), υπογραμμίζει την αναγκαιότητα για μορφοποίησή της σε Συστήματα Ελεγχόμενης Χορήγησης Φαρμάκων (DDS), με σκοπό τη μείωση των ανεπιθύμητων ενεργειών και την αύξηση της βιοδιαθεσιμότητας του φαρμάκου. Τα πολυμερικά μικκύλια έχουν μελετεθεί εκτενώς τα τελευταία χρόνια ως Συστήματα Ελεγχόμενης Χορήγησης Φαρμάκων. Η ενσωμάτωση υπερπαραμαγνητικών νανοκρυσταλλιτών οξειδίου του σιδήρου (SPIONs) στον πυρήνα των PTX-μικκυλίων, παρέχει τη δυνατότητα μαγνητικής στόχευσης του φαρμάκου στην επιθυμητή περιοχή δράσης, καθώς και τη θεραπεία του καρκίνου μέσω επαγωγής μαγνητικής υπερθερμίας, με την εφαρμογή εναλλασσόμενου μαγνητικού πεδίου. Επιπλεόν, η χρήση των SPIONs ως σκιαγραφικά μέσα (Τ2-contrast enhancement) στη μαγνητική τομογραφία πυρηνικού συντονισμού (MRI), εξασφαλίζει το πλεονέκτημα ταυτόχρονης διάγνωσης και θεραπείας (Theranostics), αποκαλύπτοντας την πολυλειτουργικότητα των συστημάτων αυτών. Οι συγκεκριμένοι νανοφορείς, έχοντας μικρό μέγεθος (100-200nm), θεωρούνται κατάλληλοι για να αποφύγουν την οψωνινοποίηση απο τις λιποπρωτεϊνες του αίματος, την επίθεση απο τα φαγοκύτταρα του Δικτυοενδοθηλιακού συστήματος (RES) καθώς και την ταχεία νεφρική κάθαρση, με αποτέλεσμα την παρατεταμένη κυκλοφορία τους στο αίμα (stealth systems) και την εκλεκτική πρόσληψη τους απο τους συμπαγείς καρκινικούς όγκους, μέσω του φαινομένου της ενισχυμένης διαπερατότητας και κατακράτησης (EPR effect). Οι ιδιότητες αυτές, καθιστούν τα συγκεκριμένα συστήματα πολύτιμα εργαλεία στον τομέα της νανοϊατρικής. Η παρούσα μεταπτυχιακή διατριβή πραγματεύεται τη σύνθεση υδρόφοβων SPIONs μέσω της τεχνικής της θερμικής αποικοδόμησης. Μελετήθηκαν οι συνθετικές παράμετροι (πρόδρομη ένωση, ποσότητα ελαϊκού οξέος, θερμοκρασία και διάρκεια αντίδρασης, ρυθμός αύξησης της θερμοκρασίας κ.α) που επηρεάζουν το μέγεθος, το σχήμα και τη διασπορά του μεγέθους των σχηματιζομένων νανοκρυσταλλιτών (5-13nm, σ: 10-20%), καθώς διαδραματίζουν σημαντικό ρόλο στη μαγνητική συμπεριφορά των υβριδικών νανονοφορέων. Στη συνέχεια, πραγματοποιήθηκε σύνθεση υβριδικών νανοφορέων με εγκλωβισμό των SPIONs σε πολυμερικά μικκύλια. Η παρασκευή των υπερπαραμαγνητικών μικκυλίων επιτελέστηκε με την τεχνικη solvent diffusion and evaporation (nanoprecipitation), με χρήση του αμφίφιλου συμπολυμερούς πολυ(γαλακτικό οξύ)-πολυ(αιθυλενογλυκόλη) (PLA-PEG). Στον υδρόφοβο πυρήνα των μικκυλίων (PLA) δεσμεύονται υδρόφοβες ενώσεις (PTX, SPIONs), ενώ το υδρόφιλο κέλυφος (PEG) προσδίδει κολλοειδή σταθερότητα σε υδατικά μέσα (δομή πυρήνα-κελύφους). Διερευνήθηκαν διάφορες συνθετικές παράμετροι (μοριακό βάρος συμπολυμερούς, ποσότητα SPIONs, ρυθμός προσθήκης οργανικής φάσης κ.α) και προσδιορίστηκαν οι βέλτιστες συνθήκες για την παρασκευή υπερπαραμαγνητικών μικκυλίων μεγέθους <200nm, με αξιοσημείωτη κολλοειδή σταθερότητα (μέχρι και έξι μήνες), σε συνθήκες παρόμοιες με αυτές του ανθρώπινου πλάσματος (pH: 7.4, ιοντική ισχύς: 0.15Μ). Στο επόμενο στάδιο της παρούσας εργασίας, μελετήθηκαν οι παράγοντες που επηρεάζουν τη φόρτωση-ενκαψυλίωση της PTX και των SPIONs στα πολυμερικά μικκύλια (ποσότητα PTX, ποσότητα και μέγεθος SPIONs, μοριακό βάρος PLA-PEG, ρυθμός προσθήκης οργανικής φάσης κ.α), σε φυσιολογικές συνθήκες (pH:7.4, ιοντική ισχύς: 0.15Μ). Αναπτύχθηκε πρωτόκολλο μέσω του οποίου έγινε κατορθωτός ο διαχωρισμός των μαγνητικών νανοφορέων απο τους μη μαγνητικούς, καθώς και ο υπολογισμός της φόρτωσης-ενκαψυλίωσης PTX και SPIONs ξεχωριστά, τόσο στους μαγνητικούς και μη μαγνητικούς νανοφορείς, όσο και στο μέιγμα αυτών. Οι συγκεκριμένοι νανοφορείς χαρακτηρίζονται απο εξαιρετικά υψηλή απόδοση ενκαψυλίωσης φαρμάκου (93 %wt.) και φόρτωση φαρμάκου που ανέρχεται στο 4.8 %wt. Oι αμιγώς μαγνητικοί νανοφορείς επιδεικνύουν υψηλή απόδοση ενκαψυλίωσης νανοκρυσταλλιτών (70 %wt.), ενώ η φόρτωση σε φάρμακο και SPIONs ανέρχεται σε 5.2 και 20 %wt. αντίστοιχα. Σε αμφότερες τις περιπτώσεις οι νανοφορείς, μεγέθους (υδροδυναμική διάμετρος) 170nm, χαρακτηρίζονται απο ικανοποιητική μαγνητική συμπεριφορά. Εξετάστηκε η επίδραση του μεγέθους των νανοκρυσταλλιτών στη μαγνητική συμπεριφορά των νανοφορέων. Οι αμιγώς μαγνητικοί νανοφορείς με μεγαλύτερο μέγεθος SPIONs παρουσιάζουν καλύτερη μαγνητική συμπεριφορά. Τέλος, πραγματοποιήθηκαν μελέτες αποδέσμευσης του φαρμάκου σε PBS (0.14Μ, pH:7.4) στους 37oC και διερευνήθηκε η επίδραση της εφαρμογής εναλλασσόμενου μαγνητικού πεδίου στην αποδέσμευση της PTX απο τους μαγνητικούς νανοφορείς (Triggered Drug Release). Σε κάθε περίπτωση, παρατηρήθηκε ελεγχόμενη αποδέσμευση του φαρμάκου για 24 ώρες, σε συνθήκες που προσομοιάζουν με αυτές του πλάσματος. Ο φυσικοχημικός χαρακτηρισμός των νανοφορέων πραγματοποιήθηκε με HPLC, DLS, TGA, TEM και μαγνητοφόρηση. / Paclitaxel (PTX) is one of the most successful anticancer drugs against a broad range of solid tumors, such as metastatic breast cancer, ovarian cancer, non-small-cell lung cancer and AIDS-related Kaposi sarcoma. However, the serious systematic side effects of PTX (myelosuppression, neurotoxicity, hypersensitivity) underline the need for formulation of PTX in Drug Delivery Systems (DDS), in order to reduce the side effects and increase the bioavailability of the drug. Among DDS, polymeric micelles have drawn much attention due to their great flexibility in tuning drug solubility, micelle size, targeted drug delivery and stability. Incorporation of Superparamagnetic Iron Oxide Nanocrystals (SPIONs) inside the core of drug-loaded polymeric micelles, imparts to the final Drug Delivery System the prospect of physical (magnetic) targeting, intrinsic therapeutic function (hyperthermia-based cancer therapy under alternating external magnetic field), T2-based contrast enhancement in magnetic resonance imaging (MRI) and remotely triggered drug release. These core-shell polymeric micelles having small size (100-200nm), are considered appropriate for avoiding both opsonization, macrophages attack by ReticuloEndothelial System (RES) and rapid renal clearance, thus allowing micelles to be taken up preferably by solid tumors through Enhanced Permeability and Retention (EPR) effect. Therefore, such nanoassemblies encode high potential in nanomedicine, due to their dual nature (Therapeutic+Diagnostic = Theranostics). In particular, we have studied the synthesis of organophilic SPIONs through thermal decomposition. The synthetic parameters (precursor, precursor:oleic acid ratio, reaction temperature and duration, heat rate, etc.) affecting the size, shape and size distribution of the nanocrystals have also been examined thoroughly, since they play a key-role concerning the magnetic behavior of the final hybrid. Nanosized SPIONs with narrow size distribution were synthesized (5-13nm, σ: 10-20%). The preparation of poly(lactic acid)-block-poly(ethyleneglycol) (PLA-PEG) micelles encapsulating hydrophobic SPIONs, by varying the molecular weight of the polymers, the amount of SPIONs and the addition rate during micelle assembly, has also been investigated. The core-shell superparamagnetic micelles were prepared through solvent diffusion and evaporation technique (nanoprecipitation). PTX and SPIONs are being incorporated into the micelle’s hydrophobic core (PLA) through hydrophobic interactions, whereas the hydrophilic shell (PEG) stabilizes the micelles in aqueous dispersions, optimizing their colloidal stability and providing prolonged circulating time. The optimum parameters were determined, conferring to the micelles (Hydrodynamic Diameter < 200nm) high colloidal stability (up to six months) at biorelevant conditions (pH:7.4, ionic strenght: 0.15M). The next phase of the present master thesis focused on studying the factors (amount of PTX and SPIONs, molecular weight of PLA-PEG, addition rate, etc.) affecting the Loading of PTX and SPIONs into the polymeric micelles and how they can be fine-tuned towards high drug loading, while retaining their size at a scale where long circulation would not be precluded. Through protocol establishment, we have managed to separate the magnetic and non magnetic micelles, and to determine individually the loading of PTX and SPIONs for magnetic, non magnetic micelles, as well as for the mixture of them. The micelles’ mixture exhibits very high Drug Encapsulation Efficiency (93 %wt.) and 4.8 %wt. Drug Loading (D.L). Magnetic nanocarriers display high Magnetic Encapsulation Efficiency (70 %wt.), with D.L and Magnetic Loading of 5.2 and 20 %wt. respectively, In both cases, micelles demonstrate adequate magnetic behavior and small sizes (hydrodynamic diameter: 170nm), under conditions which simulate with human plasma (pH:7.4, ionic strenght: 0.15M). The effect of SPIONs’ size on the magnetic behavior of hybrid colloids, was also examined. Magnetic nanocarriers encapsulating SPIONs of greater size exhibit better magnetic behavior. Finally, we have conducted Drug release studies in PBS (0.14M, pH:7.4) at 37oC. The effect of SPIONs presence on the release profile of PTX, including triggered drug-release by application of AC magnetic field, has also been investigated. PTX-magnetic micelles exhibit Controlled Drug release for 24 hours. Several techniques have been used for the characterization of such nanoassemblies, like: HPLC, DLS, TGA, TEM, XRD, Magnetophoresis and Triggered Drug release by application of AC magnetic field.

Πακλιταξέλη

Φόρτωση φαρμάκου (D.L)

Μαγνητική φόρτωση (M.L)

Πολυμερικά μικκύλια

Μαγνητοφόρηση

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Drug delivery systems (DDS)

Paclitaxel

PLA-PEG

Magnetic resonance imaging (MRI)

Magnetic fluid hyperthermia

Alternating magnetic field

Magnetic drug targeting

Drug loading (D.L)

Drug encapsulation efficiency (D.E.E)

Magnetic loading (M.L)

Micelles formation efficiency (M.F.E)

Hydrodynamic diameter (Dh)

Polymeric micelles

Magnetophoresis

Triggered drug release