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Design and synthesis of ultra-bright organic nanoparticles (ONPs) for bioimaging / Elaboration et caractérisation de nanoparticules ultra-brillantes, fonctionnalisées et biocompatibles, pour applications en biologie et en médecinePagano, Paolo 06 July 2017 (has links)
L’utilisation de nano-objets luminescents en milieu biologique est devenue très répandue, notamment en vue d’applications biomédical est elles que l’imagerie, la thérapie et le diagnostic. Jusqu’à récemment, les principaux travaux réalisés dans ce domaine concernaient les nanoparticules de silice dopées ou fonctionnalisées avec des molécules organiques, les nanoparticules d’or et les nanoparticules semi-conductrices (quantum dots, i.e., QDs). Toutefois, un certain nombre de limitations demeurent pour les applications dans le domaine du vivant, en lien notamment avec des problèmes de stabilité, de biocompatibilité et de toxicité ou encore de biodégradabilité. En parallèle,un certain nombre de molécules organiques fluorescentes non-toxiques ont été utilisées comme sondes fluorescentes en milieu biologique, mais leur brillance demeure limitée. L’idée directrice de la thèse est de concevoir et synthétiser de nouveaux chromophores organiques présentant une émission modulable (du visible au proche infrarouge) et adaptés à la préparation de nanoparticules organiques fluorescentes (FONs) combinant à la fois une brillance extrêmement élevée, une excellente stabilité colloïdale et une photostabilité adaptée à leur utilisation en imagerie in vitro et in vivo. De tels nanoobjets ultra-brillants pourraient alors représenter une alternative très intéressante aux nanoparticules actuellement les plus utilisées en imagerie de fluorescence du vivant (QDs). Le manuscrit décrit la synthèse et les propriétés de plusieurs classes de molécules fluorescentes spécifiquement conçues pour former des telles FONS par auto-assemblage dans l’eau. La préparation de ces FONs est présentée et leurs propriétés étudiées et discutées. Enfin des applications concrètes en bio-imagerie sont présentées. / Nowadays the use of bright luminescent nano-objects in biological environment is a topic that is gaining more and more importance, especially for biomedical applications such as imaging, the rapyand diagnostic. So far, numerous studies have been conducted with gold nanoparticles, silica nanoparticles (doped or functionalized with organic molecules), as well as semiconductor nanoparticles (quantum dots, i.e., QDs). However, most of these nanoparticles suffer from drawbacks (in terms of stability, biocompatibility, eco-toxicity or degradability). On the other hand, several nontoxic fluorescent molecular probes have been widely used, but most of the time their brightness remain modest in biological environments compared to QDs. Our idea is to engineer new organicchromophores with tunable emission wavelength (from visible to near infrared) for further preparation of organic fluorescent nanoparticles (so called FONs) that display giant one-photon and two-photonbrightness, as well as good colloidal and chemical stability, and suitable photostability for in vitro andin vivo imaging. As such, these FONs would represent interesting alternatives to QDs for use in bioimaging. This manuscript describes the synthesis and characterization of new classes of fluorescent molecules specifically engineered as building blocks for the fast preparation of such nanoparticles byself-aggregation in water. The FONs were fully characterized from both morphological and photophysical points of view and further used in bioimaging.
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Fabricação de microambientes para crescimento celular utilizando polimerização via absorção de dois fótons / Fabrication of micro-environments to study cell growth by two-photon absorption polymerizationSalas, Oriana Ines Avila 25 November 2013 (has links)
Neste trabalho, demonstramos a fabricação de microambientes tridimensionais para investigar o crescimento celular. Inicialmente, desenvolvemos um sistema de microfabricação que utiliza fotopolimerização via absorção de dois fótons, com o qual se pode fabricar um conjunto de microestruturas com formas e espaçamentos pré-determinados. Este sistema de fabricação utiliza pulsos de femtossegundos, provenientes de um laser de Ti:safira operando em 790 nm. A intensidade destes pulsos é alta o bastante para induzir a absorção de dois fótons no fotoiniciador, o qual é responsável por promover a polimerização em uma resina acrílica. A natureza não linear da absorção de dois fótons confina a excitação ao volume focal, permitindo a fabricação de estruturas tridimensionais com alta resolução espacial. Para a obtenção dos microambientes, foi necessário o desenvolvimento de um sistema opto-mecânico de movimentação, tanto do feixe quando do substrato da amostra. Com esta técnica, fabricamos microambientes compostos de estruturas com diferentes formas (paralelepípedos, cilindros e cones) e espaçamentos, os quais foram caracterizados através de microscopia óptica e eletrônica. Para demonstrar a viabilidade destes microambientes para a investigação do crescimento celular, estes foram utilizados para monitorar o desenvolvimento da célula Michigan Cancer Foundation-7 (MCF-7), uma linhagem celular de adenocarcinoma de mama que apresenta fenótipo tumoral amplamente utilizada como modelo de estudo para câncer de mama. Observamos, via microscopia óptica de transmissão e fluorescência, o desenvolvimento das células MCF-7 nos distintos microambientes. Nossos resultados indicam uma melhor aderência e, portanto, desenvolvimento celular nas microestruturas cilíndricas. Observamos ainda uma maior densidade de células nos microambientes com estruturas separadas de 12 µm, a qual diminui com o aumento do espaçamento, de tal forma que para o microambiente com 30 µm, por exemplo, poucas células são observadas. Portanto, nossos resultados demonstram que os microambientes desenvolvidos são viáveis para estudos mais aprofundados em biologia celular, com potenciais aplicações em engenharia de tecido. / In this work we have demonstrated the fabrication of tridimensional microenvironments for the investigation of cell growth. Initially we have developed a two-photon absorption photopolymerization microfabrication system, which allows producing a set of microstructures with predetermined forms and spacing. This fabrication system uses femtosecond pulses from a Ti: sapphire laser operating at 790 nm. These pulses are intense enough to induce two-photon absorption by the photoinitiator, that is responsible for promoting the polymerization in an acrylic resin. The nonlinear nature of the two-photon absorption confines the excitation to the focal volume, allowing the fabrication of tridimensional structures with high spatial resolution. In order to obtain the microenvironments, it was necessary to develop a movement system for both the laser beam and the sample substrate. With this technique we have fabricated microenvironments composed by structures with different geometries (parallelepipeds, cylinders and cones) and spacing, which were characterized by optical and scanning electron microscopes. To demonstrate the feasibility of the microenvironments for the investigation of cell growth, the samples were used to monitor de development of the Michigan Cancer Foundation-7 cell (MCF-7), a lineage of breast adenocarcinoma that has a tumoral phenotype and is highly used as a model in breast cancer studies. We have observed, through conventional optical and fluorescence microscopy, the growth of the MCF-7 cells in the various microenvironments. Our results indicate a better adhesion and, therefore, better development of cells on the cylindrical microstructures. We also observe a higher cell density in the microenvironments with microstructures having a spacing of 12 µm, which reduces as the distance between microstructures increases, in such a way that for the microenvironment with 30 µm spacing, for example, just a few cells are observed. Thus, our results demonstrate that the produced microenvironments are applicable in deeper studies in microbiology, with potential application in tissue engineering.
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Estudo e aplicações do fenômeno de absorção de dois fótons em moléculas azo-aromáticas / Studies and applications of two-photon absorption in azo-aromatic moleculesNeves, Ubaldo Martins das 16 August 2007 (has links)
Neste trabalho estudamos o processo de absorção de dois fótons em compostos azoaromáticos, abordando tanto aspectos fundamentais quanto aplicados. Moléculas azo-aromáticos têm recebido especial atenção nos últimos anos devido as suas potencias aplicações em dispositivos para armazenamento óptico de informação, modulação da luz e geração de relevos em superfície, processes estes associados ao mecanismo de foto isomerização. Os trabalhos apresentados nessa tese tiveram como principal foco explorar o fenômeno de absorção de dois fótons, utilizando a propriedade de foto-isomerização das moléculas azo-aromáticas. Nosso objetivo foi estudar as vantagens que podem ser obtidas pela utilização de pulsos intensos de luz, que interagem de maneira não linear com a matéria, para desenvolver aplicações utilizando compostos azo-aromáticos. Inicialmente, estudamos o processo de absorção de dois fótons em uma nova família de compostos azo-aromáticos, denominados Salen Dyes. Investigamos a influencia da presença de íons metálicos no processo de absorção de dois fótons dessas moléculas. Nossos resultados mostraram que, devido a ausência de conjugação entre as estruturas azo-aromáticas conectadas pelo metal, este tem pouca influência no processo não linear estudado. Pelo uso de um modelo de soma de estado para a seção de choque de absorção de dois fótons, fomos capazes de determinar os momentos de dipolo de transição destas moléculas. Em seguida, implementamos uma técnica para estudar o processo de armazenamento óptico, induzido através da orientação molecular dos compostos azo-aromáticos, via absorção de dois fótons. Observamos que de fato é possível se observar birrefringência induzida por dois fótons nestas moléculas, a qual esta confinada ao volume focal, conforme demonstrado pela obtenção de armazenamento tri-dimensional. Finalmente, exploramos o processo de controle coerente via formatação de pulsos ultra-curtos para manipular o processo de birrefringência induzida por dois fótons em compostos azo-aromáticos. Foi demonstrado que apenas a através da manipulação da fase do pulso ultra-curto, é possível modular a birrefringência induzida em filmes de compostos azo-aromáticos. / Here we investigated fundamental and applied aspects of the two-photon absorption process in azoaromatic compounds. Azoaromatic molecules have been studied in the last few years due to their applications in optical storage devices, light modulators and surface relief gratings, processes related to the photo-isomerization mechanism. The main focus of the results presented in this thesis was to explore the two-photon absorption process, taking advantage of the intrinsic photo-isomerization of the azo-aromatic chromophores. Our main goal was to study the advantages of utilizing intense pulses, which promote nonlinear excitation, to develop application with azo-aromatic compounds. Initially, we studied the two-photon absorption process in a new class of azo-aromatic compounds, named Salen Dyes. We investigated the influence of metal ions, presented in the Salen Dyes structure, on the two-photon absorption spectrum. Our results revealed that the metals have practically no influence in the nonlinear optical properties due to the lack of conjugation between the azo-moieties in the Salen Dyes. Through a theoretical model based on a sum-over-states calculation, we were able to determine the transition dipole moment of these molecules. Subsquently, we implememnted a technique to study the two-photon induced birefringence, resulting from the molecular re-orientation, in azo-aromatic compounds. We observed that the two-photon induced birefringence is confined to the focal volume, s demonstrated in a three dimensional optical storage experiment. Finally, we used coherent control processes to manipulate the two-photon induced birefringence in azo-compounds. It was demonstrated that it is possible to modulate the optically induced birefringence by manipulating the phase of the ultra-short pulses, via pulse shaping techniques.
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Espectroscopia de dois fótons de Eu+2 em campo cristalino de simetrias Oh e C2v. / Two photon spectroscopy of Eu+2 in the crystal field of symmetry Oh e C2vNunes, Luiz Antonio de Oliveira 15 December 1983 (has links)
Neste trabalho estudamos através de técnicas de espectroscopia de dois fótons, transições entre níveis de um defeito de configuração 4f7, transições estas proibidas via um único fóton. Analisamos o efeito do campo cristalino sob os níveis de energia do defeito. O íon estudado foi o Eu+2 com defeito nas matrizes de CaF2, KCl, KI. Desenvolvemos alguns equipamentos e instrumentos necessários para realização do experimento. Os espectros de absorção de dois fótons nas transições 4f7(8S7/2) → 4f7 (8P7/2) apresentam-se como um conjunto de três e quatro linhas estreitas nas simetrias Oh e C2v respectivamente. Estes resultados estão em concordância com os cálculos de teoria de grupo. As transições 4f7(8S7/2) → 4f7 (8P5/2) apresentam-se como duas linhas na simetria Oh (CaF2) em concordância com os cálculos teóricos. No caso dos cristais com simetria C2v essas transições são inexplicavelmente ausentes. / We have applied the technique of two photon absorption to study transitions between different levels of the 4f7 configuration. These transitions are forbidden for one photon. The effect of the crystal field in these electronic states is studied. The ion we have chosen is Eu+2 in ionic crystals of KCl, KI and CaF2. The experimental technique was implanted at the laboratory with several parts developed by ourselves. The two photon absorption spectra of the 4f7(8S7/2) → 4f7 (8P7/2) is composed of three and four sharp lines in the Oh and C2v symmetry respectively. These results are in agreement with the group theory calculations of the problem. The transition 4f7(8S7/2) → 4f7 (8P5/2) appears as two sharp lines in the Oh symmetry (CaF2) in agreement with the theory, those transitions are not present in the crystals with C2v symmetry and this result is not understood.
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Développement de sondes activables à deux photons pour une utilisation en neurosciences / Development of two photon activable molecular probes for applications in neuroscienceTran, Christine 19 November 2015 (has links)
Des sondes photoactivables (composés “cagés”) dérivées de la 2-hydroxyméthylène-diméthylaminoquinoléine, ont été préparées et testées pour une application en neurophysiologie. Ces sondes montrent une stabilité hydrolytique élevée et une faible fluorescence, avec des cinétiques de photofragmentation rapides sous irradiation UV (365 nm). Il en est également de même dans des conditions biphotoniques en IR proche (730 nm). Une optimisation de cette plateforme a été réalisée en modifiant la nature et la position des substituants du chromophore, en augmentant la conjugaison et en incorporant des éléments de symétrie C2 et S3, conduisant aux sondes dipolaires, quadrupolaires (dimériques) et octupolaires (trimériques) à haute sensibilité biphotonique ( < 2,50 GM). Les dérivés les plus efficaces ont été testés dans des expériences en neurophysiologie. Tandis que les dérivés de kaïnate sont suffisamment stables en solution aqueuse à pH 7,4 pour les expériences en conditions physiologiques, les dérivés de L-glutamate et GABA ont nécessité une connexion de type carbamate avec la plateforme photoactivable. Sans irradiation, les solutions « stock » de ces composés « cagés » (c = 200-300 µM) n’ont pas produit d’effets majeurs sur l'excitabilité des neurones à en juger par le manque d'effet sur l'activité neuronale ou de potentiels d’actions synaptiques spontanés provoqués par une dépolarisation. La photolyse en lumière blanche par pulses courts d’irradiation a permis la libération de substances actives en quantité suffisante pour produire de grands courants (jusqu’à 5 nA) dans les neurones de Purkinje. / Photosensitive molecular probes (‘caged’ compounds) derived from 2-hydroxymethylenedimethylaminoquinoline were prepared and tested for applications in neurophysiology. These compounds show high hydrolytic stability and low fluorescence, with fast fragmentation kinetics upon UV irradiation (365 nm), and under two photon photolysis conditions (730 nm). This platform was optimized by modifying the substitution pattern, increasing the conjugation length and incorporating C2 or S3 symmetry elements. Dipolar, quadrupolar (dimer) and octupolar (trimer) derivatives were thus synthesized and were found exhibiting high two-photon sensitivity ( < 2,50 GM). The most efficient probes were tested in neurophysiological experiments. While kaïnate derivatives are stable in aqueous solution at pH 7.4 in physiological conditions, L-glutamate and GABA derivatives required the use of a carbamate linker. Without irradiation, any major changes were observed on neuron excitability with “stock” solutions of these caged compounds (c = 200-300 µM), according to the lack of effects on neuron activity or action potentials evoked by depolarization. White light photolysis by short pulses generated sufficient active substances to induce large inward currents (up to 5 nA) in Purkinje neurons.
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Ressonância de Fano na absorção de dois fótons em defeitos cristalinos / Fano ressonances in the two photon absorption of defects in solidsSouza, Gabriel Pinto de 18 January 1984 (has links)
Neste trabalho estudamos a forma de linha na absorção de dois fotons nas transições 4f7 de defeitos cristalinos superpostas com bandas de absorção multifonons. Escrevemos o perfil de linha sob a forma de Fano. O íon em estudo é Eu++ como defeito em um cristal de CaF2. Apresentamos o desenvolvimento da instrumentação necessária para realização do experimento, e obtemos resultados de ótima qualidade. / In this work we study the absorption of two photons in the electronic transition within the 4f 7configuration wich is superposed to the vibronic structure of 4f 7 - 4f65d transition. We describe the line shape with the Fano\'s formalism. The study was carried out on Eu+2 doped CaF2. The experimental apparatus was build and the results obtained are in good agreement with the theoretical predictions.
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Absorção cooperativa de dois fótons em átomos frios / Cooperative absorption of two-photon in cold atomsPeñafiel, Edwin Eduardo Pedrozo 27 July 2011 (has links)
Neste trabalho estudamos a absorção cooperativa de dois fótons em processos de colisão entre átomos frios de sódio aprisionados. Efeitos não-lineares exigem amostras de alta densidade para ser observados. Redesenhamos nosso sistema experimental para conseguir amostras de 1012 átomos/cm3. As principais alterações foram a construção de um desacelerador Zeeman em configuração spin-flip, a implementação de bombeamento diferencial entre o forno e a câmara principal, assim como redesenhar o forno. A fim de compreender e melhorar os processos de medição utilizamos a técnica de fotoionização nos estados 32P1/2 e 32P3/2. Com esses dados conseguimos calcular a seção transversal de ionização para cada um desses estados, que está de acordo com valores reportados na literatura. Estes resultados mostram que o novo desenho do sistema permite um grande ponto de partida para a medição da absorção de dois fótons. Uma tentativa de medir a absorção de dois fótons foi feita. Um pequeno aumento no número de íons produzidos por unidade de tempo foi observada em uma região deslocada para o vermelho de cerca de 4,5 GHz de onde inicialmente se esperava ocorrer a transição. Isto motiva a aprofundar o estudo da absorção de dois fótons, já que provavelmente essa medida seja um indício da ocorrência desse fenômeno. Assim, tanto a medição da seção de choque dos estados 32P1/2 e 32P3/2 e a tentativa de medir a absorção de dois fótons, fornecem uma base sólida para conhecer qual é a melhor maneira de obter resultados mais decisivos no que diz respeito à absorção cooperativa de dois fótons, e as vantagens do nosso sistema em futuros experimentos. / In this work we study the cooperative two-photon absorption in collisional processes between cold trapped sodium atoms. Nonlinear effects require high density samples to be observed. We redesign our experimental system to achieve samples up to 1012 atoms/ cm3 .The key changes were building a spin-flip Zeeman slower, implementing differential pumping between the oven and the chamber and changing the oven´s design. In order to understand and improve the measurement processes we did photoionization from the states 32P1/2 e 32P3/2. With this data we could calculate the ionization cross section for each of these states, which is in agreement with values reported in the literature. These results show that the new design of the system allows a great starting point for measuring of two-photon absorption. An attempt to measure the absorption of two-photon was made. A small increase in the number of ions produced per unit time was observed in a region shifted to the red of about 4.5 GHz from where we initially expected the transition to occur. This probably indicates two-photon absorption. Thus, both the measurement of cross section of states and the attempt to measure the absorption of two photons, provide a solid foundation for understanding what is the best way to obtain more decisive results with regard to cooperative absorption, and the advantages of performance of our system in future experiments.
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3D Printing of Nanoantenna Arrays for Optical MetasurfacesJithin Prabha (5930795) 17 January 2019 (has links)
Additive manufacturing using 2 photon polymerization is of great interest as it can create nanostructures with feature sizes much below the diffraction limit. It can be called as true 3D printing as it can fabricate in 3 dimensions by moving the laser spot in any 3D pattern inside the resist. This unique property is attributed to the non-linearity of two photon absorption which makes the polymerization happen only at the focal spot of the laser beam. This method has a wide range of applications such as optics/photonics, metamaterials, metasurfaces, micromachines, microfluidics, tissue engineering and drug delivery.<br>This work focuses on utilizing 2 photon fabrication for creating a metasurface by printing diabolo antenna arrays on a glass substrate and subsequently metallizing it by coating with gold. A femtosecond laser is used along with a galvo-mirror to scan the geometry inside the photoresist to create the antenna. The structure is simulated using ANSYS HFSS to study its properties and optimize the parameters. The calculations show a reflectance dip and zero reflectance for the resonance condition of 4.04 μm. An array of antennas is fabricated using the optimized properties and coated with gold using e-beam evaporation. This array is studied using a fourier transform infrared spectrometer and polarization dependent reflectance dip to 40% is observed at 6.6 μm. The difference might be due to the small errors in fabrication. This method of 3D printing of antenna arrays and metallization by a single step of e-beam evaporation is hence proved as a viable method for creating optical metasurfaces. Areas of future research for perfecting this method include incorporating an autofocusing system, printing more complicated geometries for antennas, and achieving higher resolution using techniques like stimulated emission depletion.
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"Estudo da birrefringência fotoinduzida por um e dois fótons em compostos azoaromáticos da família salen". / "One and two-photon induced birefringence in Salen dye cast films"Cardoso, Marcos Roberto 22 July 2005 (has links)
Neste trabalho apresentamos resultados de birrefringência opticamente induzida via absorção de um e dois fótons em filmes casting de poli (metil metacrilato) (PMMA), contendo uma nova série de compostos azoaromáticos chamados de corantes Salen, os quais podem ser usados em aplicações de memória óptica. Para a birrefringência opticamente induzida por um fóton, foi necessário um tempo de escrita maior para os compostos com metal na estrutura em comparação com o composto Salen que não contém metal, provavelmente devido a agregações do grupo azoaromático na estrutura do polímero diminuindo a mobilidade molecular. Além disso, como uma novidade em memórias ópticas deste tipo, birrefringência opticamente induzida por dois fótons pôde ser realizada nos filmes de Salen, o que pode permitir sua aplicação em memória óptica tridimensional. / In this work we present the one- and two-photon optically induced birefringence in cast films of amorphous poly(methyl methacrylate) (PMMA), containing a new series of organometallic azoaromatic compounds, referred to as Salen dyes, which may be used in optical storage applications. For the one-photon optically induced birefringence, longer writing times were required for the organometallic compounds in comparison with the nonmetal one, probably due to the higher degree of aggregation in the azoaromatic moieties that precludes molecular orientation. Furthermore, as a novelty concerning optical storage, two-photon optically induced birefringence could be achieved in the Salen dyes guest-host films, which allows their application in three-dimensional optical memories.
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Controlled drug delivery systems and integration into 3D printingDo, Anh-Vu Tran 01 August 2018 (has links)
Controlled drug delivery systems have been utilized to enhance the therapeutic effects of many current drugs by effectively delivering drugs in a time-dependent and repeatable manner. The ability to control the delivery of drugs, whether through sequential, instantaneous, sustained, delayed and/or enhanced release has the potential to provide effective dosing regimens with enhanced therapeutic effects for a plethora of diseases and injuries. For instance, such systems can enhance anti-tumoral responses or, alternatively, promoting tissue regeneration. The current need for organ and tissue replacement, repair and regeneration for patients is continually growing such that supply is not meeting the high demand primarily due to a paucity of donors as well as biocompatibility issues that lead to immune rejection of the transplant. To overcome this problem, scientists working in the field of tissue engineering and regenerative medicine have investigated the use of scaffolds as an alternative to transplantation. These scaffolds are designed to mimic the extracellular matrix (ECM) by providing structural support as well as promoting attachment, proliferation, and differentiation with the goal of yielding functional tissues or organs.
Continued advancement and hybrid approaches using different material combinations and printing methodologies will further advance the progress of 3D printing technologies toward developing scaffolds, and other implantable drug delivery devices, capable of being utilized in the clinic. Such advancements will not only make inroads into improving structural integrity of implantable devices but will also provide platforms for controlled drug delivery from such devices. The primary focus of this thesis will be on controlled drug delivery as well as the integration of controlled drug delivery into 3D printed devices aimed at promoting tissue regeneration.
We initially assessed the efficacy of a controlled drug delivery system for the treatment of cancer using on-demand, and sustained, release of an anticancer drug, doxorubicin (DOX), for the treatment of melanoma in a murine model. Using a melanoma model, we investigated the antitumor potential of combining ultrasound (US) with poly(lactic-co-glycolic acid) (PLGA) microspheres loaded with DOX. An in vitro release assay demonstrated an ability of US to affect the release kinetics of DOX from DOX-loaded PLGA microspheres by inducing a 12% increase in rate of release where this treatment resulted in synergistic tumor cell (B16-F10 melanoma cells) killing. Melanoma-bearing mice treated intratumorally with DOX (8 µg)-loaded microspheres and subjected to US treatment at the tumor site were shown to significantly extended survival compared to untreated mice or mice subjected to either treatment alone. The synergistic increase in survival of melanoma-challenged mice treated with the combination of US and DOX-loaded microspheres implicates a promising additional tool for combatting an otherwise currently incurable cancer.
We then further investigated other novel control drug delivery systems which included a 3D printed device (tube) for the purposes of sequential drug delivery. 3D printed hollow alginate tubes were fabricated through co-axial bioprinting and then injected with PLGA to provide sequential release of distinct fluorescent dyes (model drugs), where fluorescein was initially released from alginate followed by the delayed release (up to 55 h) of rhodamine B in PLGA. With an alginate shell and a PLGA core, the fabricated tubes showed no cytotoxicity when incubated with the human embryonic kidney (HEK293) cell line or bone marrow stromal stem cells (BMSC). Microscale printing through two-photon polymerization (2PP) was then investigated for controlled drug delivery potential. Poly(ethylene glycol) dimethacrylate (PEGDMA) devices were fabricated using a Photonic Professional GT two-photon polymerization system while rhodamine B was homogenously entrapped inside the polymer matrix during photopolymerization. These devices were printed with varying porosity and morphology and using varying printing parameters such as slicing and hatching distance. Overall, tuning the hatching distance, slicing distance, and pore size of the fabricated devices provided control of rhodamine B release due to resulting changes in the motility of the small molecule and its access to structure edges. In general, increased spacing provided higher drug release while smaller spacing resulted in some occlusion, preventing media infiltration and thus resulting in reduced drug release. 2PP was further explored for its ability to tailor topographical cues in addition to controlled drug release. These physical cues, similar to those of the ECM, have been seen to promote differentiation. With 2PP, we explored microscale topographies with nanoscale precision, where different star size topographies were fabricated. It was observed that the smallest star size topographies differentiated human iPSCs towards the endoderm and mesoderm germ layer.
Integrating the facility for controlled drug release into 3D printed devices provides a demand for constructs that not only need to fulfill their purpose of temporarily substituting for the missing tissue at the site of injury, but also providing the necessary cues to promote appropriate tissue regeneration. With 3D printing technology, novel drug delivery constructs were fabricated and tested to appraise functionality such as the ability to control drug delivery and the ability to function as a non-toxic medium for cellular attachment, proliferation, and forced differentiation.
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