Émulsions de Pickering biodégradables stabilisées par des nanoparticules de poly(acide lactique-co-glycolique) : étude physico-chimique et potentialité pharmaceutique / Biodegradable Pickering emulsions stabilized with poly(lactic-co-glycolic acid) nanoparticles : physico-chemical study and pharmaceutical potentiality

Albert, Claire

01 December 2017

Dans ce travail de thèse, nous avons formulé des émulsions de Pickering stables, biodégradables et biocompatibles stabilisées par des nanoparticules (NPs) de poly(acide lactique-co-glycolique) (PLGA). De telles émulsions sont une alternative, potentiellement moins toxique et irritante, aux émulsions conventionnelles stabilisées par des tensioactifs synthétiques. Dans un premier temps, une étude physico-chimique approfondie de ces systèmes a permis de clarifier leurs structures (macroscopique, microscopique et interfaciale) ainsi que leurs mécanismes et leurs cinétiques de stabilisation. Des études de la contribution du polymère stabilisant les NPs et des caractéristiques du polymère de PLGA utilisé sur les propriétés des émulsions ont également été réalisées. Cela a permis de mieux identifier les paramètres physico-chimiques clés nécessaires à une bonne stabilisation. Dans un second temps, nous nous sommes intéressés au potentiel pharmaceutique de ces émulsions pour une application topique. Des substances actives (SA), utilisées pour le traitement du psoriasis, ont été encapsulées avec succès dans les NPs (ciclosporine A et tacrolimus) et les gouttelettes de l’émulsion (calcitriol). Cette étude est un premier pas vers l’utilisation de ces émulsions pour la co-encapsulation de deux SA dans la même formulation : une première dans les NPs et une seconde dans les gouttelettes d’huile. La co-encapsulation devrait permettre d’améliorer l’observance du patient et pourrait conduire à un effet synergique entre les deux SA. / In this thesis work, we formulated stable, biodegradable and biocompatible Pickering emulsions stabilized with nanoparticles (NPs) of poly(lactic-co-glycolic acid) (PLGA). Such emulsions are an alternative, potentially less toxic and irritating, to conventional emulsions stabilized with surfactants. Firstly, a thorough physico-chemical study of these systems was conducted in order to clarify their structures (macroscopic, microscopic and interfacial) as well as their mechanisms and kinetics of stabilization. Studies of the contribution of the polymer stabilizing the NPs and of the characteristics of the PLGA polymer on the properties of the emulsions were also carried out. This enabled a better identification of the physico-chemical key parameters responsible for a good stabilization. Secondly, we focused on the pharmaceutical potential of these emulsions for a topical application. Pharmaceutical active ingredients (API), used for the treatment of psoriasis, were successfully encapsulated in the NPs (cyclosporine A and tacrolimus) and the emulsion droplets (calcitriol). This study is a first step towards the use of these emulsions for the co-encapsulation of two API: one in the NPs and a second in the oil droplets. The co-encapsulation should improve patient compliance and could lead to a synergistic effect between the two API.

Émulsion

Nanoparticule

Plga

Interface

Microstructure

Encapsulation

Emulsion

Nanoparticle

Plga

Interface

Microstructure

Encapsulation

Propriétés optiques non linéaires de molécules et de nanoparticules métalliques pour la photonique / Nonlinear optical properties of molecules and metallic nanoparticles for photonics

Ngo, Hoang Minh

15 November 2016

L’optique non linéaire est un outil très puissant pour l’étude des propriétés photoniques de molécules, de matériaux et de nanostructures. La taille et la forme des nanoparticules de métaux nobles (NMNPs) influencent fortement leurs propriétés optiques non linéaires du second ordre. Dans cette thèse, nous proposons une étude systématique de l'influence de la surface de nanoparticules sur leurs valeurs de première hyperpolarisabilité bêta. Des nanoparticules en poudre d’argent (de diamètres 7 nm) ainsi que des solutions colloïdales sur NMNPs -avec différentes compositions, tailles et formes -ont été synthétisés : des nanosphères d'argent (de diamètres 10 nm), des nanosphères d’or (de diamètres 3,0; 11,6; 15,8; 17,4; 20,0 et 43,0 nm), des nanobâtonnets d’or (de rapports d'aspect 1,47; 1,63 et 2,30), des nanobâtonnets d’argent (de rapports d'aspect 5,0; 6,3; 7,5; 8,2 et 9,7), des nanofleurs de platine (de diamètres 7,0; 8,0; 10,0; 14,0; 20,0 et 31,0 nm) ainsi que des nanoprismes d'or (d’une longueur de côtés de 47,5 à 112,3 nm). La diffusion harmonique de la lumière (HLS) à 1064 nm est utilisée pour étudier la génération du second harmonique des NMNPs colloïdaux, et d'en déduire leurs valeurs de première hyperpolarisabilité bêta. Pour les nanosphères et les nanorods étudiés dans ce travail, nous démontrons que leurs valeurs de bêta présentent une forte dépendance avec leur surface, qui est le paramètre dominant dans l'évolution des valeurs de bêta. Par ailleurs, la rugosité de la surface des particules ainsi que la forme des irrégularités des nanofleurs sont responsables de valeurs exceptionnellement élevées de bêta. En outre, nous démontrons expérimentalement, pour la première fois dans la littérature, que les valeurs de bêta des nanoprismes présentent non seulement une dépendance linéaire par rapport à la surface, mais sont également sensibles aux courbures des sommets du triangle. / Nonlinear optics is well known to be a highly powerful tool to investigate the photonic properties of molecules, materials and nanostructures. Size and shape of noble metal nanoparticles (NMNPs) strongly influence their second-order nonlinear optical properties. In this PhD thesis, we propose a systematic investigation of the influence of the nanoparticle surface area on their first hyperpolarizability beta values. Powdery-silver nanoparticles (diameters 7 nm) and colloidal solutions on NMNPs with different composition, sizes and shapes have been synthesized, i.e. silver nanospheres (diameters 10 nm), gold nanospheres (diameters 3.0; 11.6; 15.8; 17.4; 20.0 and 43 nm), gold nanorods (aspect ratios 1.47; 1.63 and 2.30), silver nanorods (aspect ratios 5.0; 6.3; 7.5; 8.2 and 9.7), platinum nanoflowers (diameters 7.0; 8.0; 10.0; 14.0; 20.0 and 31.0 nm) and gold nanoprisms (edge length tuned from 47.5 to 112.3 nm). Harmonic light scattering (HLS) at 1064 nm is used to investigate the second harmonic generation from colloidal NMNPs, and to infer their first hyperpolarizability tensor beta. For the nanospheres and nanorods investigated in this work, we demonstrate that their beta values display a strong dependence with their surface area, which is the dominant parameter in the evolution of beta values. Otherwise, particle surface corrugation and shape irregularities of nanoflowers are responsible for exceptionally high beta values. Moreover, we report for the first time in the literature that the beta values of nanoprisms display not only a linear dependence with respect to the surface area, but are also sensitive to the sharpness of the triangle vertices.

Optique non linéaire

Nanoparticule

Génération de second harmonique

Nonlinear optics

Nanoparticle

Second harmonic generation

Magnetic Field Sensing and Nanoparticle Induced Ferromagnetism in Graphene Towards Spintronics

January 2019

abstract: Graphene has been extensively researched for both scientific and technological interests since its first isolation from graphite. The excellent transport properties and long spin diffusion length of graphene make it a promising material for electronic and spintronic device applications. This dissertation deals with the optimization of magnetic field sensing in graphene and the realization of nanoparticle induced ferromagnetism in graphene towards spintronic device applications. Graphene has been used as a channel material for magnetic sensors demonstrating the potential for very high sensitivities, especially for Hall sensors, due to its extremely high mobility and low carrier concentration. However, the two-carrier nature of graphene near the charge neutrality point (CNP) causes a nonlinearity issue for graphene Hall sensors, which limits useful operating ranges and has not been fully studied. In this dissertation, a two-channel model was used to describe the transport of graphene near the CNP. The model was carefully validated by experiments and then was used to explore the optimization of graphene sensor performance by tuning the gate operating bias under realistic constraints on linearity and power dissipation. The manipulation of spin in graphene that is desired for spintronic applications is limited by its weak spin-orbit coupling (SOC). Proximity induced ferromagnetism (PIFM) from an adjacent ferromagnetic insulator (FMI) provides a method for enhancing SOC in graphene without degrading its transport properties. However, suitable FMIs are uncommon and difficult to integrate with graphene. In this dissertation, PIFM in graphene from an adjacent Fe3O4 magnetic nanoparticle (MNP) array was demonstrated for the first time. Observation of the anomalous Hall effect (AHE) in the device structures provided the signature of PIFM. Comparison of the test samples with different control samples conclusively proved that exchange interaction at the MNP/graphene interface was responsible for the observed characteristics. The PIFM in graphene was shown to persist at room temperature and to be gate-tunable, which are desirable features for electrically controlled spintronic device applications. The observation of PIFM in the MNP/graphene devices indicates that the spin transfer torque (STT) from spin-polarized current in the graphene can interact with the magnetization of the MNPs. If there is sufficient STT, spin torque oscillation (STO) could be realized in this structure. In this dissertation, three methods were employed to search for signatures of STO in the devices. STO was not observed in our devices, most likely due to the weak spin-polarization for current injected from conventional ferromagnetic contacts to graphene. Calculation indicates that graphene should provide sufficient spin-polarized current for exciting STO in optimized structures that miniaturize the device area and utilize optimized tunnel-barrier contacts for improved spin injection. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2019

Electrical engineering

Nanotechnology

Nanoscience

ferromagnetism

graphene

magnetic sensor

nanoparticle

proximity effect

spintronics

Influence of PEG Conformation on Efficacy of Silica Nanoparticle Immunotherapy for Metastatic Tumors

Becicka, Wyatt Morgan

January 2020

No description available.

Biomedical Engineering

Cancer immunotherapy

mesoporous silica nanoparticle

systemic drug delivery

STING agonist

PEG

Synthesis and Characterization of Drug-Containing, Polysaccharide-Based Nanoparticles for Applications in Oral Drug Delivery

Mazumder, Sonal

08 August 2013

Amorphous solid dispersions of polysaccharide-drug nanoparticles were produced by a rapid precipitation process known as flash nanoprecipitation and the formulation process and properties of nanoparticles were investigated. In this thesis, several novel cellulose derivatives and a pullulan derivative were studied. Among these polymers, carboxymethyl cellulose acetate butyrate (CMCAB)-drug nanoparticles were investigated in detail. Previous work has shown that the presence of different chemical groups in CMCAB could aid in complexation with hydrophobic drugs with low solubility, forming an amorphous matrix which can increase the effective solubility and, hence, bioavailability of the drug in physiological conditions. An antibacterial drug and two less soluble anti-viral drugs were selected as model drugs for this study. A separate study was conducted with several other cellulose derivatives like cellulose acetate propionate adipates with two different degree of substitution 0.33 and 0.85 (CAP-Adp 0.33 and CAP-Adp 0.85), cellulose acetate sebacate (CA-320S Se) and butyl pullulan-6-carboxylate (BPC) polymers. The effect of polymer interaction with drug molecule on release of antiviral drugs was studied with these latter polymers. The purpose of this research was two-fold. First, the methodology for producing drug-polymer nanoparticles with well-defined particle size distributions was developed. Second, the factors affecting drug loading and release properties of these nanoparticles were investigated. The nanoparticles were processed using two methods of solvent removal and drying to investigate their effects on drug loading and particle size: (a) various combinations of rotary vacuum evaporation (rotavap) and acid-induced flocculation were used and (b), dialysis followed by freeze drying. Dynamic light scattering showed particle sizes were between 150-400 nm with polydispersity index values as low as 0.12. The antibiotic drug loading efficiencies ranged from 14-40%, whereas drug loading efficiency as high as 85 % was attained with the antiviral drug. The dissolution studies showed an increase in the solution concentration and release of the amorphous drug nanoparticles. The high glass transition temperature helped to stabilize the drug in an amorphous form, thus increasing the effective solution concentration of the drug in an aqueous medium. / Ph. D.

polysaccharides

mixing

nanoprecipitation

cellulose derivatives

antibacterial

antiviral

nanoparticle

self-assembly

parti

Liposome-coated Magnesium Phosphate Nanoparticle for Delivery of Cytochrome C into Lung Cancer Cells A549

Yue, Weizhou

01 January 2017

Proteins are large biomolecules that have great therapeutic potential in treating many human diseases. However, chemical/enzymatic degradation, denaturation, and poor penetration into cells are some of the challenges for clinical use of intracellular proteins. Previously, our group has developed cationic lipid-coated magnesium phosphate nanoparticle (LP MgP NP-CAT) formulations to enhance the intracellular delivery of the negatively charged protein catalase. The goal of the current research is to develop a formulation to deliver cytochrome c (CytC), a positively charged protein into lung cancer cells A549. Specifically, this thesis research prepares and tests liposome-coated magnesium phosphate nanoparticle for delivery of cytochrome c (CytC LP/MgP). CytC LP/MgP was designed, prepared and characterized, showing that it had an average diameter around 150 nm and ζ-potential around +30 mV. The morphology of CytC LP/MgP was validated by transmission electron microscopy. CytC LP/MgP successfully led to the attachment of CytC to A549 cells, as supported by fluorescence imaging. Intracellular delivery of CytC alleviated the cytotoxicity of cationic lipids in A549 cells, as suggested by the MTS assay on cell viability, which could facilitate the clinical use of cationic lipids in drug delivery systems.

Pharmaceutical sciences

chemistry

cationic liposome

cytochrome c

drug delivery

lung cancer

nanoparticle

Chemistry

Pharmacy and Pharmaceutical Sciences

Preparation and Application of Hierarchically Porous Monolithic Materials with Embedded Nanoscale Interfaces / ナノスケール界面を導入した階層的多孔構造をもつモノリス材料の合成と応用研究

Yang, Zhu

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第19519号 / 理博第4179号 / 新制||理||1600(附属図書館) / 32555 / 京都大学大学院理学研究科化学専攻 / (主査)准教授 中西 和樹, 教授 北川 宏, 教授 有賀 哲也 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Hierarchically Porous Monolith

Nanoscale Interface

Ag Nanoparticle

Metal Phosphates

Sol-Gel

Phase Separation

400

Physical and Immunological Characterization of Molecular Assemblies Comprising Poly(sarcosine)-Based Amphiphilic Polymers / ポリサルコシンを有する両親媒性ポリマーで構成された分子集合体の物理的および免疫学的特性に関する研究

Kim, Cheol Joo

23 May 2017

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第20578号 / 工博第4358号 / 新制||工||1677(附属図書館) / 京都大学大学院工学研究科材料化学専攻 / (主査)教授 木村 俊作, 教授 瀧川 敏算, 教授 秋吉 一成 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Polysarcosine

Amphiphilic polymer

ABC phenomenon

Elastic modulus

Nanoparticle

B cell

Molecular assembly

500

Extended Design of Concentrated-Polymer-Brush-Decorated Hybrid Nanoparticles and Their Use for Phase-Separation Control / 濃厚ポリマーブラシ付与複合微粒子の構造設計の拡張と相分離構造の制御

Yahata, Yoshikazu

23 May 2018

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21273号 / 工博第4501号 / 新制||工||1700(附属図書館) / 京都大学大学院工学研究科高分子化学専攻 / (主査)教授 辻井 敬亘, 教授 山子 茂, 教授 秋吉 一成 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

polymer brush

nanoparticle

radical polymerization

phase separation

quasi-solid electrolyte

500

MicroRNA-145-loaded poly(lactic-co-glycolic acid) nanoparticles attenuate venous intimal hyperplasia in a rabbit model / microRNA-145封入ポリ乳酸グリコール酸共重合体ナノ粒子はウサギモデルにおいて静脈内膜肥厚を抑制する

Nishio, Hiroomi

25 March 2019

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21638号 / 医博第4444号 / 新制||医||1034(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 木村 剛, 教授 浅野 雅秀, 教授 山下 潤 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

intimal hyperplasia

drug delivery

microRNA-145

vein graft disease

nanoparticle

490