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1	Storage, ascent and emplacement of rhyolite lavas Befus, Kenneth Stephen 24 October 2014 (has links) The physical properties and dynamic processes that control effusions of rhyolitic lavas are poorly constrained because of a paucity of direct observations. To assess the pre-eruptive storage conditions, eruptive ascent, and subaerial emplacement for a suite of volumetrically diverse rhyolitic lavas, I studied 10 obsidian lavas from Yellowstone Caldera, Wyoming and Mono Craters, California. Storage, ascent, and emplacement of those lavas were quantitatively constrained using phenocryst compositions, high temperature experiments, microlite textures, and compositional gradients surrounding spherulites. Compositions of phenocrysts and quartz-hosted glass inclusions indicate the magmas at Yellowstone were stored at 750±25 °C in the shallow crust (<7 km), in agreement with phase equilibria experiments. Following the initiation of an eruption, magma leaves the chamber and ascends in a conduit. Microlite number density can be used to quantify eruptive ascent rates. To generate the observed microlite number densities (10⁸·¹¹±⁰·⁰³) to 10⁹·⁴⁵±⁰·¹⁵ cm⁻³), the magmas decompressed at ~1 MPa hour⁻¹, equivalent to ascent rates of ~10 mm s⁻¹. Upon subaerial emplacement, microlites act as rigid particles in a deforming fluid (lava), and hence their 3D orientations could indicate flow direction and how strain accumulates in the fluid during flow. Microlites are strongly aligned in samples from all flows, but variations in alignment were found to be independent of flow volume or distance travelled. Together, those observations suggest that strains accumulated during subaerial transport must be small (<2). Instead, microlites most likely aligned in response to strain in the conduit, which can be generated by collapse and flattening. Upon reaching the surface, the cooling history and longevity of rhyolitic lavas are critical for developing models of emplacement and hazard assessment. Compositional gradients surrounding spherulites provide one method to assess such temporal characteristics. Spherulites, crystalline spheres of radiating quartz and feldspar, form by crystallization of obsidian glass in response to cooling. An advection-diffusion model was developed to simulate the growth of spherulites and compositional gradients that develop in the surrounding glass during spherulite growth. Observed gradients are consistent with spherulites growing between ~700 and ~400 °C, and cooling at rates of 10⁻⁵·²±⁰·³) °C s⁻¹. / text Rhyolite Obsidian Lavas Ascent rates Spherulites
2	Comparing digestibility of A- and B- type crystals and providing Insight on digestibility of starches Cai, Liming January 1900 (has links) Doctor of Philosophy / Department of Grain Science and Industry / Yong-Cheng Shi / Starch is the most important source of food energy. However, the information about the metabolic quality of starchy foods is scarce. It is well known that native starches with a B-type X-ray diffraction pattern are more resistant to alpha-amylase digestion than those starches with an A-type X-ray pattern, but the underlying mechanism is not well understood. It is not clear whether the enzyme resistance of B-type starch is due to its B-type crystalline structure or the other structural features in starch granules. The objective of this study was to compare the structure and enzyme digestibility of highly pure A- and B-type starch crystals, and understand the roles of crystalline types in starch digestibility. Highly pure A- and B-type starch crystals were prepared from short linear α-glucans (short-chain amylose) generated from completely debranched waxy starches by manipulating the processing conditions such as starch solids concentration, crystallization temperature and chain length. High concentration, high temperature and short chain length favored the formation of the A-type structure, whereas reverse conditions resulted in the B-type polymorph. Digestion results using a mixture of α-amylase and glucoamylase showed that A-type crystals were more resistant to enzyme digestion than B-type crystals. The A-type crystalline product obtained upon debranching 25% waxy maize starch at 50ºC for 24 h gave 16.6% digestion after 3 h, whereas B-type crystals produced by debranching 5% waxy maize starch at 50ºC for 24 h followed by holding at 25ºC for another 24 h had 38.9% digested after 3 h. The A-type crystals had a higher melting temperature than the B-type crystals as determined by differential scanning calorimetry. Annealing increased the peak melting temperature of the B-type crystals, making it similar to that of the A-type crystals, but did not improve the enzyme resistance. The possible reason for these results was due to more condense packing pattern of double helices in A-type crystallites. It seems that the crystalline types are not the key factor that controls the digestibility of native starch granules. The resistance of native starches with B-type X-ray diffraction pattern is probably attributed to the other structural features in starch granules. Waxy starch Short-chain amylose Crystalline type Debranching Spherulites Digestibility Agriculture, General (0473) Food Science (0359)
3	Crystallization Behavior of Syndiotactic Polystyrenes Su, Chiou-Huen 20 July 2004 (has links) Reported is a study of the crystallization behavior of syndiotactic polystyrene (sPS) and its copolymers (with 4-bromostyrene as the comonomer or with atactic polystyrene arms grafted on the comonomer sites) via three sets of experiments. The first involves the study of structural identification of negatively birefringent spherulites by means of polarized light microscopy (PLM) and scanning electron microscopy (SEM). Results indicated that the optically positive and optically negative spherulites have same morphological features. Differences in the optical texture are due entirely to differences in orientation of the (anisotropic) sheaf-like precursors: the rigid nature of crystalline lamellae renders incomplete development of spherical symmetry even at the axialitic size of tens of microns. In the second part, we propose a modified approach for more precise determination of the Tm* value by taking advantage of the dual-mode distribution of crystalline lamellae in analyzing small-angle X-ray scattering (SAXS) profiles. This method should be generally applicable to other semi-crystalline polymers with dual-mode distribution in lamellar thickness. Results from wide-angle X-ray diffraction (XRD) suggest the presence of ?'-to-?" phase transformation at ca. 264 oC; no indications for the previously proposed ?-to-? transformation are identified. We therefore conclude that the ?' form is truly metastable; the ?"-form is the entropically favored high temperature phase (with Tm* = 300 oC) whereas the more ordered ?' phase (with Tm* = 288 oC) is enthalpically favored at lower temperatures. In the third set of experiments, identification of effects of copolymerization has been studied via a combination of PLM, differential scanning calorimetry (DSC), XRD, SAXS, and transmission electron microscopy (TEM). Results show that the equilibrium melting temperatures (determined via either Hoffman¡VWeeks or Gibbs¡VThomson plots) of the copolymers are significantly lower than that of the corresponding sPS homopolymer. The PLM observations indicate that the axialitic growth rates in copolymers are drastically lower than that of the corresponding homopolymer at comparable backbone length and supercooling. Both XRD and TEM results indicate preferred formation of the ?" phase upon melt crystallization in the bulk state; however, the ?" phase (instead of ?' phase that is the more commonly observed for sPS homopolymers in the bulk state) is dominant in thin films. Equilibrium melting temperature Syndiotactic polystyrene Polymorphism Spherulites sPS-grafted-aPS sPS-co-pMS Crystallization
4	Effect of confined polymer on the properties of lyotropic lamellar mesophases / Effet de polymère confiné sur la structure de mésophases lamellaires lyotropes Meklesh, Viktoriia 20 September 2017 (has links) Cette thèse porte sur l'effet de l'incorporation du polymère adsorbant polyéthylène glycol (PEG) sur les propriétés structurelles et élastiques des mésophases lamellaires lyotropes. En particulier, ces phases lamellaires dopées au polymère sont d'un grand intérêt pour la compréhension des interactions inter-membranaires médiées par la macromolécule. Dans un premier temps, le module élastique de courbure des membranes a été étudié le long de plusieurs lignes de dilution de polymère. Il a été obtenu à partir des mesures des couplages quadrupolaires par spectroscopie de résonance magnétique nucléaire (RMN) à l'état solide de deutérium des molécules de cotensioactif perdeuteré incorporée dans la membrane. En présence du polymère adsorbé, nous avons constaté que la valeur du module élastique de courbure augmentait d'environ 20% dès que la solution de polymère était semi-diluée. Deuxièmement, nous discutons le coefficient de diffusion du polymère dans l'eau et confiné dans la phase lamellaire. La structure des mésophases a été étudiée par diffusion aux petits angles par rayons X et par microscopie électronique après cryofracture. Finalement, les mesures directes du module de compressibilité des mésophases lamellaires ont également été réalisées. / This thesis deals with the effect of the incorporation of the adsorbing polymer polyethylene glycole (PEG) on the structural and elastic properties of lyotropic lamellar mesophases. In particular, these polymer doped-lamellar phases are of great interest for understanding the intermembrane interactions mediated by the macromolecule. Firstly, the bending elastic modulus of the membranes has been investigated along several dilution lines of polymer. It was obtained from the measurements of quadrupolar splittings by deuterium solid state Nuclear Magnetic Resonance (NMR) spectroscopy of the perdeuterated cosurfactant molecule embedded in the membrane. In the presence of the adsorbed polymer the value of the bending elastic modulus was found to increase of about 20% as soon as the polymer solution becomes semi-diluted. Secondly, the diffusion coefficient of the polymer in water and confined in the lamellar phase is discussed. The structure of the mesophases was investigated by small angle X-ray scattering and freeze-fracture electon microscopy. Finally, the direct measurements of the compressibility modulus of the lamellar mesophases were also carried out. Phase lamellaire Structure Interactions Polymère Diffusion Sphérulites Lamellar phase Structure Interactions Polymer Diffusion Spherulites 530.4
5	Quench Crystallization of Linear Polyethylene: Crystallization Kinetics, Morphology and Structure Investigation Patki, Rahul P. January 2008 (has links) No description available. Materials Science Polymers Crystallization spherulites crystallization temperatures temperatures Lamellar spherulitic SAXS
6	Morphological Studies of Crystallization in Thin Films of PEO/PMMA Blends Okerberg, Brian 21 October 2005 (has links) Morphological development during crystallization of thin films of poly(ethylene oxide) (PEO) / poly(methyl methacrylate) (PMMA) blends has been reported. Studies have focused on the effects of the blend composition, PMMA molecular weight, film thickness, and crystallization temperature on the observed crystal morphology. As the blend composition was varied from 90 to 30 wt% PEO, the crystal morphology varied from spherulites to needles and dendrites. Variation of the crystallization temperature and PMMA molecular weight resulted in similar changes in morphology. A morphological map demonstrating the roles of the experimental controls on the observed crystal morphology has been developed. This map was used as a tool for more detailed studies of the observed morphologies and morphological transitions. The dendritic region of the map (~ 30 = 40 wt% PEO) was studied in detail. Changes in the diffusion length were achieved through variation of the PMMA molecular weight, and were shown to influence the secondary sidebranch spacing. Sidebranch spacing measurements revealed that coarsening of the dendritic microstructure occurred well after the competition between diffusion fields of neighboring dendrite arms vanished, indicating the existence of another coarsening mechanism. These studies of dendritic sidebranching indicate that polymer dendrites develop by mechanisms similar to those in small molecules and metals. A number of in-situ observations of morphological transitions have also been reported, including a dense-branched morphology (DBM)/dendrite transition, a DBM/stacked-needle/needle transition, and a transition from dendrites with 90o sidebranching to dendrites with 45o branching or a dense-branched morphology, both of which grow at 45o to the original dendrite trunk. The DBM/dendrite transition occurred over a range of crystallization temperatures, indicating that the transition is not sharp. Crystal growth rate measurements verified this result. The DBM/stacked-needle/needle transitions demonstrated distinct jumps in the crystal growth rate, indicating a change in the growth mechanism or direction. For the transition involving a change in the growth direction, the effective level of noise (fluctuation) was found to be important in morphological selection. The results of this work have helped to define new directions for the study of crystal morphologies, especially in the areas of spherulite formation and dendritic growth. / Ph. D. PEO Needles Spherulites Dense-Branched Morphology Dendritic Growth Dendrites Polymer Blends Morphological Map Morphological Transitions Polymers Morphology Thin Films Crystallization
7	Mobilité moléculaire dans des systèmes polymères complexes anisotropes et confinés / Molecular dynamics in complex polymer systems : from anisotropy to confinement effects Monnier, Xavier 03 October 2017 (has links) L’objet de ce travail est d’étudier l’influence de l’anisotropie structurale, induite lors de la mise en forme d’un Polylactide (PLA), sur les dynamiques moléculaires de la phase amorphe. Deux procédés de mise en oeuvre sont retenus : l’électrofilage et la cristallisation induite par flux. Le premier permet d’aboutir à un système non-cristallin, lorsque le deuxième permet d’aboutir à un système semi-cristallin. Pour chaque système, une étude microstructurale est préalablement réalisée pour mettre en avant l’anisotropie structurale induite lors de la mise en oeuvre. Pour ce faire différentes techniques d’analyses sont utilisées : microscopie optique, microscopie électronique, diffraction des rayons X, calorimétrie à balayage différentielle (DSC) et calorimétrie à balayage rapide (FSC). L’utilisation de la FSC s’avère précieuse. Du fait des vitesses extrêmement rapide (1000 K.s-1) et de la diminution importante de la masse (dizaine de nanogrammes), la transition vitreuse et la cinétique de vieillissement physique sont au préalable étudiées dans le cas d’un PLA amorphe. Il est montré que les vitesses de refroidissement atteignable en FSC permettent d’accélérer les cinétiques de vieillissement physique. Les dynamiques moléculaires sont ensuite étudiées à travers le concept de coopérativité et le phénomène de vieillissement physique. Il est montré que l’orientation préférentielle induite dans le système non-cristallin aboutit à la formation de mésophase qui augmente la coopérativité, autrement dit les interactions intermoléculaires. Dans le cas du système semi-cristallin, les dynamiques moléculaires sont influencées par le couplage amorphe/cristal et le confinement des cristaux, et non pas par l’anisotropie structurale induite avant cristallisation. / The aim of this work is to investigate the molecular dynamics of Polylactide (PLA) subjected to structural anisotropy during its processing. To do so, two experimental set-ups were used: electrospinning and flow induced crystallization. The first one leads to non-crystalline system, while the second one leads to semi-crystalline system. For each system, the microstructure is investigated to highlight the structural anisotropy induced during the processing. Different experimental techniques are used: optical microscopy, electronic microscopy, X-ray diffraction, differential scanning calorimetry (DSC) and fast scanning calorimetry (FSC). FSC proves to be useful. Due to the high scanning rates (1000 K.s-1) and the decrease of the sample mass (few tens of nanogrammes), glass transition and physical aging kinetics are beforehand investigated in the case of a wholly amorphous PLA. It is shown that high cooling rates available by FSC allow to accelerate physical aging kinetics. Molecular dynamics are then investigated through concept of cooperativity and phenomenon of physical aging. It is shown that preferential orientation induced during electrospinning leads to the formation of mesophase, which increase cooperativity, namely the intermolecular interactions. With regard to semi-crystalline system, molecular dynamics are only affected by the coupling between amorphous/crystal and the confinement effect of the crystals, rather than the structural anisotropy induced before the crystallization step. Polylactide Nanofibres Sphérolites Cristallisation induite par flux Transition vitreuse Vieillissement physique Calorimétrie à balayage rapide Polylactide Nanofibers Spherulites Flow-induced crystallization Glass transition Physical aging Fast scanning calorimetry 539.1
8	Curvy polymer crystals : Why crystalline lamellae twist during growth / Cristaux de polymères courbe : Pourquoi Twist lamelles cristallines pendant la croissance Rosenthal, Martin 01 July 2010 (has links) Pour comprendre l'origine de la torsion lamellaire dans le poly(triméthylène téréphtalate), PTT, une étude a été entrepris sur la structure des sphérolites à bandes de PTT en utilisant la micro-diffraction des rayons-X sur une source synchrotrone. Nous avons démontré que les pics de diffraction de la maille triclinique de PTT révèlent une variation périodique de l'intensité en fonction de la distance jusqu'au centre sphérolitique lorsque nous effectuons un balayage avec un micro-faisceau de rayons X. Cela indique que la torsion lamellaire est strictement uniforme et régulière. Celte derrière observation est plus compatible avec le modèle expliquant la torsion comme résultat de contraintes surfaciques que des dislocations-vis géantes. En outre, les données expérimentales montrent que les polymères achiraux ne sont pas indifférents par rapport à l'inversion de la chiralité lamellaire, et que le changement de la chiralité est nécessairement accompagné d'un changement de signe du vecteur de croissance. En plus, nous avons observé que l'inclinaison globale de la chaîne (c'est à dire, l'inclinaison du paramètre c de la maille dans le plan perpendiculaire à la direction de la croissance rapide) n'affecte pas la vitesse et le sens de la torsion. Cela remet en question la seconde hypothèse du modèle de Keith et Padden. Par contre, l'inclinaison des segments de la chaine à l'interface du cristal lamellaire peut être identifiée comme le facteur clé déterminant les contraintes superficielles qui provoquent la torsion lamellaire. Avec la variation de l'épaisseur du cristal la chiralité lamellaire change, ce qui dû au changement de l'angle des segments polymères à l'interface. / To address the origin of the lamellar twisting in polytrimethylene terephthalate (PTT) an in-depth micro-focus X-ray scattering study was correlated to the data derived using conventional polarized optical microscopy to study the banded spherulite texture for PTT. It is shown that the diffraction peaks of the triclinic lattice of PTT show a periodical pattern as a function of the distance from the spherulite center when scanned with the micro focus X-ray beam. This indicates that the lamellar twist has a strictly uniform and regular nature. The latter observation is more compatible with the model explaining the twist as a result of unbalanced surface stresses than the giant screw dislocations. Moreover, the data shows that achiral polymers are in fact not indifferent to the inversion of the lamellar handedness, and that a change in handedness is necessarily accompanied by a change in the sign of the growth vector. At the same time, we show that the overall chain tilt (i.e., the inclination of the c-parameter of the unit cell in the plane perpendicular to the fast growth direction) does not affect the rate and sense of twisting. This calls into question the second premise of the KP-mod el. Instead, the local inclination of the terminal segment of the crystalline stem protruding the lamellar surface can be identified as the origin of the surface stresses and forcing the lamellar ribbon to twist. With the variation of the crystal thickness as a function of crystallization temperature the angle and direction of this segment is changed, resulting in a change of the lamellar ribbon chirality. Sphérulites de polymère bagués Torsion lamellaire Cristallisation Polymères semi-cristallins Diffraction des rayons X Poly (triméthylène téréphtalate) Banded polymer spherulites Lamellar twisting Crystallization Semicrystalline polymers X-ray scattering Polytrimetylene terephthalate 540
9	Systèmes vésiculaires colloïdaux pour la vectorisation de la 1-β-D-arabinofuranosylcytosine Simard, Pierre 08 1900 (has links) La 1-β-D-arabinofuranosylcytosine (ara-C) demeure l’agent anticancéreux principalement utilisé dans le traitement de la leucémie myéloblastique aiguë (LMA), malgré sa dégradation et son élimination rapide après une administration parentérale. Son encapsulation dans des vecteurs pharmaceutiques, majoritairement des liposomes, a permis de surmonter ces inconvénients. L’objectif général de ce projet de doctorat était de développer deux systèmes à libération prolongée, à base de phospholipides, de cholestérol et de poly(éthylène glycol) (PEG) afin d’encapsuler l’ara-C et ultimement, d’améliorer son efficacité dans le traitement de la LMA. Des Sphérulites® (vésicules multilamellaires d’un type particulier) ont d’abord été étudiées pour leur forte capacité d’encapsulation, due à leur mode de préparation. Par la suite, une formulation liposomale capable, d’une part de cibler spécifiquement les cellules leucémiques et, d’autre part, de promouvoir la libération intracellulaire de l’ara-C grâce à sa sensibilité au pH, a été mise au point. Les deux formulations se devaient d’avoir un faible diamètre, une stabilité en présence de fluides biologiques et des temps de circulation prolongés chez l’animal. Une préparation de Sphérulites®, composée de Phospholipon 90G, de Solutol HS15 et de cholestérol, a permis d’obtenir des vésicules de 300 nm de diamètre. Un dérivé lipidique de PEG a pu être fixé à leur surface, sans modifier la disposition concentrique des lamelles, ni changer leur stabilité. Les Sphérulites® PEGylées ont été chargées d’ara-C et injectées chez le rat par la voie intraveineuse. Elles ont démontré des temps de circulation significativement prolongés comparativement aux Sphérulites® sans PEG. Cependant, l’ara-C s’est retrouvée éliminée de la circulation sanguine très rapidement, révélant une libération précoce du principe actif à partir de ces vésicules. Les liposomes sensibles au pH (~150 nm) ont été obtenus suite à l’insertion d’un copolymère à base de dioctadécyle, de N-isopropylacrylamide (NIPAM) et d’acide méthacrylique. L’anticorps anti-CD33, soit complet soit son fragment Fab’, a été fixé à la surface des liposomes afin de cibler les cellules leucémiques. Les essais in vitro ont démontré la spécificité de la formulation pour différentes cellules leucémiques (CD33+), sa stabilité en présence de protéines plasmatiques et la libération intracellulaire d’un marqueur fluorescent et de l’ara-C. Enfin, des études menées chez la souris saine et immunodéprimée inoculée de cellules HL60 ont montré que la formulation exposant le fragment Fab’ possédait un profil pharmacocinétique et une biodistribution semblables à ceux des liposomes contrôles non-ciblés. L’encapsulation de l’ara-C a permis d’améliorer grandement ses temps de circulation après une administration intraveineuse. Cependant, bien que les immunoliposomes ont permis de prolonger la survie des souris leucémiques comparativement à l’ara-C libre, l’addition du polymère sensible au pH n’a pas permis d’apporter de réel avantage à la formulation lorsque administrée in vivo. Les résultats obtenus dans ce travail de thèse ont, dans un premier temps, mis en évidence que les Sphérulites® pourraient s’avérer utiles dans la vectorisation d’agents anticancéreux si leur capacité à retenir le principe actif in vivo était améliorée. Dans un second temps, les données présentées avec les immunoliposomes suggèrent qu’ils pourraient apporter un bénéfice notable dans le traitement de la LMA. / Despite its rapid degradation and fast elimination in vivo, 1-β-D-arabinofuranosylcytosine (ara-C) is the main anticancer agent used in the treatment of acute myeloid leukemia (AML). The encapsulation of this drug into nanocarriers such as liposomes has been shown to improve its stability, pharmacokinetic profile and, consequently, the treatment efficacy. The purpose of this doctoral work was to develop two nanocarriers employing phospholipids, cholesterol and poly(ethylene glycol) (PEG) to encapsulate ara-C, with the ultimate goal of developing more efficient treatments for AML. The first formulation relied on Spherulites®, which are multilamellar vesicles possessing high entrapment yields due to their fabrication method. In a second part, pH-sensitive immunoliposomes were optimized to target specifically the leukemia cells and promote the release of the loaded ara-C at the desired intracellular site. Both formulations required a small diameter, stability in the presence of biological fluids and long circulation time properties when injected intravenously. An optimized formulation of Spherulites® was developed. It was composed of Phospholipon 90G, Solutol HS15 and cholesterol. The vesicles (300 nm) were able to accommodate PEG-lipid derivatives at their surface without altering their concentric lamellar shape and their in vitro stability. The PEGylated Spherulites® were loaded with ara-C and injected intravenously into rats. The surface-modified vesicles exhibited longer circulation times compared to uncoated Spherulites®. However, most of the loaded-drug was cleared from the systemic circulation very rapidly, reflecting rapid leakage of ara-C from the vesicles. The pH-sensitive immunoliposomes (~150 nm) were obtained by including a terminally-alkylated copolymer made of dioctadecyl, N-isopropylacrylamide (NIPAM) and methacrylic acid in the liposome bilayer. The whole monoclonal antibody anti-CD33 or its Fab’ fragment were grafted on liposomes to target leukemic cells. In vitro assays revealed that this formulation was really specific for the various CD33+ leukemic cell lines, stable in presence of blood proteins, and able to promote the intracellular release of an encapsulated fluorescent probe as well as ara-C. In vivo studies in naïve Balb/c and immunodeprimed (SCID) mice inoculated with HL60 cells confirmed that the anti-CD33 Fab’ targeted formulation possessed pharmacokinetic and biodistribution profiles similar to those of the non-targeted liposomes. The encapsulation of ara-C in this formulation improved substantially its circulation time after intravenous injection. However, although ara-C-loaded immunoliposomes were able to prolong the survival of leukemic mice compared to the free drug, the addition of pH-sensitive polymer did not add any benefit to the formulation. Although these formulations require some optimization, the first part of this work pointed out that Spherulites® could be used to deliver anticancer agents provided that leakage is reduced in vivo. On the other hand, the data obtained with the targeted immunoliposomes suggest that these carriers could be beneficial in the treatment of AML. Leucémie myéloblastique aiguë Immunoliposomes sensibles au pH Sphérulites® N-isopropylacrylamide Libération contrôlée Anticorps monoclonal Récepteur CD33 ara-C Fragment Fab’ Pharmacocinétique Acute myeloid leukemia pH-sensitive immunoliposomes Controlled release Monoclonal antibody CD33 receptor Fab’ fragments Pharmacokinetic Spherulites®
10	Systèmes vésiculaires colloïdaux pour la vectorisation de la 1-β-D-arabinofuranosylcytosine Simard, Pierre 08 1900 (has links) No description available. Leucémie myéloblastique aiguë Immunoliposomes sensibles au pH Sphérulites® N-isopropylacrylamide Libération contrôlée Anticorps monoclonal Récepteur CD33 ara-C Fragment Fab’ Pharmacocinétique Acute myeloid leukemia pH-sensitive immunoliposomes Controlled release Monoclonal antibody CD33 receptor Fab’ fragments Pharmacokinetic Spherulites®

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