Ultrafiltration membranes from waste polyethylene terephthalate and additives: synthesis and characterization

The synthesis and characterization of asymmetric ultrafiltration membranes from recycled polyethylene terephthalate (PET) and polyvinylpyrrolidone (PVP) is reported. PET is currently used in many applications, including the manufacture of bottles and tableware. Monomer extraction from waste PET is expensive, and this process has not yet been successfully demonstrated on a viable scale. Hence, any method to recycle or regenerate PET once it has been used is of significant importance from scientific and environmental research viewpoints. Such a process would be a green alternative due to reduced raw monomer consumption and the additional benefit of reduced manufacturing costs. The membranes described here were prepared by a phase-inversion process, which involved casting a solution containing PET, m-cresol as solvent, and polyethylene glycol (PEG) of different molecular weights as additives. The membranes were characterized in terms of pure water permeability (PWP), molecular weight cut-off (MWCO), and flux and membrane morphology. The results show that the addition of PEG with high molecular weights leads to membranes with higher PWP. The presence of additives affects surface roughness and membrane morphology.

Uso de polímeros em formulações para preservação de Pectobacterium atrosepticum e Ralstonia solanacearum

A sobrevivência de Pectobacterium atrosepticum e de Ralstonia solanacearum foi avaliada em veículo à base de goma xantana (GX), um polímero biológico, e de goma xantana acrescida de polivinilpirrolidona (PVP), um polímero sintético. As culturas, após crescimento até 10(11) ufc mL-1 foram injetadas junto a essas formulações e a sobrevivência avaliada em diferentes condições de armazenamento: em temperatura ambiente, em refrigerador (4ºC) e em freezer (-20ºC), por 36 meses. A concentração de células viáveis foi realizada através de diluições seriadas. A patogenicidade foi avaliada em plantas hospedeiras e em iscas. Os resultados permitem observar que a concentração de células viáveis decresceu ao longo do tempo, mantendo-se entre 10³ e 10(4) ufc mL-1 ao final de três anos, exceto para a formulação à base de GX e armazenamento à -20°C, que se mostrou ineficiente para ambas as bactérias. Conclui-se, que os polímeros avaliados mostraram-se eficientes em preservar e manter as características bioquímicas e fisiológicas das bactérias Pectobacterium atrosepticum e de Ralstonia solanacearum.

Influência do modo de acondicionamento de miniestacas no enraizamento de clones de Eucalyptus grandis x E. urophylla

Este estudo teve como objetivo avaliar a influência do modo de acondicionamento de miniestacas no processo de enraizamento de quatro clones de Eucalyptus grandis x E. urophylla. As miniestacas foram coletadas no minijardim clonal conduzido em sistema de hidroponia em canaletas. O delineamento experimental utilizado foi o inteiramente casualizado, em arranjo fatorial 5 x 4, constituído de cinco tratamentos (acondicionamento das miniestacas em posição horizontal no recipiente, em posição vertical na vermiculita, em posição vertical na vermiculita+carvão ativado, em posição vertical na vermiculita+Phytus e em posição vertical na vermiculita+PVP) e quatro clones, em quatro repetições e parcelas compostas de 16 plantas/repetição. Foram realizadas avaliações na casa de vegetação, casa de sombra e a pleno sol, quanto ao porcentual de enraizamento, altura, diâmetro de colo e massa seca da parte aérea e radicular das miniestacas enraizadas. Concluiu-se que os melhores resultados foram obtidos com o acondicionamento das miniestacas em posição vertical na vermiculita, podendo ser associado com PVP, conforme o clone.

Ultrastructural calli analysis of Inga vera Willd. subsp. Affinis (DC.) T.D. Penn

Subcellular changes are relevant to understand plant organogenesis and embryogenesis in the early stages of cell development. The cytology during cell development in tissue culture is however still poorly characterized. This study aimed to characterize the ultrastructural differences related to callogenesis of anthers, ovaries, leaf and nodal segments of Inga vera Willd. subsp. Affinis (DC.) T.D. Penn. Flower buds, nodal segments and leaves were disinfected and inoculated in test tubes containing MS medium with 3% sucrose and 4.5µM 2.4-D, except for leaf callogenesis, where 9µM of this auxin was used, and for the callogenesis of anthers and ovaries, where the culture medium was enriched with 0.25% activated charcoal and 90µM PVP. After 45 days in culture medium, the anther, ovary, leaf and nodal segment calli were fixed in Karnovisky and prepared for visualization by scanning and transmission electron microscopy. Ultrastructural differences were observed among the callus cells of anthers, ovaries, segments and leaves. There was no evidence of somatic embryo formation in the anther, leaf and nodal segment calli, in spite of some embryogenic characteristics in the cells. The ovary calli, with indications of embryo formation, seem to be the most responsive explant source for embryogenesis.

Efeito de antioxidantes no enraizamento de miniestacas de clones de Eucalyptus grandis x E. urophylla

Este estudo teve como objetivo avaliar a eficiência dos antioxidantes ácido ascórbico, carvão ativado e polivinilpirrolidona (PVP) no enraizamento de miniestacas de quatro clones de Eucalyptus grandis x E. urophylla. As miniestacas foram coletadas em minijardim clonal desenvolvido em sistema de hidroponia em canaletas. Experimentalmente, foram testadas cinco concentrações de ácido ascórbico, quatro de carvão ativado e sete de PVP, nos quatro clones estudados. Foram realizadas avaliações quanto ao porcentual de enraizamento e crescimento das miniestacas enraizadas em casa de vegetação, casa de sombra e pleno sol. Concluiu-se que as respostas dos clones à aplicação dos antioxidantes ácido ascórbico, carvão ativado e PVP foram variadas e específicas, indicando efeito genotípico (clone) quanto às características avaliadas.

Extração de DNA genômico de tecidos foliares maduros de espécies nativas do cerrado

Grandes quantidades de contaminantes na amostra de DNA dificultam a obtenção de DNA genômico de qualidade durante a extração. A presença de polissacarídeos, fenóis e outros compostos secundários representa o principal problema com o procedimento de isolamento do DNA e sua aplicação subsequente, por inibir a atividade das enzimas Taq DNA polimera-se e enzimas de restrição. Neste estudo, descreveu-se um procedimento modificado baseado no hexadecyltrimethylammonium (CTAB), rendendo DNA genômico satisfatório para técnicas de manipulação subsequente, como reações de PCR e digestão com enzima de restrição. Nesse protocolo foram utilizadas diferentes concentrações de β-mercaptoetanol no tampão de extração (0,0; 0,2; 10; 15; 25; e 50 uL de β-mercaptoetanol/mL do tampão de extração: 100 mM de Tris-HCl, pH 8; 20 mM de EDTA; 1,4 mM de NaCl; 2% de CTAB; 1% de PVP), cujo procedimento foi aplicado no caso de folhas maduras e testado em Annona crassiflora (arati-cum), Eugenia dysenterica (cagaita), Anacardium humilis (caju-do-campo), Hancornia speciosa (mangaba) e Caryocar brasiliense (pequi). O protocolo foi eficiente no isolamento de DNA livre de polissacarídeos e polifenóis, com rendimento do DNA com alto peso molecu-lar, utilizando-se concentrações a partir de 1% de β-mercaptoetanol no tampão de extração. O DNA isolado por esse método mostrou alta pureza, de acordo com as análises de digestão por restrição e amplificação por PCR.

Efeito do tratamento térmico e enzimático nas propriedades de filmes de gelatina

Dentre os fatores que afetam a atividade da enzima transglutaminase, a temperatura de reação ou incubação é um fator determinante no grau de reticulação. Por outro lado, para a gelatina, tipicamente a rede estrutural polimérica é estabilizada por forças secundárias, sendo que a formação da matriz polimérica envolve um delicado balanço entre interações polímero-polímero e polímero-solvente, e este balanço é fortemente dependente do histórico térmico da solução. Desta forma, o objetivo deste trabalho foi avaliar o efeito da temperatura na reação de modificação enzimática em relação às propriedades funcionais dos filmes modificados à base de gelatina (propriedades mecânicas, de barreira ao vapor de água, solubilidade em água e parâmetros de cor dos filmes). Viscosidade aparente das soluções filmogênicas foram também avaliadas. Foram produzidos filmes denominados nativo (FN), modificado enzimaticamente (FME) e termicamente tratado (FC). De acordo com os resultados obtidos, observou-se que a temperatura de reação não afetou as propriedades mecânicas e a solubilidade dos diferentes filmes estudados. Por outro lado, filmes modificados enzimaticamente (FME) na temperatura de 50 °C apresentaram permeabilidade ao vapor de água significantemente inferior aos produzidos nas demais temperaturas e tratamentos (FN e FC). O tratamento térmico também provocou redução da permeabilidade ao vapor de água.

Pearl millet seed pelleting

The pearl millet seed is small and its size varies, making sowing more difficult. The pelleting technique increases and homogenizes seed size, but it is essential to determine the physical and physiological characteristics of pelleted seeds. The physiological analysis consisted of: first germination count, final germination, speed emergence index, and seedling emergence. Physical analysis consisted of determining the 1000-seed weight, 1000-seed volume and fragmentation. The control treatment did not receive any coating, and the other 36 treatments combined four binders: bentonite, polyvinyl acetate (PVA), polyvinylpyrrolidone (PVP) and methyl cellulose (Methocel®), and nine powder coating products: microcellulose, plaster, vermiculite, magnesium thermophosphate (Yoorin®), phytic acid, dicalcium phosphate, super simple phosphate (SS), monoamonic phosphate (MAP) and reactive phosphate. Among the materials used to form the pearl millet pellet, the most efficient binders were the polyvinyl acetate and the methyl cellulose, and as coaters, the vermiculite and the microcellulose.

Mise au point de nanoparticules polymères pour l'administration parentérale d'agents anticancéreux hydrophobes

Plusieurs agents anticancéreux très puissants sont caractérisés par une solubilité aqueuse limitée et une toxicité systémique importante. Cette dernière serait liée d’une part à la solubilisation des agents anticancéreux à l’aide de surfactifs de bas poids moléculaire, connus pour leur toxicité intrinsèque, et d’autre part, par le manque de spécificité tissulaire des anticancéreux. Les vecteurs colloïdaux à base de polymères permettraient de résoudre certains défis liés à la formulation d’agents anticancéreux hydrophobes. D’abord, les polymères peuvent être sélectionnés afin de répondre à des critères précis de compatibilité, de dégradation et d’affinité pour le médicament à formuler. Ensuite, le fait d’encapsuler l’agent anticancéreux dans un vecteur peut améliorer son efficacité thérapeutique en favorisant son accumulation au niveau du tissu cible, i.e. la tumeur, et ainsi limiter sa distribution au niveau des tissus sains. Des travaux antérieurs menés au sein de notre laboratoire ont mené à la mise au point de micelles à base de poly(N-vinyl-pyrrolidone)-bloc-poly(D,L-lactide) (PVP-b-PDLLA) capables de solubiliser des agents anticancéreux faiblement hydrosolubles dont le PTX. Ce dernier est commercialisé sous le nom de Taxol® et formulé à l’aide du Crémophor EL (CrEL), un surfactif de bas poids moléculaire pouvant provoquer, entre autres, des réactions d’hypersensibilité sévères. Bien que les micelles de PVP-b-PDLLA chargées de PTX aient démontré une meilleure tolérance comparée au Taxol®, leur potentiel de ciblage tumoral et leur efficacité thérapeutique étaient similaires à la forme commerciale à doses égales. Ceci était possiblement dû au fait que les micelles étaient rapidement déstabilisées et ne pouvaient retenir leur cargo suite à leur administration intraveineuse. Nous avons donc décidé de poursuivre les travaux avec un autre type de vecteur, soit des nanoparticules, qui possèdent une stabilité intrinsèque supérieure aux micelles. L’objectif principal de cette thèse de doctorat était donc de mettre au point des nanoparticules polymères pour l’administration parentérale d’agents anticancéreux faiblement solubles dans l’eau. Les nanoparticules devaient permettre d’encapsuler des agents anticancéreux hydrophobes et de les libérer de manière contrôlée sur plusieurs jours. De plus, elles devaient démontrer un temps de circulation plasmatique prolongée afin de favoriser l’accumulation passive du médicament encapsulé au niveau de la tumeur. La première partie du travail visait à employer pour la première fois le copolymère amphiphile PVP-b-PDLLA comme émulsifiant dans la préparation de nanoparticules polymères. Ainsi, une méthode de fabrication des nanoparticules par émulsion huile-dans-eau a été appliquée afin de produire des nanoparticules à base de PDLLA de taille inférieure à 250 nm. Grâce aux propriétés lyoprotectrices de la couronne de PVP présente à la surface des nanoparticules, celles-ci pouvaient retrouver leur distribution de taille initiale après lyophilisation et redispersion en milieu aqueux. Deux anticancéreux hydrophobes, soit le PTX et l’étoposide (ETO), ont été encapsulés dans les nanoparticules et libérés de ces dernières de façon contrôlée sur plusieurs jours in vitro. Une procédure de « salting-out » a été appliquée afin d’améliorer le taux d’incorporation de l’ETO initialement faible étant donnée sa solubilité aqueuse légèrement supérieure à celle du PTX. Le second volet des travaux visait à comparer le PVP comme polymère de surface des nanoparticules au PEG, le polymère le plus fréquemment employé à cette fin en vectorisation. Par le biais d’études d’adsorption de protéines, de capture par les macrophages et de biodistribution chez le rat, nous avons établi une corrélation in vitro/in vivo démontrant que le PVP n’était pas un agent de surface aussi efficace que le PEG. Ainsi, malgré la présence du PVP à la surface des nanoparticules de PDLLA, ces dernières étaient rapidement éliminées de la circulation sanguine suite à leur capture par le système des phagocytes mononucléés. Par conséquent, dans le troisième volet de cette thèse, le PEG a été retenu comme agent de surface, tandis que différents polymères biodégradables de la famille des polyesters, certains synthétiques (PDLLA et copolymères d’acide lactique/acide glycolique), d’autres de source naturelle (poly(hydroxyalkanoates)(PHAs)), ont été investiguées comme matériaux formant le cœur des nanoparticules. Il en est ressorti que les propriétés physicochimiques des polyesters avaient un impact majeur sur l’efficacité d’encapsulation du PTX et son profil de libération des nanoparticules in vitro. Contrairement aux PHAs, les polymères synthétiques ont démontré des taux d’incorporation élevés ainsi qu’une libération contrôlée de leur cargo. Des études de pharmacocinétique et de biodistribution ont démontré que les nanoparticules de PDLLA dotées d’une couronne de PEG conféraient un temps de circulation plasmatique prolongé au PTX et favorisaient son accumulation tumorale. Les nanoparticules polymères représentent donc une alternative intéressante au Taxol®.

Multiple morphologies of gold nano-plates by high-temperature polyol syntheses

High-temperature polyol methods were used to fabricate micro- or nano-sized gold plates. 1,2propanediol served as both medium and reducing agent. Triangular plates and polygonal plate shapes derived from triangular prisms as well as pentagonal structured gold particles have been synthesized. Poly(vinylpyrrolidone) (PVP) plays an important role, but is not necessary, for the formation of these structures. These gold plates may have applications in the characterisation of adsorbed proteins or peptides. (C) 2008 Elsevier B. V. All rights reserved.

Disorder and dissolution enhancement: Deposition of ibuprofen on to insoluble polymers

Microcrystalline cellulose (MCC) and cross-linked polyvinylpyrrolidone (PVP-CL) were examined as polymeric carriers to support amorphous ibuprofen (IB). Drug/cartier systems were prepared as physical mixes, and drug was loaded onto the polymers by hot mix and solvent deposition methods. The systems were examined using differential scanning calorimetry (DSC), X-ray powder diffractometry (XRD) and by dissolution testing. PVP-CL reduced drug crystallinity more than MCC and, surprisingly, even very simple mixing of ibuprofen with PVP-CL induced disordering of the drug. Increased ibuprofen dissolution rates were achieved with both polymers, in the order of solvent deposition > hot mixes > physical mixes. The increased dissolution rates could be attributed to a combination of faster dissolution from amorphous ibuprofen, microcrystalline drug deposition on carrier surfaces and polymer swelling. However, no clear relationship was observed between ibuprofen dissolution rates (using first order, Higuchi or Hixson-Crowell relationships) and drug crystallinity. (C) 2005 Elsevier B.V. All rights reserved.

Polymer-mediated disruption of drug crystallinity

Ibuprofen (IB), a BCS Class II compound, is a highly crystalline substance with poor solubility properties. Here we report on the disruption of this crystalline structure upon intimate contact with the polymeric carrier cross-linked polyvinylpyrrolidone (PVP-CL) facilitated by low energy simple mixing. Whilst strong molecular interactions between APIs and carriers within delivery systems would be expected on melting or through solvent depositions, this is not the case with less energetic mixing. Simple mixing of the two compounds resulted in a significant decrease in the differential scanning calorimetry (DSC) melting enthalpy for IB, indicating that approximately 30% of the crystalline content was disordered. This structural change was confirmed by broadening and intensity diminution of characteristic IB X-ray powder diffractometry (PXRD) peaks. Unexpectedly, the crystalline content of the drug continued to decrease upon storage under ambient conditions. The molecular environment of the mixture was further investigated using Fourier transform infrared (FT-IR) and Fourier transform Raman (FT-Raman) spectroscopy. These data suggest that the primary interaction between these components of the physical mix is hydrogen bonding, with a secondary mechanism involving electrostatic/hydrophobic interactions through the IB benzene ring. Such interactions and subsequent loss of crystallinity could confer a dissolution rate advantage for IB. (C) 2006 Elsevier B.V. All rights reserved.

Effect of water-soluble polymers, polyethylene glycol and poly(vinylpyrrolidone),on the gelation of aqueous micellar solutions of Pluronic copolymer F127

The micellization of F127 (E98P67E98) in dilute aqueous solutions of polyethylene glycol (PEG6000 and PEG35000) and poly(vinylpyrrolidone) (PVP K30 and PVP K90) is studied. The average hydrodynamic radius (rh,app) obtained from the dynamic light scattering technique increased with increase in PEG concentration but decreased on addition of PVP, results which are consistent with interaction of the micelles with PEG and the formation of micelles clusters, but no such interaction occurs with PVP. Tube inversion was used to determine the onset of gelation. The critical concentration of F127 for gelation increased on addition of PEG and of PVP K30 but decreased on addition of PVP K90. Small-angle X-ray scattering (SAXS) was used to show that the 30 wt% F127 gel structure (fcc) was independent of polymer type and concentration, as was the d-spacing and so the micelle hard-sphere radius. The maximum elastic modulus (G0 max) of 30 wt% F127 decreased from its value for water alone as PEG was added, but was little changed by adding PVP. These results are consistent with the packed-micelles in the 30 wt% F127 gel being effectively isolated from the polymer solution on the microscale while, especially for the PEG, being mixed on the macroscale.

Survival analysis of cereal crop variety innovations in the UK

This paper explores the changing survival patterns of cereal crop variety innovations in the UK since the introduction of plant breeders’ rights in the mid-1960s. Using non-parametric, semi-parametric and parametric approaches, we examine the determinants of the survival of wheat variety innovations, focusing on the impacts of changes to Plant Variety Protection (PVP) regime over the last four decades. We find that the period since the introduction of the PVP regime has been characterised by the accelerated development of new varieties and increased private sector participation in the breeding of cereal crop varieties. However, the increased flow of varieties has been accompanied by a sharp decline in the longevity of innovations. These trends may have contributed to a reduction in the returns appropriated by plant breeders from protected variety innovations and may explain the decline of conventional plant breeding in the UK. It may also explain the persistent demand from the seed industry for stronger protection. The strengthening of the PVP regime in conformity with the UPOV Convention of 1991, the introduction of EU-wide protection through the Community Plant Variety Office and the introduction of royalties on farm-saved seed have had a positive effect on the longevity of protected variety innovations, but have not been adequate to offset the long term decline in survival durations.

Novel polyvinylpyrrolidones to improve delivery of poorly-water soluble drugs; from design to synthesis and evaluation

Polyvinylpyrrolidone is a widely used in tablet formulations with the linear form acting as a wetting agent and disintegrant whereas the cross-linked form is a super-disintegrant. We have previously reported that simply mixing the commercial cross-linked polymer with ibuprofen disrupted drug crystallinity with consequent improvements in drug dissolution behavior. In this study, we have designed and synthesized novel cross-linking agents containing a range of oligoether moieties which have then be polymerized with vinylpyrrolidone to generate a suite of novel excipients with enhanced hydrogen-bonding capabilities. The polymers have a porous surface and swell in most common solvents and in water; properties which suggest their value as disintegrants. The polymers were evaluated in simple physical mixtures with ibuprofen as a model poorly-water soluble drug. The results show that the novel PVPs induce the drug to become “X-ray amorphous”, which increased dissolution to a greater extent than that seen with commercial cross-linked PVP. The polymers stabilize the amorphous drug with no evidence for recrystallization seen after 20 weeks storage.