Propriedades físico-químicas de sistemas compostos por materiais celulósicos e aditivos funcionais / Physicochemical properties of systems composed of cellulosic materials and functional additives

Blachechen, Leandro Schafranski

29 October 2014

O presente estudo demonstrou que a formação de cavidades (breath figures) em filmes de CA, CAPh, CAB e CMCAB preparados por spin-coating de soluções em tetrahidrofurano (THF) foi dependente das características moleculares dos polímeros quando preparados em ambiente com umidade relativa baixa (UR 35%), enquanto que em UR mais elevadas (55% e 75%) o balanço entre a energia superficial da água, THF e energia interfacial entre água e THF foi determinante. Por outro lado, a rápida exposição (de 3 a 6 min) desses filmes ao vapor de solvente teve um efeito plastificante tornando os filmes de CAB, CAPh e CMCAB completamente lisos, enquanto que para filmes de CA foi observado o efeito dewetting. Surfactantes biocompatíveis à base de sorbitano (Tween®) foram usados como plastificantes para filmes de ésteres de celulose obtidos por evaporação de solvente. O comportamento térmico dos filmes foi dependente do tamanho da cauda hidrofóbica do surfactante, do tipo do grupo lateral dos polímeros e da composição da mistura. Tween 20 e 40 mostraram agir como um excelente plastificante para os ésteres de celulose, exceto para o CA, no qual foi imiscível. Teores baixos de Tween favoreceram a flexibilidade das cadeias de polímeros ao passo que quantidades maiores aumentaram a mobilidade molecular dos ésteres de celulose levando a variações de Tg de até 200 °C. Filmes de nanocompósitos de CAB reforçados com nanocristais de celulose (CNC) modificados com diferentes grupos funcionais (acetato e metiladipoíla) foram preparados a partir de dispersões em acetato de etila (AE), THF e N,N-dimetilformamida (DMF). A melhor estabilidade coloidal foi verificada em DMF, devido sua alta polaridade. Suspensões em AE e THF de CNC modificados foram mais estáveis do que CNC por conta das interações entre grupos substituintes e solventes. As propriedades mecânicas dos nanocompósitos, resultantes da dispersibilidade de nanocristais na matriz de CAB mostraram forte relação com a estabilidade coloidal das dispersões. Beads de celulose foram obtidos utilizando polpa pré-tratada de eucalipto, oxidados e utilizados como suporte para incorporação de um agente bactericida QPVP-C5. Bactérias de Micrococcus luteus adsorveram sobre beads oxidados e nos beads contendo baixa quantidade de QPVP-C5 adsorvido e foi observada propriedade biocida nos beads com elevada quantidade de QPVP-C5 adsorvido. Os resultados mostram o preparo de materiais celulósicos multifuncionais de baixo custo e simples preparação para aplicações em meios aquosos com a finalidade de imobilização e ação biocida frente a bactérias Gram-positivas. / The present study demonstrated that the breath figures formation in CA, CAPh, CAB and CMCAB films spin-coated from solutions in tetrahydrofuran (THF) was dependent on the polymers molecular characteristics when prepared under low relative humidity (RH 35%), whereas under higher RH (55% and 75%), the balance among water and THF surface energy and interfacial energy between water and THF was determinant. On the other hand, the short solvent vapor exposure had a plasticizer effect, making CAB, CAPh and CMCAB films completely smooth (from 3 up to 6 min), while dewetting phenomena was observed for CA films. Biocompatible sorbitan-based surfactants (Tween®) were used as plasticizer for CA, CAPh, CAB and CMCAB casted films. The thermal behavior of films was dependent on the size of surfactant hydrophobic tail, type of polymer side group and the mixture composition. Tween 20 and 40 showed act as an excellent plasticizer for cellulose esters, except for CA, which was immiscible. Low Tween content favored polymeric chains flexibility while higher content increased the cellulose esters molecular mobility leading to Tg variations up to 200 °C. CAB-based nanocomposites casted films reinforced with cellulose nanocrystals (CNC) modified with different functional groups (acetate and methyl adipoil) were prepared from dispersions in ethyl acetate (EA), THF and N,N-dimethylformamide (DMF). The best colloidal stability was verified in DMF, due its high polarity. Suspensions in EA and THF of modified CNC where more stable than unmodified CNC, regarding the interactions among substituents groups and solvents. The mechanical properties of nanocomposites stemming from nanocrystals dispersibility in the CAB matrix showed strong relationship with the colloidal stability. Cellulose beads were obtained by using pretreated Eucalyptus pulp, oxidized and used as a support for the incorporation of a biocide agent. Micrococcus luteus bacteria adsorbed onto oxidized beads and on the beads with low content of adsorbed QPVP-C5. It was observed biocide property for the beads with high QPVP-C5 content. The results show the simple preparation of low cost multifunctional cellulosic materials for applications in aqueous media for the purpose of immobilization and biocide action against Gram-positive bacteria.

Beads de celulose

Biocompatible plasticizer

Breath figures

Breath figures

Cellulose beads

Cellulose esters

Ésteres de celulose

Filmes finos

Nanocomposites

Nanocompósitos

Plastificante biocompatível

Thin filmes

Recombinant Escherichia coli producing an immobilised functional protein at the surface of bio-polyester beads : a novel application for a bio-bead : a thesis presented in partial fulfillment of the requirements of the degree of Master of Science in Microbiology at Massey University, Palmerston North, New Zealand

Atwood, Jane Adair

January 2008

Polyhydroxyalkanoates (PHAs) are polyesters, produced by many bacteria and some archaea. The most commonly characterised is polyhydroxybutyrate (PHB). Produced when nutrients are growth limiting and carbon available in excess, PHA serves as a carbon-energy storage material and forms generally spherical insoluble inclusions between 50-500nm in diameter in the cytoplasm. The key enzyme for PHA synthesis is the PHA synthase and this enzyme catalyses the polymerisation of (R)-3-hydroxy fatty acids into PHA. PHA synthase remains covalently attached to the growing polyester chain and is displayed on the surface of the PHA granule. Other proteins associated with PHA granules include depolymerases for mobilisation or degradation of granules, regulatory proteins and phasins, proteins that aid in PHA granule stability. PHA bio-beads displaying an IgG binding protein were produced and used to purify IgG from serum demonstrating that the PHA synthase can be engineered to display functional synthase fusion proteins at the PHA granule surface. Correctly folded eukaryotic proteins were also produced and displayed at the PHA granule surface as phasin fusion proteins. Multiple-functionality was also achievable by co-expression of various hybrid genes suggesting that this biotechnological bead production strategy might represent a versatile platform technology. The production of functional eukaryotic proteins at the PHA bead surface represents a novel in vivo matrix-assisted protein folding system. Protein engineering of PHA granule surface proteins provides a novel molecular tool for the display of antigens for FACS based analysis and offers promising possibilities in the development of future biotechnological production processes. Overall, the results obtained in this study strongly enhance the applied potential of these polyester beads in biotechnology and medicine.

recombinant Escherichia coli

bio-polyester beads

bio-beads

polyhydroxyalkanoates (PHAs)

polyhydroxybutyrate (PHB)

protein engineering

Entwicklung von diagnostischen Methoden zum Nachweis von europäischen humanpathogenen Arboviren / Development of diagnostic methods for the detection of European humanpathogenic arboviruses

Finkeisen, Dora Elisabeth

09 July 2014

No description available.

570

Multiplex-CBA

magnetische Beads

Antikörper-Nachweis

Serologie

Virologie

Proteinexpression

multiplex CBA

magnetic beads

antibody detection

serology

virology

protein expression

Biologie (PPN619462639)

Propriedades físico-químicas de sistemas compostos por materiais celulósicos e aditivos funcionais / Physicochemical properties of systems composed of cellulosic materials and functional additives

Leandro Schafranski Blachechen

29 October 2014

O presente estudo demonstrou que a formação de cavidades (breath figures) em filmes de CA, CAPh, CAB e CMCAB preparados por spin-coating de soluções em tetrahidrofurano (THF) foi dependente das características moleculares dos polímeros quando preparados em ambiente com umidade relativa baixa (UR 35%), enquanto que em UR mais elevadas (55% e 75%) o balanço entre a energia superficial da água, THF e energia interfacial entre água e THF foi determinante. Por outro lado, a rápida exposição (de 3 a 6 min) desses filmes ao vapor de solvente teve um efeito plastificante tornando os filmes de CAB, CAPh e CMCAB completamente lisos, enquanto que para filmes de CA foi observado o efeito dewetting. Surfactantes biocompatíveis à base de sorbitano (Tween®) foram usados como plastificantes para filmes de ésteres de celulose obtidos por evaporação de solvente. O comportamento térmico dos filmes foi dependente do tamanho da cauda hidrofóbica do surfactante, do tipo do grupo lateral dos polímeros e da composição da mistura. Tween 20 e 40 mostraram agir como um excelente plastificante para os ésteres de celulose, exceto para o CA, no qual foi imiscível. Teores baixos de Tween favoreceram a flexibilidade das cadeias de polímeros ao passo que quantidades maiores aumentaram a mobilidade molecular dos ésteres de celulose levando a variações de Tg de até 200 °C. Filmes de nanocompósitos de CAB reforçados com nanocristais de celulose (CNC) modificados com diferentes grupos funcionais (acetato e metiladipoíla) foram preparados a partir de dispersões em acetato de etila (AE), THF e N,N-dimetilformamida (DMF). A melhor estabilidade coloidal foi verificada em DMF, devido sua alta polaridade. Suspensões em AE e THF de CNC modificados foram mais estáveis do que CNC por conta das interações entre grupos substituintes e solventes. As propriedades mecânicas dos nanocompósitos, resultantes da dispersibilidade de nanocristais na matriz de CAB mostraram forte relação com a estabilidade coloidal das dispersões. Beads de celulose foram obtidos utilizando polpa pré-tratada de eucalipto, oxidados e utilizados como suporte para incorporação de um agente bactericida QPVP-C5. Bactérias de Micrococcus luteus adsorveram sobre beads oxidados e nos beads contendo baixa quantidade de QPVP-C5 adsorvido e foi observada propriedade biocida nos beads com elevada quantidade de QPVP-C5 adsorvido. Os resultados mostram o preparo de materiais celulósicos multifuncionais de baixo custo e simples preparação para aplicações em meios aquosos com a finalidade de imobilização e ação biocida frente a bactérias Gram-positivas. / The present study demonstrated that the breath figures formation in CA, CAPh, CAB and CMCAB films spin-coated from solutions in tetrahydrofuran (THF) was dependent on the polymers molecular characteristics when prepared under low relative humidity (RH 35%), whereas under higher RH (55% and 75%), the balance among water and THF surface energy and interfacial energy between water and THF was determinant. On the other hand, the short solvent vapor exposure had a plasticizer effect, making CAB, CAPh and CMCAB films completely smooth (from 3 up to 6 min), while dewetting phenomena was observed for CA films. Biocompatible sorbitan-based surfactants (Tween®) were used as plasticizer for CA, CAPh, CAB and CMCAB casted films. The thermal behavior of films was dependent on the size of surfactant hydrophobic tail, type of polymer side group and the mixture composition. Tween 20 and 40 showed act as an excellent plasticizer for cellulose esters, except for CA, which was immiscible. Low Tween content favored polymeric chains flexibility while higher content increased the cellulose esters molecular mobility leading to Tg variations up to 200 °C. CAB-based nanocomposites casted films reinforced with cellulose nanocrystals (CNC) modified with different functional groups (acetate and methyl adipoil) were prepared from dispersions in ethyl acetate (EA), THF and N,N-dimethylformamide (DMF). The best colloidal stability was verified in DMF, due its high polarity. Suspensions in EA and THF of modified CNC where more stable than unmodified CNC, regarding the interactions among substituents groups and solvents. The mechanical properties of nanocomposites stemming from nanocrystals dispersibility in the CAB matrix showed strong relationship with the colloidal stability. Cellulose beads were obtained by using pretreated Eucalyptus pulp, oxidized and used as a support for the incorporation of a biocide agent. Micrococcus luteus bacteria adsorbed onto oxidized beads and on the beads with low content of adsorbed QPVP-C5. It was observed biocide property for the beads with high QPVP-C5 content. The results show the simple preparation of low cost multifunctional cellulosic materials for applications in aqueous media for the purpose of immobilization and biocide action against Gram-positive bacteria.

Beads de celulose

Breath figures

Ésteres de celulose

Filmes finos

Nanocompósitos

Plastificante biocompatível

Biocompatible plasticizer

Breath figures

Cellulose beads

Cellulose esters

Nanocomposites

Thin filmes

Confronting the Unknown: Pain Catastrophizing, Emotion Regulation, Psychopathy, and Associations With Uncertainty / Att konfrontera det okända: Smärtkatastrofiering, känsloreglering, psykopati och deras association med osäkerhet

Björk, Gabriel, Sand, Sebastian

January 2018

Intolerance of uncertainty concerns how one views and reacts touncertainty, where one who’s highly intolerant would find it verydiscomforting when confronted with uncertain situations. The purposeof this study was to examine the associations between intolerance ofuncertainty, pain catastrophizing, emotion regulation andpsychopathic traits. These variables were to be examined in thecontext of a Beads Task and a Cold Pressor Test (CPT). Wehypothesized that there would be a positive significant associationbetween intolerance of uncertainty, pain catastrophizing, emotionregulation, psychopathic traits. We also hypothesized that there wouldbe a difference depending on the difficulty of the Beads Task. To doso, data was collected from 60 university students (32 females and 28males). The results showed that there was a significant, positiveassociation between intolerance of uncertainty, pain catastrophizing,emotion regulation and the Beads Task measurements. Some of theseresults were similar to previous studies. / Intolerans mot osäkerhet berör hur en person uppfattar och reagerarpå osäkerhet, där någon som är intolerant upplever osäkra situationersom obehagliga. Syftet med denna studie var att undersökaassociationerna mellan intolerans mot osäkerhet,smärtkatastrofiering, känsloreglering och psykopatiskapersonlighetsdrag. Dessa variabler undersöktes i sammanhang medBeads Task och ett Kallvattentest. Där några av hypoteserna var attdet finns positiva signifikanta associationer mellan intolerans motosäkerhet, smärtkatastrofiering, känsloreglering och psykopatiskapersonlighetsdrag. Vi hade också en hypotes att det kommer finnas enskillnad beroende på svårighetsgraden av Beads Task. För att göradetta samlades data in från 60 universitetsstudenter (32 kvinnor och28 män). Resultaten visade på en signifikant, positiv associationmellan intolerans mot osäkerhet, smärtkatastrofiering,känsloreglering och Beads Task-måtten. Några av dessa resultat varlikt de i tidigare studier.

intolerance of uncertainty

beads task

cold pressor test

emotion regulation

pain catastrophizing

psychopathic traits

Intolerans mot osäkerhet

Beads Task

kallvattentest

känsloreglering

smärtkatastrofiering

psykopatiska personlighetsdrag

Psychology

Psykologi

Povrchový růst a diferenciace streptomycet na inertních mikrokuličkách - morfologická a proteomová analýza / Streptomycetes surface growth and differentiation on inert microbeads- morphology and proteome study

Tesařová, Eva

January 2011

Streptomyces, filamentous Gram-positive bacteria are producers of more than 70% of antibiotics used in human therapy and agriculture. They are remarkable because of their complex life cycle (morphological differentiation) which leads to a formation of dormant spores able to survive unfavorable living conditions and allowing long-term survival of the organism. Soil represents their mostly natural living environment. In laboratory conditions they are cultivated in liquid media or on agar. We have developed in our laboratory two phase cultivation system which allows quantitative and reproducible preparation of samples for proteomic, transcriptomic and metabolomic analyses of Streptomycetes differentiation. The system is composed of inert micro- beads submerged in liquid medium. We used two types of micro-beads in our studies, glass and zirconia/silica beads. We followed the surface growth and differentiation of Streptomycetes on both types of beads using optical and electron microscopy (SEM) techniques. We observed major growth and higher antibiotic production on glass beads. Another difference we observed was in size and shape of colonies. In further research, using comparative proteomics, we attempted to identify proteins which might be responsible for recognition and adhesion of Streptomycetes to...

The adsorption of Cu(II) ions by polyaniline grafted chitosan beads.

Igberase, Ephraim

06 November 2013

M. Tech. (Department of Chemical Engineering, Faculty of Engineering and Technology), Vaal University of Technology. / This work investigates the possible use of chitosan beads and polyaniline grafted chitosan beads (PGCB) for the adsorption of copper ions from copper contaminated water. For this purpose chitosan flakes were converted to chitosan beads. However, a variable from a number of reaction variables (aniline concentration, chitosan concentration, temperature, acid concentration, reaction time and initiator concentration) was varied while others was kept constant, in an attempt to determine the best conditions for grafting of polyaniline onto chitosan beads. Percentage (%) grafting and % efficiency were key parameters used to determine such conditions. The chitosan beads and PGCB were characterized using physical techniques such as Fourier transformed infra red (FTIR), X-ray diffraction (XRD), and scanning electron microscope (SEM). The beads were used as an adsorbent for copper ions removal. The effect of pH on the removal rate of copper (II) by PGCB was investigated on by varying the pH values from pH 3 to 8 at an initial concentration of 40 mg/l. The effect of contact time, initial concentration and temperature was also investigated. The Langmuir and Freundlich model were used to describe adsorption isotherms for chitosan beads and PGCB, with correlation coefficient (R2) as the determining factor of best fit model. The thermodynamics of adsorption of copper (II) onto PGCB was described by parameters such as standard Gibb’s free energy change (ΔGo), standard enthalpy change (ΔHo), and standard entropy change (ΔSo) while the pseudo first-order and pseudo second-order kinetic model was used to describe kinetic data for the PGCB, with R2 and chi- square test (  2) as the determinant factor of best fit model. From the desorption studies, the effect of eluants (HCl and HNO3) and contact time on percentage desorption of PGCB loaded copper (II) ion was investigated upon. In determining the reusability of the PGCB loaded copper (II) ion, three cycles of adsorption/desorption studies was carried out. The results obtained from determining the best conditions for grafting polyaniline onto chitosan beads revealed the following grafting conditions; [Aniline] 0.1 g/l, [temperature] 35oC, [chitosan] 0.45 g/l, [HCl] 0.4 g/l, [(NH4)2S2O8] 0.35 g/l, and [time] 1 h. These conditions were applied in the grafting of polyaniline onto chitosan beads. FTIR analysis showed increase intensity in the grafted beads which provided evidence of grafting, XRD measurement showed a decrease in crystallinity in the PGCB as against the partial crystalline nature of chitosan. In SEM analysis, evidence of grafting was revealed by the closed gap between the polysaccharide particles in the PGCB. From the investigation carried out on the effect of pH on the percentage removal of Cu(II) ions by PGCB, the optimal pH value was found to be pH 5 with a percentage removal of 100% and this value was used for all adsorption experiment. Also from the investigation performed on the effect of contact time and initial concentration, it was observed that there was a sharp increase in the amount of Cu(II) ions adsorbed by PGCB up until contact time of 30 min and thereafter, it increases gradually. From the experiment carried out on the effect of temperature on adsorption capacity, there was an increase in adsorption capacity with increase in temperature. Moreover, at temperatures of 25oC, 35 oC and 45oC the Langmuir model gave the best fit for the chitosan beads having R2 values that are equal and greater than 0.942 in contrast to Freundlich having R2 values that is equal and greater than 0.932. The maximum adsorption capacity (Qm) from Langmuir model at these temperatures were 30.3 mg/g, 47.6 mg/g and 52.6 mg/g respectively. Also, the Langmuir model gave the best fit for the PGCB having R2 values that are equal and greater than 0.956 in contrast to Freundlich model with R2 values that is equal and greater than 0.935. The Qm from Langmuir model at these temperatures were 80.3 mg/g, 90.9 mg/g and 100 mg/g respectively. The values of Qm for PGCB appears to be significantly higher when compared to that of chitosan beads and this makes PGCB a better adsorbent than chitosan beads. From the thermodynamic studies carried out on PGCB, the values of ΔGo were negative and this denotes that the adsorption of copper ions onto PGCB is favorable and spontaneous, the positive value of ΔHo shows the adsorption process is endothermic and the positive value of ΔSo illustrate increased randomness at the solid-liquid interface during the adsorption process. Also, from the kinetic studies carried out on the PGCB, the pseudo second-order kinetic model best described the kinetic data having R2 values that are equal and greater than 0.994 in contrast to the pseudo first-order kinetic model with R2 values that is equal and greater than 0.913. The  2 values for the pseudo first-order and pseudo second-order kinetic model were similar; however, there was a large difference for qe between the calculated (qeCal) values of the first-order kinetic model and experimental (qeExp) values. In the case of the pseudo second-order model, the calculated qe values agree very well with the experimental data. Desorption of the metal ions from PGCB was efficient. 0.5 M HCl was successfully used in desorbing the beads loaded with copper ions and a percentage desorption of 97.1% was achieved at contact time of 180 min. PGCB were successfully re-used for adsorption/desorption studies were a Qm of 83.3 mg/g, 83.3 mg/g and 76.9 mg/g was achieved in the first, second and third cycle respectively.

Adsorption

Chitosan beads

Copper ions

Copper contaminated water

Dissertations, Academic -- South Africa

Adsorption

Surface chemistry

Chemical kinetics

Copper -- Metallurgy

Copper ions -- Analysis

The development of vesiculated beads

Terblanche, Johannes C.

04 1900

Thesis (MScIng)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: Vesiculated beads consist of aerated microvoids encapsulated in a solid spherical continuous polymeric shell. The difference in refractive index between the voids and polymer granules causes effective scattering of incident light on the particles, presenting it with a white appearance. The size of these beads generally range in the region of 0.5 – 40 μm, making it suitable for use as pigment extender in the surface coatings or paint industry. Currently, titanium dioxide pigment is predominantly used as opacifying agent in paint formulations, but due to the high cost associated in purchasing this pigment, as well as fluctuation in import prices, paint manufacturers are looking for alternative products to replace or at least partially replace this pigment. As an alternative, opaque vesiculated polymer particles can be produced locally at a cheaper price and in existing vessels available in the paint industry. Approximately five years ago a paint company in Mexico and member of the Nova Club, started research in developing vesiculated beads for production in their factories. However, it was found extremely difficult to scale-up the production to industrial size, since the system was very sensitive to process variables. A local paint company and member of the Nova Club acquired this technology and continued further research in developing vesiculated beads on large scale in existing Cowles disperser systems found in the paint industry. The beads consist mainly of an organic phase comprising of unsaturated carboxylated polyester and styrene. A polyamine is also added to assist the formation of vesicles in the organic phase. This phase is slowly added under agitation to an aqueous phase consisting of deionised water, a thickener and colloid stabilisers to form an oil-inwater emulsion. Agitation is continued for a specified period of time, also known as the emulsification period, to allow sufficient time for the organic globules to break-up to smaller particle sizes. These globules are subsequently catalysed with a freeradical initiator and redox activator and left static overnight to allow formation of the solid beads. To determine the most important process parameters during production of vesiculated beads, a fully integrated laboratory scale Cowles reactor system was designed and constructed, geometrically analogous to the vessels found in the paint industry. The system measures and controls production temperature, mixing speed and component addition rates. Production runs were performed where various process parameters were varied to investigate the effect on properties, which include average particle size and particle size distribution, pH, viscosity and opacity. The most important process parameters that were found to play a significant role include production temperature, organic phase addition rate, emulsification time, the Cowles impeller diameter and mixing speed. Production runs were performed in geometrically similar 5l and 20l vessels on the laboratory-scale system to investigate the effect of scale-up. A model presented by Klein et al. (1996) was used as basis for describing the average particle size as a function of mixing speed, impeller diameter, vessel diameter and emulsification time. The applicability of this model was tested on average particle size data obtained from industrial scale runs performed on the plants and proved to be reasonably accurate. / AFRIKAANSE OPSOMMING: Sferiese polimeerpartikels met klein lugholtes vasgevang in ‘n harde omhulsel word al jare in die verf industrie aangewend as pigment. Weens die verskil in brekingsindeks tussen die soliede polimeerpartikel en die vasgevange lugholtes, word invallende lig versprei op so ‘n manier dat die partikels ondeursigtig (of wit) voorkom. Hierdie partikels kan geproduseer word met deursneë wat strek van 0.5 – 40 μm, wat dit geskik maak vir gebruik in verf formulasies. Tans word titaandioksied poeier hoofsaaklik gebruik in verf as pigment, maar weens die hoë koste van die invoer en aankoop van hierdie produk, het verfmaatskappye begin soek na goedkoper alternatiewe. Aangesien hierdie ondeursigtige polimeerpartikels plaaslik goedkoper vervaardig kan word in bestaande mengvate beskikbaar in verf aanlegte, dien dit as moontlike plaasvervanger. Ongeveer vyf jaar gelede het ‘n Mexikaanse verfmaatskappy, wat lid is van die Nova Klub, navorsing begin doen om hierdie polimeerpartikels in hul fabrieke te produseer. Dit was egter vir hulle onmoontlik om die produksie op te skaal na industriële vervaardiging aangesien die proses baie sensitief was vir produksieveranderlikes. Sekere eienskappe soos die gemiddelde partikelgrootte, partikelverspreiding, pH, viskositeit en deursigtigheid van die partikels kon nie van lot tot lot herhaal word nie en verdere navorsing is gestaak. ‘n Plaaslike verfmaatskappy (ook lid van die Nova Klub) het die tegnologie oorgeneem en die proses verder ontwikkel. Die proses is aangepas sodat “Cowles” mengers, wat wydverspreid in die verf industrie beskikbaar is, gebruik kan word om dit te vervaardig. Die partikels bestaan hoofsaaklik uit ‘n organiese fase wat ‘n onversadigde gekarboksileerde poliëster en stireen insluit. ‘n Poli-amien word ook bygevoeg en is verantwoordelik vir die vorming van die lugholtes in die partikels. Hierdie fase word stadig onder menging by ‘n tweede water fase, bestaande uit gedeïoniseerde water, ‘n verdikker en kolloïdale stabiliseerders gevoeg om ‘n olie-in-water emulsie te vorm. Menging word voortgesit vir ‘n bepaalde emulsifiseringsperiode om die oliedruppels verder op te breek. Gevolglik word hierdie druppels gekataliseer met ‘n vry-radikaal inisieerder en redoksaktiveerder en oornag staties gelos om vorming van die soliede partikels toe te laat. Aangesien eienskappe van die polimeerpartikels so sensitief is vir prosesveranderlikes, is besluit om aanvanklik ‘n ten volle geïntegreerde laboratorium skaal “Cowles” reaktorsisteem te ontwerp en bou. Hierdie sisteem is geometries gelykvormig aan die mengvate wat in verffabrieke gevind word. Die produksietemperatuur, stuwergrootte, mengspoed en materiaal toevoertempo kan effektief gemeet, verstel en beheer word. Eksperimentele lopies is gedoen en die effek van verskeie produksieveranderlikes op eienskappe is ondersoek. Die belangrikste veranderlikes wat die proses beïnvloed, is die emulsifiseringstemperatuur, die toevoertempo van die organiese fase, emulsifiseringsperiode, stuwerdeursnit en mengspoed. Eksperimentele lopies is gedoen op twee geometriese gelykvormige mengvate (5l en 20l kapasiteit) om die effek van opskaling op eienskappe te ondersoek. ‘n Model wat deur Klein et al. (1996) voorgestel is, is as basis gebruik om die gemiddelde partikelgrootte te bepaal as ‘n funksie van mengspoed, stuwerdeursnit, mengvat deursnit en emulsifiseringstyd. Hierdie model is getoets op partikelgrootte data wat verkry is van groot industriële skaal lopies uitgevoer in die fabrieke onder bekende produksie kondisies en daar is gevind dat hierdie model bevredigend gebruik kan word om die gemiddelde partikelgrootte te voorspel.

Aqueous polymeric coatings

Polymeric beads

Synthetic opacifiers

Aerated microvoids

Theses -- Process engineering

Dissertations -- Process engineering

APPLICATIONS OF HEAVY ISOTOPE RESEARCH TO ARCHAEOLOGICAL PROBLEMS OF PROVENANCE AND TRADE ON CASES FROM AFRICA AND THE NEW WORLD

Fenn, Thomas

January 2011

Applications of lead and strontium isotope analysis were made on archaeological materials from three different contexts in both the Old and New Worlds. These materials comprised pre-Hispanic glaze painted ceramics from Arizona, U.S.A., glass beads from late first millennium AD Igbo-Ukwu, Nigeria, and copper-based metals from early first millennium AD Kissi, Burkina Faso. All materials contain lead at major, minor, or trace concentrations, and lead isotope analysis was employed to determine a provenance for that lead. Strontium isotope analysis also was applied to glass beads from Igbo-Ukwu to determine provenance(s) for strontium found in the glass. Furthermore, application of elemental composition analysis was or had been employed on all samples for additional data comparisons within assemblages and with comparable archaeological materials.Results of these analyses determined, in most cases, regional provenance with high degrees of confidence for lead contained in the analyzed samples. Strontium and elemental composition analysis data also proved valuable in confirming the regional provenance of the raw glass used to produce the glass beads. Leads in the glaze paints from Arizona, which demonstrated a range of resources exploitation, were confidently restricted to a few regions for their procurement. Likewise leads in most glass beads from Igbo-Ukwu were confidently restricted to two main source regions, with a third strong contender also being identified. The elemental composition and strontium isotope data determined with confidence the production regions for the primary raw glasses used to make the glass beads. Finally, leads in copper-based metals from Burkina Faso also were restricted to a few regions, although some inconclusiveness in provenance determination was attributed to mixing of metals from difference sources.These results confirm the utility of heavy isotope analysis of archaeological materials for provenance determination. The combination of these data with elemental composition analyses further confirm the interpretive strength of combining independent but related sets of analytical data for exploring questions of archaeological provenance. With improvements in instrument technology and application in the past two decades, very high precision and high accuracy analyses can be made which eliminate some earlier concerns of heavy isotope applications in archaeology.

African History

glass beads

glaze painted ceramics

lead isotope analysis

Southwestern United States

strontium isotope analysis

Chitosan beads as a delivery vehicle for the antituberculosis drug pyrazinamide / John Botha Havenga

Havenga, John Botha

January 2006

Controlled release systems aim at achieving a predictable and reproducible drug release profile over a desired time period. These controlled release formulations offer many advantages over conventional dosage forms. These advantages include: reduced dosing intervals, constant drug levels in the blood, increased patient compliance and decreased adverse effects. Complex controlled release formulations such as those with sustained release properties, often require additional steps during the production phase. The cost and economic impact associated with these complex controlled release dosage formulations often outweigh the short term benefits. Thus the development of an economic method to produce controlled release particles is of great importance especially in third world countries. In controlled release formulations the drug is often equally dispersed throughout a polymer matrix. In the presence of a thermodynamically compatible solvent, swelling occurs and the polymer releases its content to the surrounding medium. The rate of drug release can be controlled by interfering with the amount of swelling and rate of diffusion by manipulating the viscosity of the polymer matrix. Chitosan is an ideal candidate for controlled drug delivery through matrix release systems. It is a biodegradable polymer with absorption-enhancing properties. Cross-linking chitosan with different cross-linking agents allow the preparation of beads. Beads are frequently used in controlled release dosage forms as they are very flexible in dosage form development and show various advantages over single unit dosage forms. Because beads disperse freely in the gastrointestinal tract they maximize drug absorption, reduce fluctuation in peak plasma, and minimize potential side effects without lowering drug bio-availability. Chitosan beads and excipient containing chitosan beads were prepared and investigated as possible controlled release formulations. Pyrazinamide was chosen as the model drug. Chitosan beads and excipient containing chitosan beads were prepared by ionotropic gelation in tripolyphosphate. In this study chitosan/pyrazinamide beads containing pharmaceutical excipients (Ascorbic acid, Explotab and Ac-Di-Sol) were produced. The excipients were added individually and in combinations to the chitosadpyrazinamide dispersion and the beads were characterized on the basis of their morphology, solubility, fiability, drug loading capacity and swelling behaviour, as well as drug release (dissolution properties). The drug loading of the pyrazinarnide loaded chitosan beads, was 52.26 % 0.57%. It was noted that the inclusion of excipients in the beads resulted in an increase in drug loading with the combination of Ascorbic acid and Ac-Di-Sol giving the highest drug loading of 67.09 ± 0.22%. It was expected that the addition of the pharmaceutical excipients would lead to a sustained release of pyrazinamide. Dissolutions studies, however, revealed a burst release in both phosphate buffer solution (PBS) pH 5.60 and 7.40 over the first 15 minutes and the curve reached a plateau after 30 minutes. Thus, apparently the inclusion of the pharmaceutical excipients did not contribute to a sustained release of pyrazinamide over the tested period of six hours. In future studies the dissolution time can possibly be extended to a period of 24 hours. It might be possible for the remaining drug (approximately 40%) in the beads to be released over the extended period. Other polymers can also be investigated to control the release of pyrazinamide. Further studies are, however, necessary to investigate this possibility in the future. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2007.

Beads

Chitosa

Ionotropic gelation

Controlled release

Pyrazinamide

Ascorbic acid

Explotab®

Ac-Di-Sol®