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Novel Water Soluble Polymers as FlocculantsXiao, Huining 12 1900 (has links)
<p> High molecular weight poly(ethylene oxide) (PEO) is used in conjunction
with a cofactor such as phenol formaldehyde resin (PFR) as flocculants for
newsprint manufacture. The objectives of the work described in this thesis were
to prepare flocculants superior to PEO and to determine the flocculation
mechanism. A series of novel comb copolymers consisting of a polyacrylamide
backbone with short pendant poly(ethylene glycol) (PEG) chains was prepared
and characterized. Additionally, polymerization conversion curves and reactivity
ratios were measured. An interesting finding was that the reactivity of the
macromonomer in free radical copolymerization decreased with PEG chain
length. </p> <p> Flocculation results with both model latex dispersions and commercial
wood pulp suspensions showed that copolymer chain length was the most
important variable ; molecular weights greater than 3 million were required for
good flocculation. On the other hand, the PEG pendant chains could be as short
as 9 ether repeat units. Also, only 1 to 2 PEG chains for every 100 acrylamide
backbone moieties were required. </p> <p> No published flocculation mechanisms could predict all the behaviors of the PEO or copolymer system. A new mechanism called complex bridging was
proposed. According to this mechanism PEO or copolymer chains aggregate in
the presence of cofactor to form colloidally dispersed polymer complex which
heteroflocculates with the colloidal particles. </p> <p> Given in this work is the first explanation of the requirement for extremely high PEO or copolymer molecular weights for flocculation. It is proposed that polymer chains with molecular weights less than 106 collapse in the presence of
PFR to an inactive precipitate before flocculation can occur whereas complexes
based on very high molecular weight PEO collapse slowly enough to permit
flocculation. </p> <p> Published mechanistic studies are hindered by the fact that PFR has
poorly defined structures. It is shown for the first time in this work that welldefined,
linear, poly(p-vinyl phenol) (PVPh) is an effective cofactor. </p> / Thesis / Doctor of Philosophy (PhD)
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Oxygen and Carbon Dioxide Permeability of EEA/PEO Blends and MicrolayersPethe, Vishwas Vyankatrao January 2008 (has links)
No description available.
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Synthesis and Characterization of Well-Defined Heterobifunctional Polyethers for Coating Magnetite and Their Applications in Biomedicine Resonance ImagingHuffstetler, Philip Plaxico 17 November 2009 (has links)
Well-defined heterobifunctional homopolyethers and amphiphilic block copolyethers containing a variety of functionalities were designed, synthesized, and characterized via GPC and 1H NMR. These have included controlled molecular weight cholesterol-PEO-OH, mono- and trivinylsilyl-PEO-OH, monovinylsilyl-PEO-PPO-OH, monovinylsilyl-PEO-PPO-PEO-OH, maleimide-PEO-OH, stearyl alcohol-PEO-OH, propargyl alcohol-PEO-OH, trivinylsilyl-PPO-OH, trivinylsilyl-PPO-PEO-OH, and benzyl alcohol-initiated poly(allyl glycidyl ether)-OH. The focus of polymers utilized in this study involved the mono- and trivinylsilyl polyethers.
The vinylsilyl endgroups on these materials were functionalized with various bifunctional thiols through free radical addition of SH groups across the vinylsilyl double bonds. The resultant end-functional polyethers were adsorbed onto magnetite nanoparticles and the stabilities of the polymer-magnetite complexes were compared as a function of the type of anchoring moiety and the number of anchoring moieties per chain. Anchoring chemistries investigated in this work included carboxylates, alkylammonium ions, and zwitterionic phosphonates. The anchor group-magnetite bond stability was investigated in water and phosphate buffered saline (PBS). Through these studies, the zwitterionic phosphonate group was shown to be a better anchoring group for magnetite than either carboxylate or ammonium ions. Tri-zwitterionic phosphonate anchor groups provided stability of the complexes in PBS for a broad range of polymer loadings. Thus, investigations into the stability of polyether-magnetite complexes in PBS focused on hydrophilic zwitterionic phosphonate-PEO-OH and amphiphilic zwitterionic phosphonate-PPO-b-PEO-OH oligomer coatings on the surface of magnetite.
Superparamagnetic magnetite nanoparticles are of interest as potential contrast-enhancement agents for MRI imaging. Thus, transverse NMR relaxivities of these complexes were studied as a function of chemical composition and nanostructure size and compared to commercial contrast agents. The amphiphilic polyether-magnetite nanoparticles were shown to be stable in both aqueous media as well as physiological media and have much higher transverse relaxation values, r2, than those of commercial contrast agents and other materials in the literature. / Ph. D.
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The Design of Stable, Well-Defined Polymer-Magnetite Nanoparticle Systems for Biomedical ApplicationsMiles, William Clayton 15 September 2009 (has links)
The composition and stability of polymer-magnetite complexes is essential for their use as a treatment for retinal detachment, for drug targeting and delivery, and for use as a MRI contrast agent. This work outlines a general methodology to design well-defined, stable polymer-magnetite complexes. Colloidal modeling was developed and validated to describe polymer brush extension from the magnetite core. This allowed for the observation of deviations from expected behavior as well as the precise control of polymer-particle complex size. Application of the modified Derjaguin-Verwey-Landau-Overbeek (DLVO) theory allowed the determination of the polymer loading and molecular weight necessary to sterically stabilize primary magnetite particles.
Anchoring of polyethers to the magnetite nanoparticle surface was examined using three different types of anchor groups: carboxylic acid, ammonium, and zwitterionic phosphonate. As assessed by dynamic light scattering (DLS), the zwitterionic phosphonate group provided far more robust anchoring than either the carboxylic acid or ammonium anchor groups, which was attributed to an extremely strong interaction between the phosphonate anchor and the magnetite surface. Coverage of the magnetite surface by the anchor group was found to be a critical design variable for the stability of the zwitterionic phosphonate groups, and the use of a tri-zwitterionic phosphonate anchor provided stability in phosphate buffered saline (PBS) for a large range of polymer loadings.
Incorporation of an amphiphlic poly(propylene oxide)-b-poly(ethyelene oxide) (PPO-b-PEO) diblock copolymer attached to the magnetite surface was examined through colloidal modeling and DLS. The relaxivity of the complexes was related to aggregation behavior observed through DLS. This indicated the presence of a hydrophobic interaction between the PPO layers of neighboring complexes. When this interaction was large enough, the complexes exhibited an increased relaxivity and cellular uptake.
Thus, we have developed a methodology that allows for design of polymer-magnetite complexes with controlled sizes (within 8% of predicted values). Application of this methodology incorporated with modified DLVO theory aids in the design of colloidally stable complexes with minimum polymer loading. Finally, determination of an anchor group stable in the presence of phosphate salts at all magnetite loadings allows for the design of materials with minimum polymer loadings in biological systems. / Ph. D.
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Inactivation of Salmonella enterica and Enterococcus faecium on Whole Black Peppercorns and Cumin Seeds Using Steam and Ethylene Oxide FumigationNewkirk, Jordan Jean 26 May 2016 (has links)
Current methods to reduce the native microbiota and potential pathogens on spices include steam treatments and ethylene oxide (EtO) fumigation. The objectives of this research were to identify the effectiveness of a lab-scale steam apparatus and a commercial EtO process on the inactivation of Salmonella enterica or Enterococcus faecium NRRL B-2354 inoculated whole black peppercorns and cumin seeds.
Peppercorns and cumin seeds were inoculated with Salmonella or Enterococcus and processed in a lab-scale steam apparatus at 16.9 PSIA and two references temperatures (165°F and 180°F) and in a commercial ethylene oxide fumigation chamber using a standard commercial EtO fumigation process. Cells were enumerated by serial dilution and plating onto TSA with a thin overlay of selective media.
Inoculation preparation influenced inactivation of Salmonella on peppercorns with greater reductions reported for TSA-grown cells compared to within a biofilm. To achieve an assured 5-log reduction of TSA-inoculated Salmonella on peppercorns exposure for 125s and 100s at 165°F and 180°F, respectively is required. For cumin seeds temperatures of 165°F for 110s were needed or 65s at 180°F to assure 5 log reduction. EtO fumigation significantly reduced both microorganisms on both spices (p<0.05), however significant variation existed between bags in the same process run. Reductions of Enterococcus were comparable or less than that of Salmonella under the majority of conditions, however a direct linear relationship cannot be used to compare the microbes. This study demonstrates that the effectiveness of Enterococcus faecium NRRL B-2354 as a surrogate for Salmonella can vary between spices and processes. / Master of Science in Life Sciences
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Block and Graft Copolymers Containing Carboxylate or Phosphonate AnionsHu, Nan 06 November 2014 (has links)
This dissertation focuses on synthesis and characterization of graft and block copolymers containing carboxylate or phosphonate anions that are potential candidates for biomedical applications such as drug delivery and dental adhesives.
Ammonium bisdiethylphosphonate (meth)acrylate and acrylamide phosphonate monomers were synthesized based on aza-Michael addition reactions. Free radical copolymerizations of these monomers with an acrylate-functional poly(ethylene oxide) (PEO) macromonomer produced graft copolymers. Quantitative deprotection of the alkylphosphonate groups afforded graft copolymers with zwitterionic ammonium bisphosphonate or anionic phosphonate backbones and PEO grafts. The zwitterionic copolymers spontaneously assembled into aggregates in aqueous media. The anionic copolymers formed aggregates in DMF and DMSO, while only small amounts of aggregates were present in copolymer/methanol or copolymer/water solutions. Binding capabilities of the acrylamide phosphonic acids were investigated through interactions with hydroxyapatite.
Previously our group has prepared poly(ethylene oxide)-b-poly(acrylic acid) (PEO-b-PAA) copolymers and used these polymers as carriers for both MRI imaging agents and cationic drugs. To enhance the capabilities of those carriers in tracking and crosslinking, we have designed, synthesized and characterized amine functionalized PEO-b-PAA copolymers. First, heterobifunctional poly(ethylene oxide) (PEO) with three different molecular weights were synthesized. Modification on one of these afforded a PEO macroinitiator with a bromide on one end and a protected amine on the other end. ATRP polymerization of tert-butyl acrylate (tBuA) in the presence of this initiator and a copper (I) bromide (CuBr) catalyst yielded a diblock copolymer. The copolymer was deprotected by reaction with trifluoroacetic acid (TFA) and formed an amine terminated H2N-PEO-b-PAA.
Recently our group has utilized the novel ammonium bisdiethylphosphonate (meth)acrylate and acrylamide phosphonate copolymers to incorporate Carboplatin. The resulting complexes exhibited excellent anticancer activity against MCF-7 breast cancer cells which might be related to ligand exchange of the dicarboxylate group of Carboplatin with the phosphonic acid moieties in the copolymer. Hence, complexation of small-molecule phosphonic acids with Carboplatin was investigated. Three compounds, vinylphosphonic acid, 3-hydroxypropyl ammonium bisphosphonic acid and 2-hydroxyethyl ammonium phosphonic acid were complexed with Carboplatin under acidic and neutral conditions. Covalent bonding of these acids to carboplatin was only observed under acidic pH. The covalently bonded percentage was 17%, 37% and 34%, respectively. More in-depth investigation was of great importance to further understand this complexation behavior. / Ph. D.
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Synthesis of Amphiphilic Block Copolymers for Use in Biomedical ApplicationsCarmichael-Baranauskas, Anita Yvonne 16 June 2010 (has links)
The research presented in this thesis focuses on the synthesis of three amphiphilic block copolymer systems containing poly(ethylene oxide) (PEO) blocks. The polymer systems were developed for use in biomedical applications. The first of these is a series of poly(ethylene oxide-b-oxazoline) (PEO-b-POX) diblock copolymers for use in the progress towards novel non-viral gene transfer vectors. Poly(ethylene oxide-b-2-ethyl-2-oxazoline) (PEO-b-PEOX) and poly(ethylene oxide-b-2-methyl-2-oxazoline) (PEO-b-PMOX) were investigated. The PEOX block was hydrolyzed with acid to form linear polyethylenimine (L-PEI). The polycation L-PEI is well known for its DNA binding efficiency but the water solubility of the resulting DNA/polymer complex is limited. Addition of a PEO block is directed towards the formation of a water dispersible DNA/copolymer complex. Dynamic light scattering of the PEO-b-PEOX and PEO-b-PEI block copolymers indicated that both systems existed as single chains in aqueous solution at pH 7.
PEO copolymers also play a significant role in the formation of magnetic magnetite nanoparticles, which are dispersible in water at biological pH (pH =7). There is significant interest in the design of magnetic nanoparticle fluids for biomedical applications including magnetic field-directed drug delivery, magnetic cell separations, and blood purification. For use in vivo, the magnetite nanoparticles must be coated with biocompatible materials. Such polymers render the nanoparticles dispersible in water. Harris1 et al. synthesized PEO based, polyurethane triblocks with pendant carboxylic acid groups for use in formation of stable aqueous magnetic fluids.
Building from this work, two polyurethane and polyurethaneurea systems were synthesized with 1300 g/mol PEOX and 2500 g/mol and PEOX2070 g/mol poly(ethylene oxide-co-propylene oxide) tailblocks, respectively. The PEO/PPO random copolymer contained about 25 weight percent PPO, and this disrupted the capacity of the PEO to crystallize. The PEOX based urethane triblocks were synthesized through reacting the tailblocks with the monomers for the center block whereas the PEO/PPO based polyurethaneurea was synthesized through forming the central urethane block with pendant acid groups first and then terminating the copolymer with the monofunctional copolymer. Terminal amine groups on the PEO/PPO tailblock afforded a triblock linked with two urea groups. The new polyurethanes with the PEOX tailblocks and the new polyurethaneurea with the PEO/PPO tailblocks could be utilized to efficiently stabilize magnetite nanoparticles in water. / Master of Science
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Bioresorbable Electrospun Tissue Scaffolds of Poly(ethylene glycol-b-lactide) Copolymers for Bone Tissue EngineeringBadami, Anand Shreyans 03 December 2004 (has links)
Poly(α-hydroxy esters) are a class of biocompatible resorbable polyesters including poly(lactic acid) (PLA) and poly(glycolic acid) (PGA) that are FDA-approved for clinical use. Preliminary tissue culture studies have demonstrated that these poly(α-hydroxy esters) support bone tissue development both in vitro and in vivo, but biocompatibility issues still exist. Tissue scaffolds fabricated from these materials by current methods have biocompatibility limitations because they are chemically and topographically inert to cells. The chemical composition of these scaffolds does not influence cell behavior (i.e. proliferation, differentiation) and their surface topography is on a scale length larger than a cell, which is too large to affect cell adhesion or orientation. It is hypothesized that poly(α-hydroxy ester) tissue scaffolds can be made more bioactive by (1) incorporating poly(ethylene glycol) (PEG) into the polymer interface to promote osteoblastic differentiation and (2) controlling topography to direct cell behavior. The novel processing technique of electrospinning allows the fabrication of nanofiber scaffolds with topographical features the size of focal adhesion contacts capable of influencing cell behavior. Thus, the overall objective of this research project is to characterize electrospun PEG-PLA diblock copolymers as substrates for bone tissue engineering. To accomplish this, PEG-PLLA and PEG-PDLLA diblock copolymers were synthesized with target molecular weights of 42,000 g/mol (PEG:2000, PLLA or PDLLA:40,000). Next, these two polymers and commercially available PLLA and PDLLA were electrospun to form scaffolds with fibers of diameters 0.14 to 2.1 μm. Finally, cell culture studies were performed to characterize cell morphology, proliferation, and osteoblastic differentiation. Results indicate electrospun fiber scaffolds limit cell spreading and persist in cell culture for two weeks. Analysis of cells cultured over 14 days revealed that there were no differences in cell density between polymers with and without PEG. Cell density increased with fiber diameter, indicating that fiber diameter affects cell adhesion and proliferation and suggesting that cells may migrate into scaffolds with large diameter fibers. In contrast to cell density, ALP activity, an indicator of osteoblastic differentiation, was unaffected by fiber diameter. / Master of Science
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Effect of network structure modifications on the light gas transport properties of cross-linked poly(ethylene oxide) membranesKusuma, Victor Armanda 03 February 2010 (has links)
Cross-linked poly(ethylene oxide) (XLPEO) based on poly(ethylene glycol) diacrylate (PEGDA) is an amorphous rubbery material with potential applications for carbon dioxide removal from mixtures with light gases such as methane, hydrogen, oxygen and nitrogen. Changing the polymer network structure of XLPEO through copolymerization has previously been shown to influence gas transport properties, which correlated with fractional free volume according to the Cohen-Turnbull model. This project explores strategic modifications of the cross-linked polymer structure and their effect on the chemical, physical and gas transport properties with an aim to develop rational, molecular-based design rules for tailoring separation performance. Experimental results from calorimetric and dynamic thermal analysis studies are presented, along with pure gas permeability and solubility obtained at 35°C. Incorporation of dangling side chains by copolymerization of PEGDA with methoxy-terminated poly(ethylene glycol) methyl ether acrylate, n=8 (PEGMEA) was previously shown to be effective in increasing fractional free volume of XLPEO through the opening of local free volume elements, which in turn increased CO₂ permeability. Through a comparative study ofshort chain analogs to these co-monomers, incorporation of an ethoxy-terminated co-monomer was shown to be more effective than a comparable methoxy-terminated co-monomer in increasing gas permeability. For instance, copolymerization of PEGDA with 71 wt% ethoxy-terminated diethylene glycol ethyl ether acrylate increased CO₂ permeability from 110 barrer to 320 barrer. Gas permeability increase was not observed when hydroxy or phenoxy-terminated pendants were introduced, which was attributed to reduction in chain mobility due to increased inter-chain chemical interactions or steric restrictions, respectively. Based on these results, incorporation of a co-monomer containing a bulky non-polar terminal group, tris-(trimethylsiloxy)silyl, was examined in order to further increase gas permeability. Addition of 80 wt% TRIS-A co-monomer increased CO₂ permeability of cross-linked PEGDA to 800 barrer. However, the resulting changes in chemical character of the copolymer reduced CO₂/light gas selectivity, even as gas permeability increased. The effect of incorporating a bulky, stiff functional group in the cross-linker chain was studied using cross-linked bisphenol-A ethoxylate diacrylate, which showed 40% increase in permeability compared to cross-linked PEGDA. This study affirmed the importance of polymer chain interaction, in addition to free volume, in determining the gas transport properties of the polymer. / text
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Esterilização por óxido de etileno: estudo da efetividade esterilizante de misturas não explosivas e compatíveis com a camada de ozônio / Ethylene oxide sterilization: effectivity study of non explosive blends and compatible with ozone layerOliveira, Débora Cristina de 10 April 2000 (has links)
Tendo em vista a importância do processo esterilizante aplicado a produtos farmacêuticos e aos produtos médico-hospitalares, distintos métodos foram desenvolvidos de forma a possibilitar sua aplicação, inclusive a materiais termossensíveis. Neste contexto, o processo que se tornou mais amplamente empregado consiste naquele utilizando o óxido de etileno. Este agente, devido às características de inflamabilidade e explosividade, tem sido usado diluído em gases inertes, predominantemente os clorofluorcarbonos (CFCs), que contornam tais problemas. Conhecimentos recentemente adquiridos e consenso internacional quanto ao risco da depleção da camada de ozônio da estratosfera ocasionaram a busca de alternativas, dentre as quais a adoção dos hidroclorofluorcarbonos (HCFCs). O delineamento do presente trabalho objetivou a comparação da eficácia esterilizante de misturas de óxido de etileno em CFC 12 (Oxyfume 12R), e em HCFCs 22 e 124 (Oxyfume 2002R), quando aplicadas em diferentes concentrações (450 mg/L e 600mg/L) e sob distintas temperaturas (45°C, 55°C e 65°C). Procedeu-se a desafios subletais (3, 6 ,9, 12 e 15 minutos de exposição), empregando a cada ciclo seis indicadores biológicos laboratorialmente preparados, com esporos de Bacillus subtilis var. niger ATCC 9372 obtidos em garrafas de Roux contendo meio de esporulação, sendo a seguir padronizados, inoculados em suportes celulósicos e acondicionados em embalagens filme-papel, perfazendo um total de 1080 monitores. Paralelamente foram também submetidos a desafios indicadores biológicos de aquisição comercial (AttestR 1264, 3M), dois a cada ciclo, perfazendo 360 unidades. Os resultados de resistência obtidos (valor D) nos 180 ciclos privilegiaram estes últimos, levando tal resultado a considerações quanto ao procedimento de purificação da suspensão de esporos e diferenças existentes entre suportes e acondicionamentos empregados. A eficácia esterilizante de ambas as misturas, Oxyfume 12R e Oxyfume 2002R, revelou-se equivalente, mesmo em diferentes concentrações. Além de observações que evidenciaram os efeitos significantes quanto à preparação dos indicadores biológicos, foi evidente e estatisticamente significante ( p=1% ) o efeito do aumento da temperatura, promovendo efeito mais intenso sobre a letalidade dos esporos. Numa outra abordagem, de conotação ocupacional, procedeu-se também no decorrer do trabalho experimental à monitoração do ambiente quanto a resíduos de óxido de etileno, usando bomba e tubos de detecção da DragüerR: os resultados obtidos nas diferentes posições e momentos, inferiores a 1 ppm, proporcionaram a conclusão de que, respeitando a adoção dos conceitos de engenharia indicados na Portaria Interministerial nº 482 de 16 de abril de 1999, publicada no Diário Oficial da União do dia 19 do mesmo mês e ano, é obtida condição compatível com a presença humana. É portanto gratificante que se possa concluir o trabalho com o sentimento de que efetivamente se tenha constituído em contribuição no sentido de permitir a manutenção de emprego do processo esterilizante em pauta, conferindo segurança ao paciente no uso de produtos, sem entretanto comprometer a vida humana em nosso planeta. / Taking into account the importance of the sterilization process applied to medicines and medical devices, different kinds of methods have been developed, also applicable to heat sensitive materiais. Ethylene oxide is the process most widely applied to medical devices. Due its explosiveness and inflamability, it has been used associated to non active gases, wich inhibit these properties, mainly the chlorofluorocarbons (CFCs). Recent knowledge about ozone-depleting gases and an international consensus on the need of reducing their effects are promoting a search for alternative chemicals. From these, one of the most interesting are the hydrochlorofluorocarbons (HCFCs) which, besides having this role, can also be used as transitional compounds while more environmentally suitable compounds are not available. This paper aims to compare two ethylene oxide sterilization mixtures: Oxyfume 12R (using CFC 12) and Oxyfume 2002R (using HCFCs 22 and 124), under different concentrations (450mg/L and 600mg/L) and different temperatures (45°C, 55°C and 65°C). To accomplish this procedure, sub-Iethal challenges were performed (3, 6, 9, 12 and 15 minutes of exposition), in a total of 180 cycles, using six biological indicators per cycle prepared in a laboratory, in a total of 1080 units, as well as two others purchased from an American supplier (AttestR 1264, 3M), in a total of 360 units. The former indicators were obtained using Bacillus subtilis var. niger ATCC 9372 in Roux bottles, innoculated on paper carriers and wrapped up on protective packaging. The posterior lethality study and D value calculation highlighted the highest resistance of AttestR indicators in comparison with the laboratory ones. This can be explained by different leveIs of spores purification, alongside with the differences between the carriers and packaging used in both cases. The sterilizing efficacy of Oxyfume 12R and Oxyfume 2002R revealed equivalent results, even in different concentrations. The influence of higher temperatures was efficient (p=1,0). Aiming at occupational safety, environmental monitoration was also performed related to ethylene oxide, using DragüerR detection tubes and foley pump. The results, obtained in different positions and moments under 1 ppm, confirmed that the engineering concepts indicated by the Portaria Interministerial nº 482 from 16 april 1999, published on the 19th of the same month in the Diário Oficial, offer residual safe levels compatible with human presence. It is therefore gratifying to conclude that the sterilization process using Oxyfume 2002R is both an efficient contribution to a safe utilization of products and, at the same time, to preserve the animallife on Earth.
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