Emprego de metodos de contribuição de grupos no calculo e predição de propriedades fisico-quimicas / Job of method of contribution of groups in the calculation and prediction of fisi-quimicas properties

Ninni, Luciana

17 December 2003

Orientador: Antonio Jose de Almeida Meirelles / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos / Made available in DSpace on 2018-08-03T21:50:09Z (GMT). No. of bitstreams: 1 Ninni_Luciana_D.pdf: 1651054 bytes, checksum: a02c4b214cfc69dac3f1eb376a13a6b7 (MD5) Previous issue date: 2003 / Resumo: Métodos de contribuição de grupos têm sido ferramenta útil no cálculo de coeficientes de atividade nos mais variados sistemas. Em sistemas aquosos, e mais especificamente naqueles que possuem compostos biológicos como açúcares, arninoácidos, sais orgânicos, polímeros, etc., o uso de métodos de contribuição de grupos para a correlação e predição do equilíbrio de fases tem crescido nos últimos anos. Em alimentos e em biotecnologia, os sistemas são geralmente multicomponentes e por essa razão, a aplicação de métodos de contribuição de grupos torna-se atraente partindo-se do princípio que, de posse dos parâmetros de interação entre grupos, é possível calcular propriedades de sistemas mais complexos a partir de parâmetros obtidos da correlação a dados experimentais de sistemas mais simples. Neste trabalho, os métodos de contribuição de grupos ASOG, UNIF AC, VERS e UNIMOD foram empregados em diferentes sistemas para a correlação e predição de propriedades fisico-químicas. Os compostos estudados foram: polióis, aminoácidos, maltodextrinas e polietileno glicóis (pEG)s, sendo os três primeiros compostos geralmente encontrados em sistemas alimentícios, e o PEG é bastante utilizado em sistemas aquosos bifásicos para o estudo do equilíbrio e separação de biomoléculas. Propriedades fisico-químicas como atividade de água, solubilidade, depressão do ponto de congelamento, pH, espalhamento de luz, entalpia de diluição e viscosidade, são algumas das propriedades determinadas e/ou retiradas da literatura usadas para a correlação e predição empregando os modelos acima citados. A intenção deste trabalho foi então, testar os métodos de contribuição de grupos para o cálculo de propriedades fisico-químicas tratando também das particularidades de cada sistema estudado, como a dissociação parcial dos aminoácidos, o efeito de proximidade dos grupamentos hidroxilas nos polióis e a polidispersão das maltodextrinas. Também são apresentados resultados da correlação e predição de viscosidades de sistemas aquosos contendo PEGs por um modelo semi-empírico que não trata da contribuição de grupos mas considera a hidratação das moléculas desses polímeros em meio aquoso / Abstract: Group contribution methods have been used as a useful tool for calculating activity coefficients in different types of systems. In aqueous systems, specifically those containing biological compounds such as sugars, amino acids, organic salts, polymers, etc., the use of group contribution models for correlating and predicting phase equilibrium has increased in the last years. In the food and in the biotechnology areas, the systems are generally multicomponent, and for this reason, the use of group-contribution methods becomes an attractive tool considering the possibility of calculation of properties in complex systems with parameters adjusted for simple ones. In this work, the group-contribution models ASOG, UNIF AC, VERS and UNIMOD were utilized in different types of systems for the correlation and prediction of physical chemical properties. The studied compounds were: polyols, amino acids, maltodextrins and polyethylene (glycols) (pEG)s, which the first three compounds are found in food systems, and PEGs are wide used in aqueous-two-phase systems to study equilibrium and separation of biomolecules. Physical-chemical properties such as water activity, solubility, fteezing point depression, pH, light scattering, enthalpy of dilution and viscosity are some of the properties experimentally determined and/or found in literature used in this work for the correlation and prediction using the above cited models. Thus, the objective of this work was to test the group-contribution models for calculating physical-chemical properties considering the particularities of each system such as partial dissociation phenomena in aqueous amino acid systems, proximity effect of hydroxyl groups in polyols, and polydispersity of maltodextrins. It is also presented in this work, the results of viscosity correlation and prediction in aqueous PEG solutions by a semi-empirical equation that does not consider group contributions but take into account the hydration of the polymer molecules in aqueous media / Doutorado / Doutor em Engenharia de Alimentos

Água

Aminoácidos

Polietileno

Activity of the water

Amino acids

Polyethylene glycol

Universal Aqueous-Based Antifouling Coatings for Multi-Material Devices

Goh, Sharon

January 2017

Biofouling is an ongoing problem in the development and usage of biomaterials for biomedical implants, microfluidic devices, and water-based sensors. Antifouling coatings involving surface modification of biomaterials is widely utilized to reduce unwanted protein adsorption and cell adhesion. Surface modification strategies, however, are reliant on the working material’s chemical properties. Thus, published procedures are often not applicable to a wide range of material classes. This constitutes a serious limitation in using surface modification on assembled multi-material devices, i.e on whole device modification. The objective of this research is to develop an antifouling coating with non-aggressive reaction conditions that can universally modify polymers and other material classes. Two strategies using polydopamine (PDA) as an anchor for polyethylene glycol (PEG) surface attachment were investigated: (1) PDA-PEG backfilled with bovine serum albumin (BSA), and (2) PDA-PEG with light activated perfluorophenyl azide (PFPA) conjugated to the PEG. Three materials varying in surface wettability were studied to evaluate the coatings for multi-material applications: porous polycarbonate membrane (PC), polydimethyl siloxane (PDMS), and soda lime glass cover slips. Atomic force microscopy (AFM) and ellipsometry studies revealed substantial structural differences of PDA. Differences in PDA surface roughness affected PEG grafting in solution (the first method), with higher PEG coverage achieved on PC with intermediate surface roughness to PDMS and glass. Radiolabeled Fg adsorption and E. coli adhesion experiments showed reduced fouling on all PDA-PEG modified materials when backfilled with BSA. The ability for BSA to penetrate the PEG layer indicated that low PEG grafting densities were achieved using this grafting-to approach. The use of a photoactive labeling agent, PFPA, to tether PEG was proposed to improve PEG grafting on PDA. The PFPA-PEG modification protocol was optimized by quantifying Fg adsorption. Two treatments of PFPA-PEG were required to fully block PDA active sites. Fg adsorption was not significantly improved on PFPA-PEG modified PC and glass when backfilled with BSA, indicating sufficient PEG coverage of PDA. High Fg adsorption on PFPA-PEG surfaces indicate that high density PEG brushes were still not achieved with this method. PDMS surfaces were damaged with this procedure due to increased surface handling in the protocol. This is the first, to our knowledge, successful demonstration of PFPA modification on PDA surfaces. Photopatterning of polymer-based materials can be achieved, providing opportunities for utilising new materials in cell patterned platforms. Due to low PEG coverage on PDA surfaces from solution and using PFPA, ultra-low protein adsorption cannot be achieved using these aqueous-based methods. Antifouling modifications using PDA and PEG should be applied for short-term cell studies. / Thesis / Master of Applied Science (MASc)

Antifouling

Polyethylene Glycol

Bovine Serum Albumin

Polydopamine

Perfluorophenyl Azide

Smart surface coating of drug nanoparticles with cross- linkable polyethylene glycol for bio-responsive and highly efficient drug delivery

Wei, W., Zhang, X., Chen, Xianfeng, Zhou, M., Xu, R., Zhang, X.

14 March 2016

Yes / Many drug molecules can be directly used as nanomedicine without the requirement of any inorganic or organic carriers such as silica and liposome nanostructures. This new type of carrier-free drug nanoparticles (NPs) has great potential in clinical treatment because of its ultra-high drug loading capacity and biodegradability. For practical applications, it is essential for such nanomedicine to possess robust stability and minimal premature release of therapeutic molecules during circulation in the blood stream. To meet this requirement, herein, we develop GSH-responsive and crosslinkable amphiphilic polyethylene glycol (PEG) molecules to modify carrier-free drug NPs. These PEG molecules can be cross-linked on the surface of the NPs to endow them with greater stability and the cross-link is sensitive to intracellular environment for bio-responsive drug release. With this elegant design, our experimental results show that the liberation of DOX from DOX-cross-linked PEG NPs is dramatically slower than that from DOX-non-cross-linked PEG NPs, and the DOX release profile can be controlled by tuning the concentration of the reducing agent to break the cross-link between PEG molecules. More importantly, in vivo studies reveal that the DOX-cross-linked PEG NPs exhibit favorable blood circulation half-life (>4 h) and intense accumulation in tumor areas, enabling effective anti-cancer therapy. We expect this work will provide a powerful strategy for stabilizing carrier-free nanomedicines and pave the way to their successful clinical applications in the future. / The National Basic Research Program of China (2013CB933500, 2012CB932400), National Natural Science Foundation of China (61422403), Natural Science Foundation of Jiangsu Province (BK20131162), QingLan Project, Collaborative Innovation Center of Suzhou Nano Science and a Project funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions (PAPD).

Smart surface coating

Polyethylene glycol

Nanoparticles

Drug delivery

Carrier-free

Laminin-Functionalized Polyethylene Glycol Hydrogels for Nucleus Pulposus Regeneration

Francisco, Aubrey Therese

January 2013

<p>Intervertebral disc (IVD) disorders and age-related degeneration are believed to contribute to low back pain. There is significant interest in cell-based strategies for regenerating the nucleus pulposus (NP) region of the disc; however, few scaffolds have been evaluated for their ability to promote or maintain an immature NP cell phenotype. Additionally, while cell delivery to the pathological IVD has significant therapeutic potential for enhancing NP regeneration, the development of injectable biomaterials that retain delivered cells, promote cell survival, and maintain or promote an NP cell phenotype in vivo remains a significant challenge. Previous studies have demonstrated NP cell - laminin interactions in the NP region of the IVD that promote cell attachment and biosynthesis. These findings suggest that incorporating laminin ligands into biomaterial scaffolds for NP tissue engineering or cell delivery to the disc may be beneficial for promoting NP cell survival and phenotype. In this dissertation, laminin-111 (LM111) functionalized poly(ethylene glycol) (PEG) hydrogels were developed and evaluated as biomaterial scaffolds for cell-based NP regeneration. </p><p>Here, PEG-LM111 conjugates with functional acrylate groups for crosslinking were synthesized and characterized to allow for protein coupling to both photocrosslinkable and injectable PEG-based biomaterial scaffolds. PEG-LM111 conjugates synthesized using low ratios of PEG to LM111 were found support NP cell attachment and signaling in a manner similar to unmodified LM111. A single PEG-LM111 conjugate was conjugated to photocrosslinkable PEG-LM111 hydrogels, and studies were performed to evaluate the effects of hydrogel formulation on immature NP cell phenotype in vitro. When primary immature porcine NP cells were seeded onto PEG-LM111 hydrogels of varying stiffnesses, softer LM111 presenting hydrogels were found to promote cell clustering and increased levels of sGAG production as compared to stiffer LM111 presenting and PEG-only gels. When cells were encapsulated in 3D gels, hydrogel formulation was found to influence NP cell metabolism and expression of proposed NP phenotypic markers, with higher expression of N-cadherin and cytokeratin 8 observed for cells cultured in softer (<1 kPa) PEG-LM111 hydrogels. </p><p>A novel, injectable PEG-LM111 hydrogel was developed as a biomaterial carrier for cell delivery to the IVD. PEG-LM111 conjugates were crosslinked via a Michael-type addition reaction upon the addition of PEG-octoacrylate and PEG-dithiol. Injectable PEG-LM111 hydrogel gelation time, mechanical properties, and ability to retain delivered cells in the IVD space were evaluated. Gelation occurred in approximately 20 minutes without an initiator, with dynamic shear moduli in the range of 0.9 - 1.4 kPa. Primary NP cell retention in cultured IVD explants was significantly higher over 14 days when cells were delivered within a PEG-LM111 hydrogel carrier, as compared to cells in liquid suspension. </p><p>The studies presented in this dissertation demonstrate that soft, LM111 functionalized hydrogels may promote or maintain the expression of specific markers and cell-cell interactions characteristic of an immature NP cell phenotype. Furthermore, these findings suggest that this novel, injectable laminin-functionalized biomaterial may be an easy to use and biocompatible carrier for delivering cells to the IVD.</p> / Dissertation

Biomedical engineering

cell delivery

intervertebral disc

laminin

nucleus pulposus

polyethylene glycol

Φαρμακοδυναμική μελέτη συνθετικού αντικαρκινικού πεπτιδίου και βελτίωση της in vivo σταθερότητας με σύνδεση με πολυαιθυλενογλυκόλη

Μπαμπούρη, Ιωάννα

06 February 2014

Η συσχέτιση της πρωτεΐνης PSP94 με τον καρκίνο του προστάτη είναι γνωστή, καθώς μειωμένα επίπεδα της PSP94 σχετίζονται με τα προχωρημένα, μεταστατικά στάδια καρκίνου του προστάτη, και υποτίθεται ότι η πλήρης έκφρασή της συμβάλλει στην αναχαίτιση της καρκινικής ανάπτυξης. Το PCK3145, ένα συνθετικό δεκαπενταμερές πεπτίδιο, του οποίου η αλληλουχία αμινοξέων είναι ταυτόσημο με την αλληλουχία των αμινοξέων 31 έως 45 της PSP94, επιλέχτηκε μεταξύ 12 διαφορετικών πεπτιδίων που προέκυψαν από την PSP94 καθώς εδείχθη οτι ανακεφαλαιώνει in vitro και in vivo τις λειτουργίες και ιδιότητες της PSP94, και άρα είναι ένα μόριο που μπορεί να χρησιμοποιηθεί στην καταστολή της ανάπτυξης του καρκίνου του προστάτη. Ωστόσο, φαρμακοκινητικές μελέτες σε ζώα και ασθενείς με καρκίνο του προστάτη, κατέδειξαν ταχεία κάθαρση και μικρό χρόνο ημιζωής. Προκειμένου να ενισχυθεί το φαρμακοκινητικό προφίλ του πεπτιδίου PCK3145 και ως εκ τούτου να βελτιωθεί η φαρμακοδυναμική του, υπέστη χημική τροποποίηση με προσθήκη πολυαιθυλενικής γλυκόλης (PEG). Η πειραματική εργασία παρουσιάζει τα αποτελέσματα μιας συστηματικής μελέτης σχετικά με την επίδραση της πεγκυλίωσης στο PCK3145 συγκρίνοντας την πρωτεολυτική σταθερότητα και βιολογική δράση δύο πεγκυλιωμένων συζευγμάτων του με την καθαρή μορφή του. Για την ποσοτικοποίηση και για τα πειράματα σταθερότητας χρησιμοποιήθηκε ένα σύστημα υγρής χρωματογραφίας υψηλής απόδοσης HPLC αποτελούμενο από μια αντλία Ultimate (Dionex). Ο χρωματογραφικός διαχωρισμός επιτεύχθηκε με μια στήλη ανάστροφης φάσης C18. Επετεύχθη για πρώτη φορά η ανάπτυξη αναλυτικής μεθοδολογίας HPLC για τον προσδιορισμό των πεγκυλιωμένων αναλόγων με υψηλού βαθμού γραμμικότητα, ειδικότητα, επαναληψιμότητα και αναπαραγωγιμότητα. Η πρωτεολυτική σταθερότητα των συζευγμάτων PEG σε ανθρώπινο πλάσμα προσδιορίστηκε με χρήση υγρής χρωματογραφίας HPLC και αποκαλύφθηκε μείωση του ποσοστού αποδόμησης και ενίσχυσξ της σταθερότητας του πεπτιδικών μορίων σε ανθρώπινο πλάσμα. H μελέτη επιβίωσης της κυτταρικής σειράς καρκίνου του προστάτη PC3 μετά την προσθήκη των πεπτιδικών μορίων υπό μελέτη υπολογίστηκε με τις μεθόδους ΜΤΤ και Trypan blue. 50% αναστολή της κυτταρικής αύξησης/μεταβολισμού επετεύχθη με τις συγκεντρώσεις των 10μg/ml και για τα τρία πεπτίδια. Ωστόσο, τα πεγκυλιωμένα ανάλογα επέφεραν ισχυρότερη ανασταλτική επίδραση στην κυτταρική αύξηση σε μικρότερες δόσεις. Παρόμοια ενθαρρυντικά αποτελέσματα υπήρξαν και για την δράση των μορίων στη καρκινική σειρά του μαστού MCF-7. Τα αποτελέσματα της μελέτης συνοψίζονται στην ικανότητα της πεγκυλίωσης να βελτιώνει τη σταθερότητα του PCK3145 και έτσι να ενισχύει τη βιολογική του δράση. Μελλοντικά πειράματα θα αποσαφηνίσουν περισσότερο τόσο την δράση των μορίων σε καρκινικές σειρές πέραν του προστάτη αλλά και την φαρμακοκινητική συμπεριφορά των πεπτιδικών αναλόγων μέσω πειραμάτων in vivo της βιοκατανομής και μεταβολισμού τους. / PSP94, protein is known to have specific implications with prostate cancer where a down-regulation of PSP94 levels is associated with advanced metastatic prostate cancer and it is supposed that the full expression contributes to the inhibition of tumor growth. PCK3145 is a synthetic 15-mer peptide that matches the natural sequence of amino acids 31 to 45 of PSP94 and was selected from 12 other peptides derived from PSP94 as it exhibited the best in vitro and animal in vivo properties similar to PSP94. Thus, it is a molecule hat can be used to suppress the growth of prostate cancer.However pharmacokinetics studies in animals and in patients with prostate cancer showed rapid clearance and a short half-life. In order to alter the pharmacokinetic profile of the peptide, and thereby to improve its pharmacodynamic potential PCK3145 was chemically modified with polyethylene glycol (PEG).This experimental work presents the results of a systematic study on the influence of the PEGylation of PCK3145 peptides on the proteolytic stability and biological activity of these conjugates compared to the wild-type peptide. For the quantification and stability assays an HPLC system was used consisted of an Ultimate 3000 Pump (Dionex). Chromatographic separation was achieved on RP, C18 column. An HPLC method development for the determination of the PEG-peptide conjugates was assessed for the first time. A high degree of linearity, specificity as well as repeatability and reproducibility were also achieved. The proteolytic stability of the PEG-peptide conjugates in human plasma was assessed by HPLC chromatography, which revealed a significant decrease in the degradation. Proliferation of PC3 cancer cell line was measured using the MTT and Trypan blue test. A 50% inhibition of the cell metabolism/growth was achieved by the concentrations of 10 μg/ml of the three peptides. However, at lower concentrations stronger growth inhibitory effect was observed for the PEG-peptides. Similar encouraging results have also seen for the action of molecules in cancer cell lines MCF-7.The results of this study emphasize the ability of PEGylation to improve the stability of PCK3145 and thus to enhance the biological activity. Future experiments willi clarify more the action of molecules in cancer cell lines beyond the prostate and the pharmacokinetic behavour of peptide analogs through in vivo experiments of biodistribution and metabolism.

615.761

Polyethylene glycol (PEG)

Peptide stability

PCK3145

Cadherin-Mediated Cell-Cell Interactions Regulates Phenotype And Morphology of Nucleus Pulposus Cells Of The Intervertebral Disc

Hwang, Priscilla Y.

January 2015

<p>Juvenile nucleus pulposus (NP) cells of the intervertebral disc (IVD) are large, vacuolated cells that form cell clusters with numerous cell-cell interactions. With maturation and aging, NP cells lose their ability to form these cell clusters, with associated changes in NP cell phenotype, morphology and proteoglycan synthesis that may contribute to IVD degeneration. Studies demonstrate healthy, juvenile NP cells exhibit potential for preservation of multi-cell clusters and NP cell phenotype when cultured upon soft, laminin-containing substrates; however, the mechanisms that regulate metabolism and phenotype of these NP cells are not understood. N-cadherin is a cell adhesion molecule that is present in juvenile NP cells, but disappears with age. The goal of this dissertation was to reveal the role of N-cadherin for NP cells in multi-cell clusters that contribute to the maintenance of the juvenile NP cell morphology and phenotype in vitro, and to evaluate the potential for laminin- functionalized poly(ethylene glycol) (PEG-LM) hydrogels to promote human NP cells towards a juvenile NP cell phenotype. </p><p>In this dissertation, juvenile porcine IVD cells were promoted to form cell clusters in vitro, and analyzed for preservation of the juvenile NP phenotype on soft, laminin-rich hydrogels. In the first part of this dissertation, preservation of the porcine juvenile NP cell phenotype and presence of N-cadherin was analyzed by culturing porcine NP cells on soft, laminin-rich or PEG-LM hydrogels. Secondly, cadherin-blocking experiments were performed to prevent cluster formation in order to study the importance of cluster formation in NP cell signaling. Finally, human IVD cells were cultured on PEG-LM hydrogels to investigate the potential to revert degenerate, human NP cells toward a juvenile NP cell phenotype and morphology. </p><p>Findings reveal soft (<500 Pa), laminin-rich substrates promote NP cell clustering, a key feature of the juvenile NP cell that is associated with N-cadherin positive expression. Additionally, N-cadherin-mediated cell-clustering regulates NP cell matrix production and gene expression of NP-specific and NP-matrix related markers. Inhibition of N-cadherin-mediated contacts resulted in decreased expression of juvenile NP cell features. Finally, juvenile human NP cells are also able to form N-cadherin positive cell clusters on soft, PEG-LM hydrogels with higher expression of juvenile NP cell features compared to culturing on stiff PEG-LM hydrogels. Some degenerate, human NP cells are also able to form N-cadherin positive cell clusters with some features of the juvenile NP cell. </p><p>The studies presented in this dissertation support the proposed hypothesis and establish the importance of soft, laminin-rich substrates in promoting NP cell clustering behaviors with associated features of a juvenile cell phenotype and morphology. Additionally, these studies establish a regulatory role for N-cadherin in juvenile NP cells and suggest that preservation of N-cadherin-mediated cell-cell contacts is important for preserving the juvenile NP cell phenotype and morphology. Furthermore, findings from this dissertation reveal the ability to promote degenerate, mature human NP cells towards a juvenile NP cell phenotype, demonstrating the potential to use PEG-LM hydrogels as a means for autologous cell delivery for the restoration of healthy IVD.</p> / Dissertation

Biomedical engineering

Biomechanics

intervertebral disc

laminin

microenvironmental cues

N-cadherin

nucleus pulposus

polyethylene glycol (PEG)

Cluster Enhanced Nanopore Spectrometry

Chavis, Amy

01 January 2016

Nanopore sensing is a label-free method used to characterize water-soluble molecules. Recent work describes how Au25(SG)18 clusters improve the single molecule nanopore spectrometry (SMNS) technique when analyzing polyethylene glycol (PEG). This thesis will further study and optimize the enhancement effect resulting from a cluster’s presence. Additionally, a model describing the interaction between a cluster and PEG is developed to assist in understanding this mechanism of enhancement. This thesis will also discuss expanding the SMNS method to detect peptides, using Au25(SG)18 for enhancement, and adjusting solution conditions to improve the sensitivity of the SMNS system for peptide detection. Finally, a model describing the relationship between nanopore current blockades and molecular weight is developed to demonstrate the feasibility of using SMNS as a viable analytical technique for characterizing a wide variety of water-soluble molecules.

nanopore

polyethylene glycol

peptide

biophysics

electrophysiology

metallic cluster

Biological and Chemical Physics

Sistemas de alimentação de cordeiros em pastagem tropical / Lambs feeding systems in tropical pasture

Farias, Mariana de Souza

January 2016

O presente estudo foi realizado em duas etapas com os seguintes objetivos: (i) avaliar os efeitos da suplementação com leguminosa tropical em comparação ao concentrado em gramínea tropical na ingestão de nutrientes por cordeiros; (ii) avaliar a inclusão de leguminosa tropical em pastagem de gramínea sobre o consumo de nutrientes por cordeiros recebendo polietileno glicol 4000. O delineamento experimental foi em blocos ao acaso e no segundo experimento em parcela subdividida. No primeiro estudo (capítulo III), 72 cordeiros foram alocados em 12 piquetes (0,1 ha cada) de capim Aruana (Panicum maximum cv. IZ-5) e submetidos aos tratamentos por 90 dias: 1) S0,0 – sem suplementação; 2) S1,5 - suplementação com concentrado a 1,5% de PV; 3) S2,5 -suplementação com concentrado a 2,5% PV, 4) SFG - suplementação com pastejo controlado em 0,1 ha de feijão Guandu (Cajanus cajan cv. Anão) por três horas/dia. No segundo experimento (capítulo IV), 54 cordeiros foram alocados em nove piquetes (0,2 ha cada) submetidos aos tratamentos por 84 dias: 1) Aruana – somente capim Aruana; 2) AFG - consórcio de feijão Guandu e capim Aruana, em faixa, 3) Guandu - somente feijão Guandu, cada tratamento foi subdividido em parcelas com e sem PEG (polietileno glicol 4000). No experimento 1, as variáveis de comportamento ingestivo, consumo e digestibilidade de nutrientes foram influenciadas pelos tratamentos (P < 0,05), tendo os cordeiros do grupo S2,5 apresentado melhor ingestão de nutrientes e o grupo SFG consumo intermediário. Em geral, o grupo SFG apresentou resultados semelhantes ao S1,5. No segundo experimento, as variáveis de comportamento ingestivo não foram influenciadas pelos tratamentos e pelo uso do PEG (P > 0,05). Houve interação entre os sistemas de alimentação e uso de PEG para a ingestão de nutrientes e digestibilidade (P > 0,05), com os melhores resultados para os grupos sem PEG (P < 0,05). Em geral, os animais que não receberam PEG e que foi incluído Guandu na dieta, apresentaram aumento no consumo de nutrientes. Assim, o feijão Guandu pode substituir o concentrado em nível de até 1,5% do PV como suplemento para o capim Aruana. A inclusão da leguminosa tropical com presença de taninos condensados favorece o consumo de nutrientes por cordeiros criados em pastagem tropical. / This study was performed in two stages with the following objectives: (i) to evaluate the effects of topical legume supplementation compared with the concentrate in tropical grass in the intake of nutrients by lambs; (ii) to evaluate the inclusion of tropical legume in grass pasture on intake of nutrients for lambs receiving polyethylene glycol 4000 (PEG). A randomized block design was use in the first experiment and split plot design was use in the second experiment. In the first study (Chapter III), 72 lambs were divided into 12 paddocks (0.1 ha each) of Aruana grass de (Panicum maximum cv. IZ-5) and subjected to treatments for 90 days: 1) S0,0 - only Aruana grass; 2) S1.5 - supplementation with concentrated to 1.5% of lamb BW; 3) S2.5 - supplementation with concentrated to 2.5% of lamb BW; 4) SFG – supplementation with controlled grazing on 0.1 ha of pigeon pea (Cajanus cajan cv. Anão) for three h / d. In the second study (Chapter IV), 54 lambs were divided into nine paddocks (0.2 ha each) and subjected to treatments for 84 days: 1) Aruana – only Aruana grass; 2) AFG - consortium with Aruana grass and pigeon pea; 3) Guandu – only pigeon pea, where each treatment was divided into plots with or without PEG (polyethylene glycol 4000). In the experiment 1, the ingestive behavior variables, intake and digestibility of nutrients were affect by treatments (P < 0.05) with the lambs of the group S2.5 presented better intake of nutrients and the group SFG intake intermediate. In general, the SFG group showed similar results to S1.5. In the second experiment, the ingestive behavior variables were not affected by the treatments and the use of PEG (P>0.05). There was interaction between the feeding systems and use of PEG for intake of nutrients and digestibility (P < 0.05), with the best result for the treatments without PEG (P < 0.05). In general, animals that did not receive PEG and that included pigeon pea in the diet, showed an increase in the intake of nutirents. Thus, pigeon pea can substitute the concentrate at a level of 1,5% PV as a supplement for the Aruana grass. The inclusion of the tropical legume with presence of condensed tannin favors the intake of nutrients by lambs raised in tropical pasture.

Cordeiro

Ingestão

Nutriente

Suplemento alimentar

Digestibilidade

Digestibility

Ingestive behavior

Intake

Polyethylene glycol

Supplement

Condensed tannin

Simulação de poli(etileno glicol) em água por dinâmica molecular

Gaspar, Renato Tadeu [UNESP]

16 August 2007

Made available in DSpace on 2014-06-11T19:30:54Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-08-16Bitstream added on 2014-06-13T20:01:02Z : No. of bitstreams: 1 gaspar_rt_dr_sjrp.pdf: 649983 bytes, checksum: 1fcf82fd9f75312b80b50e055388690d (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / O Poli(etileno glicol) (PEG) é um polímero sintético cujas características tem despertado grande interesse em diversas áreas. Suas aplicações podem ser vistas nas mais variadas áreas, desde biotecnologia e medicina até aplicações industriais e cosméticos. Alguns aspectos físicos como a estrutura adotada por esse polímero em diferentes solventes e detalhes sobre a interação entre essas moléculas ainda necessitam de maiores esclarecimentos, o que o torna objeto de intensa investigação. Essa tese visa desenvolver um modelo para moléculas de PEG, que possa ser utilizado em experimentos de dinâmica molecular. Resultados de simulações com esse modelo foram comparados a dados experimentais presentes na literatura, de forma a verificar o comportamento do modelo em diferentes condições, avaliando assim sua adequação. Os valores de densidade, obtidos dos sistemas simulados, apresentaram erro máximo de 1,14% para concentrações de até 50% de PEG400. A densidade do sistema em função da temperatura concorda com os dados da literatura, mantendo um erro fixo de 0,35%, que está relacionado com a concentração de 50% utilizada nessa simulação. A estrutura helicoidal, apresentada pelas moléculas de PEG ao final do processo de preparação dos modelos, é perdida rapidamente em todas as diferentes condições em que o sistema foi simulado, indicando que tal estrutura é energeticamente desfavorável em água. Com o aumento da concentração de PEG, as seguintes estruturas foram encontradas: moléculas de PEG livres em solução em concentrações inferiores a 5%, aglomerados de PEG entre 5 e 50%, com uma transição gradual entre uma estrutura e outra. Os resultados obtidos para concentrações acima de 50% não são conclusivos. Seguindo o procedimento aplicado ao modelo inicial, de PEG400, foi desenvolvido... / Poly(ethylene glycol) (PEG) is a synthetic polymer whose characteristics have attracted great interest in different fields. It has been applied in very different areas, from biotechnology and medicine to industry and cosmetics. Physical aspects like the structure PEG assumes in different solvent and details on the interaction between these polymers still lack clarity, make PEG an object of intense investigation. This Thesis aims do develop a model for PEG molecules that can be used in molecular dynamic simulations. Results of simulations using this model were compared to published experimental data, in order to investigate the behavior of the model under different conditions to evaluate its validity. The density values obtained from the simulations exhibit a maximum error of 1.14% for PEG400 concentrations up to 50%. The system density as a function of temperature agrees with experimental data from the literature within an error of 0.35% for the 50% PEG in the simulation. The helicoidal structure assumed by the PEG molecules at the end of the procedure of the model preparation is quickly lost under every simulation condition, thus indicating that the helicoidal structure is not energetically favorable for PEG in water. As PEG concentration is increased, the following structures were found: free PEG molecules below ca 5%, PEG clusters from ca 5-50%, with a gradual transition from one structure to another. The results for concentrations higher than 50% are not conclusive. Following the procedure applied to the initial PEG400 model, a second model was developed, almost four times larger, and used to investigate possible molecular effects capable to induce phase thermoseparation. The transition from different system states took place on average temperatures between 423.3 K and 424.1 K at the average pressure of 8.98 Bar.

Dinamica molecular

Coloides

Polietileno

Biofísica

Biologia molecular

Polimeros inorganicos

Biofísica molecular

Molecular dynamic

Polymer

Polyethylene glycol

Pharmaceutical Properties of Nanoparticulate Formulation Composed of TPGS and PLGA for Controlled Delivery of Anticancer Drug

Mu, L., Chan-Park, Mary Bee-Eng, Yue, Chee Yoon, Feng, S.S.

01 1900

A suitable management of the pharmaceutical property is needed and helpful to design a desired nanoparticulate delivery system, which includes the carrier nature, particle size and size distribution, morphology, surfactant stabiliser according to the technique applied, drug-loading ratio and encapsulation efficiency, surface property, etc. All will influence the in vitro release, in vivo behaviour and tissue distribution of administered particulate drug loaded nanoparticles. The main purpose of the present work was to determine the effect of drug loading ratio when employing TPGS as surfactant stabiliser and/or matrix material to improve the nanoparticulate formulation. The model drug employed was paclitaxel. / Singapore-MIT Alliance (SMA)

biomaterials

drug delivery

surfactant stabiliser

Paclitaxel