Global ETD Search

411	Functionalisation of polyolefins and its effects on surface chemistry and energetics Popat, Rohit P. January 1995 (has links) The surface functionalisation of polyethylene and polypropylene by industrial and laboratory scale corona treatments and by laboratory flame treatment was studied. The surface sensitive techniques of X-ray photoelectron spectroscopy (XPS), attenuated total reflection infra-red spectroscopy (FTIR-ATR), contact angle measurement and electron microscopy (SEM and TEM) were employed. Corona and flame treatments resulted in incorporation of oxygen only into the surfaces of both polyethylene and polypropylene, resulting in improved surface wettabilities. A variety of oxygen functional groups were introduced by the two treatments. The industrial and laboratory scale treatments of both polymers were found to be similar in terms of the oxygen concentrations incorporated and surface wettabilities achieved. The presence of significant amounts of chain scission products were indicated on corona treated surfaces, while only minimal quantities were indicted on flame treated surfaces. This was attributed to their volatilisation during flame treatment. Introduction of sulfur dioxide into the flame and corona regions during treatment resulted in significant improvements in surface wettability. Incorporation of sulfur and nitrogen resulted from the presence of sulfur dioxide. A possible mechanism involving the formation of sulfonic acid groups and ammonium sulfonate groups was suggested. An oxidation depth model developed for use with variable take-off angle XPS showed that significantly deeper oxidation occurred in the presence of sulfur dioxide. Corona treatment was more effective in improving surface wettabilities than flame treatment, this being attributed to heat induced functional group reorientation during flame . treatment for polyethylene and to differences in surface chemistry resulting from the two treatments in the case of polypropylene. The surface wettability of poly ethylene was more readily improved than the surface wettability of polypropylene after all the treatments investigated. A method for estimating functional group concentrations using chemical derivatisation and contact angle measurement was developed. Functional group estimates for flame treated polyethylene were found to be in good agreement with chemical derivatisation used in conjunction with XPS measurements. 660
412	Influence of catalytic systems on the synthesis of (dis)entangled UHMWPE and its implications on mechanical properties Romano, Dario January 2014 (has links) Two different catalysts (bis[N-(3-tert-butylsalicylidene)-pentafluoroanilinato] titanium (IV) dichloride and [1-(8-quinolyl)indenyl] chromium (III) dichloride catalysts) activated with aluminoxane based co-catalysts (MAO, PMAO, MMAO12 and MMAO3A) have been evaluated in the polymerisation of ethylene leading to UHMWPE having a reduced number of entanglements between the chains. The effect of a co-catalyst modifier (BHT) on the catalytic systems and the resulting polymers is also addressed. Both catalysts are capable to promote the synthesis of UHMWPE having a reduced amount of entanglements in the conditions used. Uniaxial solid-state deformation of UHMWPE samples of different molar masses have been evaluated and related with the entanglement state of the polymers synthesised. A clear relationship between some mechanical properties and the molar mass/entanglement density of the polymers synthesised has been found. 668.4
413	Co-crystallization in polyolefin blends studied by various crystallization analysis techniques Sweed, Muhamed 03 1900 (has links) Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2006. / Co-crystallization is the phenomenon by which chains of different crystallizabilities crystallize at the same temperature. Co-crystallization is frequently observed in the blends of different types of polyethylene. It is believed that co-crystallization can occur due to the thermodynamically miscible parts of two components in the blends having similar crystallization rate. The study focused on the phenomenon of co-crystallization in polyethylene blends and how by varying the crystallization conditions the co-crystallization region will change. Three techniques have been used in this study. TREF was used to fractionate the polymers and blends. Each of the TREF fractions was studied using both DSC and CRYSTAF to determine whether the fraction contained both types of materials. It is shown that the difference in the crystallization fractionation mechanisms between TREF, CRYSTAF and DSC can be utilize to study co-crystallization effects in polyethylene blends. Results also shows that by varying the heating and cooling rate profiles in DSC and CRYSTAF the co-crystallization fractions will appeared as a single fraction or as two separate fractions. Further, it was demonstrated how the co-crystallization area could be illustrated using a unique 3-dimensional plot where the data from the prep-TREF fractionation, and the DSC and CRYSTAF, were combined to give the “crystallization map” of the blend. These plots give a quiche visual illustration of any co-crystallization regions in the blends as well as how much the crystallization conditions effect the blend crystallization. Crystallization -- Technique Polyethylene Dissertations -- Polymer science Theses -- Polymer science Chemistry and Polymer Science
414	The fractionation and characterisation of propylene-ethylene random copolymers Harding, Gareth 12 1900 (has links) Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2005. / This study involves the fractionation and characterisation of three propyleneethylene random copolymers. The fractionation technique used in the study was temperature rising elution fractionation (TREF). The TREF fractions were subsequently analysed offline by crystallisation analysis fractionation (CRYSTAF), differential scanning calorimetry (DSC), 13C NMR, high-temperature gel-permeation chromatography (HT-GPC), and wide-angle x-ray diffraction (WAXD). The effect of the ethylene comonomer on the crystallisability of the propylene was investigated, along with the effect of the comonomer on the type of crystal phase formed during the crystallisation. The results show that the comonomer inhibits the crystallisation of the copolymer and that as the ethylene content increases, the crystallisation and melting points decrease. It was also shown that the higher the ethylene content, the more of the γ-phase crystal type is formed. The distribution of the comonomer throughout the copolymers was also investigated. The results show that there is an uneven distribution of the comonomer with most of the comonomer accumulating in the amorphous areas, and very little actually being incorporated in the crystalline regions. It was also observed that the fractions eluting at the highest temperatures had considerably higher polydispersities and lower molecular weights than the fractions eluting just before them. The highest temperature fractions also have lower melting and crystallisation temperatures than the preceding fractions. This has been attributed to a nucleation effect by the sand support used during the TREF fractionation. Polypropylene Polyethylene Polymers separation Polymers analysis Dissertations -- Polymer science Theses -- Polymer science Chemistry and Polymer Science
415	A comparative analysis of the chemical composition of linear low density polyethylene polymers synthesised with 1- hexene comonomer under different catalytic conditions Naidoo, Preloshni 03 1900 (has links) Thesis (MSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: A comparative study of the chemical composition of linear low density polyethylene polymers, synthesised with 1 - hexene as comonomer was conducted. Catalyst trials were conducted on the linear low density 1 - hexene polymer grade material to evaluate alternative catalysts. A comparative analysis was performed in order to investigate if the samples synthesised under catalyst trial conditions showed any significant differences in terms of crystallinity and mechanical properties with the reference sample that was synthesised using the reference catalyst. The results showed that the macro product properties, namely melt flow Index, density, and level of hexene extractables are different for the trial samples in comparison with the reference sample. The differences observed implied that the trial samples were synthesised with differences on a molecular level. The differences in the chemical composition between the reference sample and the comparative samples were fully explored using a wide range of analytical techniques, namely crystallisation analysis by fractionation (CRYSTAF), temperature rising elution fractionation (TREF), differential scanning calorimetry (DSC), Carbon 13 nuclear magnetic resonance (13C NMR), Size exclusion chromatography (SEC), Positron analysis lifetime spectroscopy (PALS) and micro hardness analysis. The results of the characterisation studies indicated the following: - Crystallinity and hardness analysis of the reference sample, catalyst trial sample 1 and catalyst trial sample 2 indicate that the catalyst trial sample 2 having a low cocatalyst concentration is the most crystalline of all the samples. - The reference sample, catalyst trial sample 1 and catalyst trial sample 2 were further fractionated using TREF at fractionation temperature intervals of 10°C. TREF analysis indicates that the bulk of the material is observed to elute between 70°C - 10°C. - 13C NMR analyses of the TREF fractions identified four populations of fractions that could be selectively removed, allowing the bulk of the material to be recombined. As these highly crystalline fractions were removed, there was an observed decrease in the total crystallinity of the bulk recombined material. This trend was further verified by the free volume analysis. - Free volume analysis indicated of the bulk recombined material indicated a general increase in the T3 lifetime and T4 lifetime intervals. Free volume analysis further confirmed a decrease in crystallinity of the bulk recombined material as highly crystalline material was removed. - Micro hardness analysis of the polymers further verified the crystallinity trends observed. As the molecular composition of the polymer changed due to removal of highly crystalline fractions, the total mechanical strength of the material indicated by the hardness value decreased. The study showed that by changing the chemical composition of the polymer by removing highly crystalline fractions, there was an observed change in the mechanical properties of the polymer. It can be concluded that the samples synthesised under catalyst trial conditions show significant differences in terms of crystallinity and mechanical properties in comparison with the sample that was synthesised using the standard reference catalyst. / AFRIKAANSE OPSOMMING: ‘n Vergelykende analise studie is onderneem van die chemiese samestellings van lineêre lae digtheid poliëtileen polimere, gesintetiseer met 1-hekseen as ko-monomeer. Alternatiewe kataliste is ge-evavuleer ten opsigte van lineêre lae digtheid 1-hekseen Sasol polimeer graad materiaal. Die vergelykende analise is uitgevoer om die monsters onder katalis proef kondisies te evalueer en te merk of enige beduidende verskille in terme van kristalliniteit en meganiese eienskappe met die verwysings monster voorkom. Die resultate toon dat die makro-produk eienskappe, naamlik smelt vloei indeks, digtheid en vlak van hekseen onttrekking, verskillend is vir die proef monsters in vergelyking met die verwysings monster. Die waargenome verskille impliseer dat die proef monsters op molekulêre vlak verskil. Die verskille in chemiese samestelling tussen die verwysings monster en die vergelykende monsters is ten volle ondersoek deur gebruik te maak van 'n wye verskeidenheid van analitiese tegnieke, naamlik kristallisasie analise fraksionering (CRYSTAF), temperatuur stygende eluering fraksionering (TREF), differensiële skandeer kalorimetrie (DSC), koolstof 13 kernmagnetiese resonansie (13C KMR), gelpermeasie chromatografie (SEC), positron analise leeftyd spektroskopie (PALS) en mikro-hardheid analise. Die resultate van die karakterisering studies het die volgende aangedui:- Kristalliniteit en hardheid analises van die verwysings monster en katalis proef monsters 1 en 2 het getoon dat katalis proef monster 2, wat ‘n lae ko-katalis konsentrasie bevat, die mees kristallyn is. - Die verwysings monster en katalis proef monster 1 en 2 is gefraksioneer met behulp van ‘n TREF met temperatuur tussenposes van 10°C. TREF analise toon dat oormaat materiaal ge-elueer word tussen 70°C en 100°C. - 13C KMR analise van die TREF fraksies het 4 verskillende fraksies geidentifiseer wat selektief verwyder kan word. Dit laat ook toe dat die grootste deel van die materiaal weer geherkombineer kan word. Soos die hoogs kristallyne fraksies verwyder is, is ‘n afname in die totale kristalliniteit van die geherkombineerde materiaal waargeneem. Hierdie tendens is bevestig deur vrye volume analises. - Vrye volume analises van die geherkombineerde materiaal toon ‘n algemene toename in die T3en T4 leeftyd aan. Vrye volume analises toon verder dat ‘n afname in die kristalliniteit van die geherkombineerde materiaal plaasvind soos meer kristallyne fraksies verwyder word. - Verdere mikro-hardheid analises van die polimere bevestig die waargenome kristalliniteit tendense. Soos die molekulêre samestelling van die polimere verander as gevolg van die verwydering van die hoogs kristallyne fraksies, so neem die totale meganiese sterkte van die materiaal af; soos aangedui deur die afname in hardheid waarde. Die studie toon dat die verandering van die chemiese samestelling van die polimeer, deur die verwydering van hoogs kristallyne fraksies, 'n waargenome verandering in die meganiese eienskappe van die polimeer laat plaasvind. Daar kan afgelei word dat die monsters, vervaardig onder die katalis proef voorwaardes, beduidende verskille toon in terme van kristalliniteit en meganiese eienskappe in vergelyking met die monster vervaardig deur die huidige verwysings katalis. Polyethylene Fractionation Polymers -- Analysis Catalysts Dissertations -- Polymer science Theses -- Polymer science Chemistry and Polymer Science
416	Φαρμακοδυναμική μελέτη συνθετικού αντικαρκινικού πεπτιδίου και βελτίωση της in vivo σταθερότητας με σύνδεση με πολυαιθυλενογλυκόλη Μπαμπούρη, Ιωάννα 06 February 2014 (has links) 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
417	The sequestration and detection of aqueous uranium using a novel network polymer Saunders, Gregory David January 1999 (has links) No description available. 547
418	Inverse internal model control of an ethylene polymerisation reactor using artificial neural networks. Dunwoodie, Ryan. January 2001 (has links) An artificial neural network is a mathematical black-box modelling tool. This tool can be used to model complex non-linear multivariable processes. In attempting to create an inverse process model of an industrial linear low density polyethylene reactor, several interesting results were encountered. Both time-invariant algebraic and time-invariant dynamic models could adequately represent the process, provided an identified 50-minute time lag was taken into account. A novel variation of the traditional IMC controller was implemented which used two inverse neural network process models. This was named Inverse Internal Model Control (IIMC). This controller was initially tested on a real multivariable pump-tank system and showed promising results. The IIMC controller was adapted to an on-line version for the polymer plant control system. The controller was run in open loop mode to compare the predictions of the controller with the actual PID ratio controllers. It was hoped that by incorporating neural network models into the controller, they would take the non-linearity and coupling of the variables into account, which the present PID controllers are unable to do. The existing PID controllers operate on separate loops involving the two main feeds (co-monomer and hydrogen) to the reactor, which constitute aspects of the control system in which the scope for advanced control exists. Although the control loop was not closed, the groundwork has been laid to implement a novel controller that could the operation of the plant. / Thesis (M.Sc.Eng.)-University of Natal, Durban, 2001. Polyethylene. Polymerization. Neural networks (Computer science) Pid controllers. Process control. Theses--Chemical engineering.
419	Flow induced crystallisation of polyethylene in presence of nanoparticles Patil, Nilesh January 2010 (has links) Polymeric systems become increasingly complicated and multifunctional if they involve a larger level of structural complexity. In the last couple of decades the level of interest has gradually shifted from the μm-scale to the nm-scale region, for instance, systems having at least one structural size below 100nm, e.g. nanocomposites. The physical properties of polymers such as crystallisation, tensile modulus, impact strength and viscosity are strongly influenced by the presence of additives in the polymer matrix. Semicrystalline polymers comprise nearly two-thirds of all synthetic polymers. These are processed to form films, fibers, and moulded articles using operations such as extrusion, moulding, fiber spinning, film blowing etc. During these processes, the polymer melt is subjected to complex and intense flow fields (shear or elongational) after which the polymer crystallises. The morphology of the semicrystalline polymer in the final product and subsequently its properties and quality, depend on the manner in which the polymer crystallises from the flowing melt. The subject is continuously driven by the quest to understand the molecular mechanism of flow induced crystallisation; nevertheless, the flow induced crystallisation in presence of nanofillers has received little attention. The thesis deals with the crystallisation studies of polymer molecules during shear in presence of nanofillers (viz. single walled carbon nanotube (SWCNT) and zirconia particle) having different aspect ratio. For this purpose, the polyethylene (PE) consisting of desired molar mass and molar mass distribution within the processing range is utilised. The morphology of semicrystalline polymer is revealed using time resolved X-ray scattering (SAXS/WAXS) techniques. The rheological aspects of polymer melt in presence of nanoparticles are manifested. In chapter 2, the effect of SWCNTs on the crystallisation kinetics of polymers has been studied with and without application of shear rate. The shear rate effect on the formation of shish-kebab structures in the polymer containing SWCNTs is investigated. The effect of shear rates on the stretching of long chains of PE is verified using the approach involving the use of Deborah number. The study reveals the significance of SWCNTs on crystallisation of PE. In chapter 3, the influence of zirconia nanoparticles on crystal orientation of polymers is studied. Enhanced crystallisation kinetics is observed due to presence of zirconia nanoparticles. Overall crystal orientation is improved as a result of zirconia nanoparticles in the polymer matrix. In chapter 4 of the thesis, the role of broad molecular weight distribution of PE in formation of oriented (shish-kebab) structures is demonstrated. The presence of nanoparticles of different aspect ratios and binding efficiency with polymer on the formation of highly oriented structures in the early stage crystallisation is verified. The study reveals the significant role of SWCNTs in shish-kebab structure formation as compared to zirconia nanoparticles. Further, the insight on the selective adsorption of polymer chains to the nanoparticles is provided. In chapter 5 of the thesis, the molecular interaction between polymer and nanoparticles under shear above the equilibrium point (T = 141.2°C) is investigated. The study reveals the major role of SWCNTs with high aspect ratio, in the stability of flow induced precursor (FIP) and formation of extended chain crystals, as a result of strong interaction with PE molecules. On contrary, the poor interaction of Zirconia particles having low aspect ratio, with PE molecules prohibits molecular chain extension. 668.4234
420	Cadherin-Mediated Cell-Cell Interactions Regulates Phenotype And Morphology of Nucleus Pulposus Cells Of The Intervertebral Disc Hwang, Priscilla Y. January 2015 (has links) <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)

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