Synthese organisch-anorganischer Hybridmaterialien in Mehrkomponenten-Lösungsmittelsystemen

Die Funktionalisierung anorganischer Nanopartikel stellt einen Schlüsselschritt in der Herstellung von Nanokompositen dar. Nanokomposite erzielen ein wachsendes Interesse im Bereich der Polymer- und der Materialwissenschaften, da die Kombination mehrerer Materialien mit unterschiedlichen Eigenschaften, wie etwa die Kombination anorganischer Nanopartikel mit Polymeren, große Synergieeffekte erhoffen lässt.rnrnDer Einbau anorganischer Nanopartikel in polymere Matrixmaterialien zur Verbesserung oder Einführung mechanischer, optischer oder magnetischer Eigenschaften von Polymeren bedarf allerdings der Modifizierung der Oberfläche des anorganischen Materials, um die für die positiven Synergieeffekte essentielle Kompatibilität zwischen Füllstoff und Matrix zu erreichen.rnrnEine Vielzahl anorganischer Partikel ist bereits als wässrige Dispersion erhältlich (SiO2, Al2O3, CeO2, ZrO2, ...). Mehrkomponenten- Lösungsmittelsysteme ermöglichen den Transfer dieser Partikel in eine unpolare Umgebung und gleichzeitig deren Funktionalisierung mit amphiphilen Copolymeren. Aufgrund der reversiblen Schaltbarkeit dieser Lösungsmittelsysteme zwischen einem einphasigen und zweiphasigen Zustand werden die zu Beginn in zwei nichtmischbaren Phasen vorliegenden Reaktionspartner durch Übergang in einen einphasigen Zustand unter homogenen Bedingungen in Kontakt gebracht und durch eine erneute Phasentrennung isoliert.rnEin weiterer Vorteil dieser Lösungsmittelsysteme ist deren Tolerierung funktioneller Gruppen in den verwendeten amphiphilen Copolymeren, welche nicht in Wechselwirkung mit der Partikeloberfläche stehen. Beispielsweise können Amine in den amphiphilen Copolymeren für die Wechselwirkung der funktionalisierten Partikel mit einer Polyurethanmatrix dienen, Alkine können mittels einer 1,3-dipolaren Cycloaddition umgesetzt werden oder aber perfluorierten Seitenketten in den Seitenketten der amphiphilen Copolymere die Kompatibilisierung der funktionalisierten Partikel mit einem perfluorierten Polymer gewährleisten.

Carcinoma polmonare non a piccole cellule T1aN0M0: Ruolo prognostico della Microvessel Density

Obiettivi. Valutare l’angiogenesi tumorale mediante la Microvessel density (MVD) come fattore predittivo di mortalità per tumore polmonare non a piccole cellule (NSCLC) pT1aN0M0 trattato chirurgicamente. Metodi. I dati demografici, clinici e istopatologici sono stati registrati per 82 pazienti (60 maschi, 22 femmine) sottoposti a resezione chirurgica in due diverse Chirurgie Toraciche tra gennaio 2002 e dicembre 2007 per tumori polmonari non a piccole cellule pT1AN0M0. La MVD è stata valutata mediante il conteggio visivo dei microvasi positivi alla colorazione immunoistochimica con anticorpo monoclonale anti-CD31 e definita come il numero medio di microvasi per 1 mm2 di campo ottico. Risultati. Sono state eseguite 59 lobectomie (72%) e 23 resezioni sublobari (28%). Reperti istopatologici: 43 adenocarcinomi (52%) e 39 neoplasie non- adenocarcinoma (48%) pT1aN0M0; MVD media: 161 (CD31/mm2); mediana: 148; range 50-365, cut-off=150. Una MVD elevata (> 150 CD31/mm2) è stata osservata in 40 pazienti (49%), una MVD ridotta ( ≤ 150 CD31/mm2 ) in 42 pazienti (51%). Sopravvivenze a 5 anni: 70 % e 95%, rispettivamente per il gruppo ad elevata MVD vs il gruppo a ridotta MVD con una p = 0,0041, statisticamente significativa. Il tipo di resezione chirurgica, il diametro del tumore, le principali comorbidità e l’istotipo nono sono stati fattori predittivi significativi di mortalità correlata alla malattia. La MVD è risultata essere superiore nel gruppo “Adenocarcinoma” (MVD mediana=180) rispetto al gruppo “Non-Adenocarcinoma (MVD mediana=125), con un test di Mann-Whitney statisticamente significativo (p < 0,0001). Nel gruppo “Adenocarcinoma” la sopravvivenza a 5 anni è stata del 66% e 93 %, rispettivamente per i pazienti con MVD elevata e ridotta (p = 0.043. Conclusioni. Il nostro studio ha mostrato che la Microvessel density valutata con la colorazione immunoistochimica per CD31 ha un valore prognostico rilevante nel carcinoma polmonare in stadio precoce pT1aN0M0.

Hyperbranched polyether polyols as building blocks for complex macromolecular architectures

The present thesis deals with the development of new branched polymer architectures containing hyperbranched polyglycerol. Materials investigated include hyperbranched oligomers, hyperbranched polyglycerols containing functional initiator-cores at the focal point, well-defined linear-hyperbranched block copolymers and also negatively charged hyperbranched polyelectrolytes.rnHyperbranched oligoglycerols (DPn = 7 and 14) have been synthesized for the first time. The materials show narrow polydispersity (Mw/Mn ca. 1.45) and a very low content in cyclic homopolymers. 13C NMR evidences the dendritic structure of the oligomers and the DB could be calculated (44% and 52%). These new oligoglycerols were compared with the industrial products obtained by polycondensation which exhibit narrow polydispersity (Mw/Mn<1.3) butrnmultimodal distribution in SEC. Detailed 13C NMR and Maldi-ToF studies reveal the presence of branched units and cyclic compounds. In comparison, the hyperbranched oligoglycerols comprise a very low proportion of cyclic homopolymer which render them very interesting materials for biomedical applications for example.rnThe site isolation of the core moiety in dendritic structure offers intriguing potential with respect to peculiar electro-optical properties. Various initiator-cores (n-alkyl amines, UVabsorbing amines and benzophenone) for the ROMBP of glycidol have been tested. The bisglycidolized amine initiator-cores show the best control over the molecular weight and the molecular weight distribution. The photochemical analyses of the naphthalene containingrnhyperbranched polyglycerols show a slight red shift, a pronounced hypochromic effect (decrease of the intensity of the band) compared with the parent model compound and the formation of a relative compact structure. The benzophenone containing polymers adopt an open structure in polar solvents. The fluorescence measurements show a clear “dendritic effect” on the fluorescence intensities and the quantum yield of the encapsulated benzophenone.rnA convenient 3-step strategy has been developed for the preparation of well-defined amphiphilic, linear-hyperbranched block copolymers via hypergrafting. The procedure represents a combination of carbanionic polymerization with the alkoxide-based, controlled ring-opening multibranching polymerization of glycidol. Materials consisting of a polystyrene linear block and a hyperbranched polyglycerol block exhibit narrow polydispersity (1.01-1.02rnfor 5.4% to 27% wt. PG and 1.74 for 52% wt. PG) with a high grafting efficiency. The strategy was also extended to materials with a linear polyisoprene block.rnDetailed investigations of the solution properties of the block copolymers with linear polystyrene blocks show that block copolymer micelles are stabilized by the highly branched block. The morphology of the aggregates is depending on the solvent: in chloroform monodisperse spherical shape aggregates and in toluene ellipsoidal aggregates are formed. On graphite these aggregates show interesting features, giving promising potential applications with respect to the presence of a very dense, functional and stable hyperbranched block.rnThe bulk morphology of the linear-hyperbranched block copolymers has been investigated. The materials with a linear polyisoprene block only behave like complex liquids due to the low Tg and the disordered nature of both components. For the materials with polystyrene, only the sample with 27% wt. hyperbranched polyglycerol forms some domains showing lamellae.rnThe preparation of hyperbranched polyelectrolytes was achieved by post-modification of the hydroxyl groups via Michael addition of acrylonitrile, followed by hydrolysis. In aqueous solution materials form large aggregates with size depending on the pH value. After deposition on mica the structures observed by AFM show the coexistence of aggregates andrnunimers. For the low molecular weight sample (PG 520 g·mol-1) extended and highly ordered terrace structures were observed. Materials were also successfully employed for the fabrication of composite organic-inorganic multilayer thin films, using electrostatic layer-bylayer self-assembly coupled with chemical vapor deposition.

Silica-Supported Gold Nanoparticles: Synthesis, Characterization and Reactivity

The main aim of this work was the synthesis and applications of functionalized-silica-supported gold nanoparticles. The silica-anchored functionalities employed, e.g. amine, alkynyl carbamate and sulfide moieties, possess a notable affinity with gold, so that they could be able to capture the gold precursor, to spontaneously reduce it (possibly at room temperature), and to stabilize the resulting gold nanoparticles. These new materials, potentially suitable for heterogeneous catalysis applications, could represent a breakthrough among the “green” synthesis of supported gold nanoparticles, since they would circumvent the addition of extra reducing agent and stabilizers, also allowing concomitant absorption of the active catalyst particles on the support immediately after spontaneous formation of gold nanoparticles. In chapter 4 of this thesis is also presented the work developed during a seven-months Marco Polo fellowship stay at the University of Lille (France), regarding nanoparticles nucleation and growth inside a microfluidic system and the study of the corresponding mechanism by in situ XANES spectroscopy. Finally, studies regarding the reparation and reactivity of gold decorated nanodiamonds are also described. Various methods of characterization have been used, such as ultraviolet-visible spectroscopy (UV-Vis), Transmission Electron Microscopy (TEM), Dynamic Light Scattering (DLS), X-ray Fluorescence (XRF), Field Emission Gun Scanning Electron Microscopy (SEM-FEG), X-ray Photoionization (XPS), X ray Absorption Spectroscopy (XAS).

Synthesis and characterization of temperature- and light-responsive polymers and block copolymers

In summary, thermoresponsive polyacrylamides with various amounts of different photoswitchable side groups, i. e. azobenzene, salicylideneaniline and fulgimide were successfully prepared. As such, in a first step three different chromophores with an amine functionality were synthesized. The synthesis of the stimuli-responsive materials was based on the RAFT polymerization of activated ester acrylates followed by a polymer analogous reaction with different amines. The procedure has been designed to allow the synthesis of well-defined materials with functional groups. All copolymers prepared in this way showed a LCST in aqueous solution. The LCST was in general decreased by increasing the amount of hydrophobic dye incorporated into the thermoresponsive polymer. However, in the case of the fulgimide, the LCST was hardly affected by the chromophore. For azobenzene containing PNIPAM polymers and analogues, higher LCST values were measured after irradiation of the polymer sample solutions with UV-light (Delta LCSTmax = 7.3°C). A reversible light-induced solubility change within a certain temperature range was possible. In contrast to this, irradiated samples of salicylideneaniline containing thermoresponsive copolymers showed an irreversible increase in the LCST (Delta LCSTmax = 13.0°C). Fulgimide chromophores did not influence the LCST of PNIPAM based copolymers after UV-light exposure.rnSimilar to the thermoresponsive polyacrylamides with azobenzene side groups, poly(oligo(ethylene glycol) methyl ether methacrylate) [P(OEGMA)] polymers with azobenzene end groups showed a LCST shift upon UV-irradiation. These polymers were synthesized by RAFT polymerization using a functional chain transfer agent (CTA). For this, PFP-CTA was used as a RAFT-agent for end group functionalization of (thermoresponsive) polymers. In contrast to the statistically arranged copolymers with azobenzene side groups, P(OEGMA) polymers with terminal azobenzene showed a linear increase of the LCST shifts with increasing amount of chromophore (Delta LCSTmax = 4.3°C). Noteworthy, the chemical nature of the end group exhibited a strong influence on the LCST in the case of short thermoresponsive P(OEGMA) polymers.rnThe investigation on temperature- and lightresponsive polymers was transferred onto block copolymers capable to self-assemble into polymeric micelles. Therefore, PEO-b-PNIPAM block copolymers with azobenzene moieties were synthesized successfully. These polymers showed a “smart” behavior in aqueous solution, as the reversible formation and disruption of the micelles could either be controlled by temperature or using light as a stimulus. The usefulness of these materials was demonstrated by encapsulation of a hydrophobic dye in the core of the micelle. Such materials might have a great potential as a model system for several technical or biological applications.rnFinally, double thermoresponsive block copolymers forming micellar structures in a certain temperature range with functional end groups could successfully be synthesized. These “smart materials” based on POEGMA-b-PNIPMAM have been demonstrated to be very promising for a temperature selective immobilization on a protein surface. This might be a suitable concept for further biological applications.rnConcluding, different thermoresponsive copolymers and block copolymers with lightresponsive moieties arranged along the backbone or located at the chain ends were successfully prepared and investigated. By controlling the nature of functional groups and their respective incorporation ratios, the LCST could be dialed in precisely. Further, the LCST of the polymers could be triggered by light. A light-controlled disruption of micellar structures could be shown for functional block copolymers. The importance of end groups of thermoresponsive polymers was demonstrated by a temperature-controlled protein-polymer binding of a terminal biotin-functionalized double thermoresponsive polymer. The synthetic approaches and the material properties presented here should be promising for further research and applications beyond this dissertation.rn

Studio degli effetti della mordenzatura con acido fluoridrico sul disilicato di litio utilizzato in odontoiatria

Scopo dello studio: valutare i cambiamenti indotti da diversi trattamenti di mordenzatura sulla morfologia superficiale e sulla microstruttura di due vetro-ceramiche a base disilicato di litio (IPS e.max® Press e IPS e.max® CAD) ed esaminarne gli effetti sia sull’adesione con un cemento resinoso che sulla resistenza alla flessione. Materiali e metodi: Settanta dischetti (12 mm di diametro, 2 mm di spessore) di ogni ceramica sono stati preparati e divisi in 5 gruppi: nessun trattamento (G1), HF 5% 20s (G2), HF 5% 60s (G3), HF 9.6% 20s (G4), HF 9.6% 60s (G5). Un campione per ogni gruppo è stato analizzato mediante profilometro ottico e osservato al SEM. Per gli altri campioni è stato determinato lo shear bond strength (SBS) con un cemento resinoso. Dopo l’SBS test, i campioni sono stati caricati fino a frattura utilizzando il piston-on-three-ball test per determinarne la resistenza biassiale alla flessione. Risultati: L’analisi morfologica e microstrutturale dei campioni ha rivelato come diversi trattamenti di mordenzatura producano delle modifiche nella rugosità superficiale che non sono direttamente collegate ad un aumento dei valori di adesione e dei cambiamenti microstrutturali che sono più rilevanti con l’aumento del tempo di mordenzatura e di concentrazione dell’acido. I valori medi di adesione (MPa) per IPS e.max® CAD sono significativamente più alti in G2 e G3 (21,28 +/- 4,9 e 19,55 +/- 5,41 rispettivamente); per IPS e.max® Press, i valori più elevati sono in G3 (16,80 +/- 3,96). La resistenza biassiale alla flessione media (MPa) è più alta in IPS e.max® CAD (695 +/- 161) che in IPS e.max® Press (588 +/- 117), ma non è non influenzata dalla mordenzatura con HF. Conclusioni: il disilicato di litio va mordenzato preferibilmente con HF al 5%. La mordenzatura produce alcuni cambiamenti superficiali e microstrutturali nel materiale, ma tali cambiamenti non ne influenzano la resistenza in flessione.

Protezione di condotte sottomarine con materassi articolati in cls (acbm) e materassi bituminosi sarmac

Tesi svolta in collaborazione con Officine Maccaferri S.p.A e con il LIDR (Laboratorio di Ingegneria Idraulica) dell’Università di Bologna. Descrive caratteristiche tecniche di condotte in acciaio, polietilene ad alta densità (PEAD) e resina poliestere rinforzata con fibre di vetro (PRFV), evidenziando vantaggi/svantaggi del loro impiego. Fornisce una descrizione delle modalità di posa delle condotte in relazione ai fattori che condizionano la scelta della tecnica più idonea. Affronta il problema della stabilizzazione e protezione delle condotte soggette all’azione idrodinamica di onde e correnti nelle zona sotto costa e a possibili fattori di rischio esterni. Descrive tecniche di protezione delle condotte sottomarine: interramento (trenching), ricoprimento con materiale roccioso (rock dumping), stabilizzazione con elementi puntuali di appesantimento (concrete collars).Sono descritte le soluzioni di protezione offerte da Officine Maccaferri: materassi articolati in blocchi di calcestruzzo (ACBM) e materassi in geotessuto riempiti di materiale bituminoso (SARMAC). Essi vengono posati sopra la condotta, in posizione longitudinale o trasversale al suo asse, e hanno duplice scopo: (i) incrementarne il peso e la stabilità ai carichi idrodinamici esercitati da onde e correnti e (ii) proteggere la condotta da urti. Partendo dai risultati del modello sperimentale descritto in Gaeta et al. (2012) che evidenziano problemi di erosione localizzata intorno a condotta posata su fondale mobile protetta con materasso ACBM dovuti alla discontinuità materiale del mezzo si valuta, attraverso uno studio numerico, la opportunità di modificare il materasso, ponendo sotto i blocchetti un geotessile. Utilizzando un modello numerico, COBRAS, per la simulazione 2DV del campo idrodinamico si analizza l’effetto di smorzamento del campo di velocità e di vorticità indotto dall’aggiunta del geotessuto simulato come mezzo poroso. I dati sono stati elaborati con MATLAB per ricavare le mappature attorno alla condotta. I test numerici riguardano 3 configurazioni: SARMAC, ACBM, GEO (ACBM+Geotessuto) poggiate su una condotta di diametro costante e sono state analizzate per 2 condizioni di onde regolari di diversa altezza e periodo. Dagli studi emerge che, per casi di condotta posata su fondo mobile, si consiglia l’utilizzo di materassi SARMAC o materassi ACBM modificati con aggiunta di geotessuto. Inoltre il geotessuto svolge anche funzione filtrante, per cui permette il passaggio dell’acqua ma allo stesso tempo trattiene il materiale solido movimentato, senza pericolo di erosione. La presenza dello strato di geotessile non incide sui parametri caratteristici di stabilità globale del materasso ACBM. Si è compiuta un’analisi comparativa tra SARMAC e ACBM per valutare la convenienza delle due soluzioni. Si propone un esempio di dimensionamento nel caso di protezione di un cavo sottomarino comparando caratteristiche tecniche dei materassi SARMAC e ACBM senza geotessile e facendo valutazioni economiche di massima da cui emerge la maggiore convenienza dei materassi ACBM.

La cardiomiopatia aritmogena come causa di scompenso cardiaco e trapianto di cuore

Scopo dello studio: la cardiomiopatia aritmogena (CA) è conosciuta come causa di morte improvvisa, la sua relazione con lo scompenso cardiaco (SC) è stata scarsamente indagata. Scopo dello studio è la definizione della prevalenza e incidenza dello SC, nonché della fisiopatologia e delle basi morfologiche che conducono i pazienti con CA a SC e trapianto di cuore. Metodi: abbiamo analizzato retrospettivamente 64 pazienti con diagnosi di CA e confrontato i dati clinici e strumentali dei pazienti con e senza SC (NYHA III-IV). Abbiamo analizzato i cuori espiantati dei pazienti sottoposti a trapianto presso i centri di Bologna e Padova. Risultati: la prevalenza dello SC alla prima osservazione era del 14% e l’incidenza del 2,3% anno-persona. Sedici pazienti (23%) sono stati sottoposti a trapianto. I pazienti con SC erano più giovani all’esordio dei sintomi (46±16 versus 37±12 anni, p=0.04); il ventricolo destro (VD) era più dilatato e ipocinetico all’ecocardiogramma (RVOT 41±6 versus 37±7 mm, p=0.03; diametro telediastolico VD 38±11 versus 28±8 mm, p=0.0001; frazione di accorciamento 23%±7 versus 32%±11, p= 0.002). Il ventricolo sinistro (VS) era lievemente più dilatato (75±29 ml/m2 versus 60±19, p= 0.0017) e globalmente più ipocinetico (frazione di eiezione = 35%±14 versus 57%±12, p= 0.001). Il profilo emodinamico dei pazienti sottoposti a trapianto era caratterizzato da un basso indice cardiaco (1.8±0.2 l/min/m2) con pressione capillare e polmonare tendenzialmente normale (12±8 mmHg e 26±10 mmHg). L’analisi dettagliata dei 36 cuori dei pazienti trapiantati ha mostrato sostituzione fibro-adiposa transmurale nel VD e aree di fibrosi nel VS. Conclusioni: Nella CA lo SC può essere l’unico sintomo alla presentazione e condurre a trapianto un rilevante sottogruppo di pazienti. Chi sviluppa SC è più giovane, ha un interessamento del VD più severo accanto a un costante interessamento del VS, solo lievemente dilatato e ipocinetico, con sostituzione prevalentemente fibrosa.

Progetto di una macchina bicchieratrice con movimentazione mediante attuatori elettromeccanici

Questa tesi è nata all'interno dell'ufficio tecnico di I.P.M. Engineering, dove ho potuto analizzare le diverse fasi del processo di formatura dei tubi plastici. I tubi di materiale plastico già da molti anni vengono utilizzati in moltissimi campi, come ad esempio l’edilizia; questo comporta la nascita di linee automatiche in grado di produrre una grande quantità di tubi. Per portare il tubo dal luogo di produzione a quello di utilizzo si è reso necessario il taglio dei tubi e per realizzare reti per il trasporto di gas, liquidi o cavi, si è rivelata fondamentale la nascita del “bicchiere”, una svasatura che consente di collegare due spezzoni tra loro. Nel mio lavoro di tesi sono partito analizzando le varie fasi del processo produttivo dei tubi in materiale plastico e poi mi sono focalizzato sul processo di bicchieratura, che è un processo fondamentale e molto delicato. In seguito all’analisi della bicchieratrice standard, ho studiato una soluzione innovativa, eliminando l’impianto oleodinamico, in modo da renderla più prestazionale, più solida e diminuire i costi di manutenzione. È stato eseguito uno studio della nuova struttura adattata per poter inserire la nuova componentistica. La tipologia di macchina scelta produce tubi di diametro 250 mm, dimensioni intermedie nella gamma prodotta da I.P.M., perché è quella più significativa dal punto di vista della adattabilità. Il nuovo metodo di movimentazione elettromeccanico potrà poi essere utilizzato anche nelle altre macchine di taglia diversa.

Studio di uno scambiatore di calore per produzione istantanea di acqua calda per uso sanitario

In questo elaborato viene presentato lo studio ed ottimizzazione della geometria del serpentino di uno scambiatore di calore per la produzione di acqua sanitaria di tipo Puffer. L’analisi volta all’ottimizzazione del serpentino è stata eseguita con l’obiettivo di soddisfare i vincoli di progetto dello scambiatore, ovvero la portata elaborata e la temperatura di uscita dell’acqua sanitaria dallo scambiatore, ma cercando di ridurre la superficie del serpentino e quindi il costo dello scambiatore stesso, in particolare agendo su parametri geometrici quali il passo dell’elica H, il diametro dell’avvolgimento Db ed il diametro del tubo d. A tal fine è stato sviluppato un modello del processo di scambio termico all’interno dello scambiatore Puffer basato sulle equazioni di bilancio di energia e raffinato attraverso correlazioni teorico/sperimentali reperite in letteratura. In una prima fase l’ottimizzazione è stata svolta con l’ulteriore vincolo progettuale d=41mm e Db=510mm, al fine di garantire maggiore flessibilità nell’utilizzo del serpentino per altre tipologie di scambiatori. In questo caso, si è giunti ad un risparmio del 14% sull’area di scambio termico del serpentino rispetto al modello tuttora in produzione, quantificabile in una riduzione dei costi del 19% sul costo totale del Puffer. In una seconda fase si è proceduto ad una ottimizzazione libera dai vincoli d e Db, con l’obiettivo di valutare la massima riduzione di area di scambio termico del serpentino, stimata in circa il 23% nel caso in cui sia possibile in futuro valutare modifiche sostanziali alla geometria dello scambiatore. Lo studio completato dall’analisi dell’isolamento del corpo dello scambiatore, finalizzata a ridurre le dispersioni verso l’ambiente esterno. In particolare è stato valutato l’utilizzo di Isolmix, in alternativa all’esistente isolamento in pannelli di poliuretano, dimostrando come sia possibile ottenere una ulteriore riduzione del materiale impiegato e quindi dei costi di realizzazione dello scambiatore.

Funktionelle Analyse der Meprin-Metalloproteasen alpha und beta hinsichtlich ihrer physiologischen Regulation und biologischen Bedeutung

Im Rahmen dieser Arbeit ist es gelungen, ein besseres Verständnis der beiden Metalloproteasen Meprin α und β in ihrem proteolytischen Netzwerk hinsichtlich ihrer physiologischen Regulation durch endogene Inhibitoren, wie auch der biologischen Funktion von Meprin α für den Prozess der Angiogenese, zu erlangen. rnMit der Analyse des ersten identifizierten endogenen Meprin-Inhibitors Fetuin-A gelang die Bestimmung der Ki-Werte für Meprin α mit 4,2 x 10-5 M und 1,1 x 10-6 M für Meprin β. Des Weiteren konnte für Meprin β eine Schnittstelle im Fetuin-A validiert werden. Mit der Identifizierung von Cystatin C, einem Cystein-Protease-Inhibitor als endogener Inhibitor der Metalloprotease Meprin α, mit einem Ki-Wert von 8,5 x 10-6 M, wurden erstmals Proteasefamilie-übergreifende Inhibitionsmechanismen für Metalloproteasen offenbart.rnDie Analyse von drei potentiellen Meprin-Inhibitoren, identifiziert als Substrate in einem neuen Proteomics-Analyse-Verfahren terminal amine isotopic labeling of substrates (TAILS), ermöglichte die Charakterisierung von Elafin als spezifischen Meprin α-Inhibitor. Für Elafin ist es außerdem gelungen, die durch TAILS ermittelte Schnittstelle für Meprin α mittels Edman Sequenzierung zu validieren. Der secretory leukocyte peptidase inhibitor (SLPI), ein Elafin-Homolog, konnte als weiteres Meprin α-Substrat bestätigt werden. Außerdem gelang es, die Meprin α-Schnittstelle im SLPI zu validieren.rnEin weiteres Ziel dieser Arbeit war, ein besseres Verständnis der biologischen Funktion der Metalloprotease Meprin α zu erlangen. Hier konnte in vivo eine stark pro-angiogene Wirkung von Meprin α gezeigt werden und erstmals die Expression von Meprin α, jedoch nicht von Meprin β, in Endothelzellen nachgewiesen werden. Zugleich konnte mit der Analyse der durch die TAILS-Methode identifizierten pro-angiogenen Substrate vascular endothelial growth factor A (VEGF-A) und connective tissue growth factor (CTGF) der Regulationsmechanismus von Meprin α in der Angiogenese identifiziert werden. So ist Meprin α durch die Spaltung von CTGF in der Lage VEGF-A – gebunden und inhibiert im Komplex mit CTGF – durch proteolytische Spaltung von CTGF wieder freizusetzen. Somit wird die inhibierte VEGF-A-Aktivität wieder vollständig hergestellt. rnMit der Charakterisierung der ersten endogenen Meprin-Inhibitoren ist es gelungen, zu einem besseren Verständnis der endogenen Regulation der Meprine beizutragen und eine Proteasefamilie-übergreifende endogene Regulation aufzuzeigen. Mit der Entdeckung von Meprin α als pro-angiogene Protease und der Entschlüsselung des angiogenen Regulationsmechanismus konnte eine essentielle biologische Bedeutung dieser Protease beschrieben werden.rn

Functionalization of hyperbranched polycarbosilanes - block copolymers and electrochemistry

Polycarbosilanes are a class of polymers at the interface between organic and inorganic chemistry. They are characterized by a high thermal and chemical inertness and high flexibility, especially pronounced for branched structures. Linear polycarbosilanes are well known as precursors for the preparation of SiCx ceramics. Additionally, more sophisticated architectures like dendrimers, hyperbranched polymers or block copolymers have been the subject of research for more than a decade. The scope of this work was to expand the properties and fields of application for polycarbosilane-containing structures. Thus, the work is divided in two major parts. The first part covers the synthesis and characterization of hyperbranched polycarbosilanes containing organometallic moieties. Hyperbranched poly-carbosilanes were synthesized using hydrosilylation of diallylmethylsilane and methyldiundecenylsilane. The degree of branching for polydiallymethylsilane was determined using standard 1H-NMR spectroscopy. The functional building blocks ferrocenyldimethylsilane and diferrocenylmethylsilane were synthesized which contain an isolated ferrocene unit or two ferrocenes bridged by silicon, respectively. Hyperbranched polycarbosilanes functionalized with ferrocenyl moieties were synthesized by modification of preformed polymers or by copolymerization of AB2 carbosilane monomers with AX-type ferrocenylsilanes. Polymers with Mn = 2500-9000g/mol and ferrocene contents of up to 67wt% were obtained. Electrochemical characterization by cyclic voltammetry revealed that polymers functionalized with isolated ferrocene units showed a single reversible oxidation wave, while voltammograms for polymers functionalized with diferrocenyl silane exhibited two well-separated reversible oxidation-reduction waves. This shows that the polymer bound ferrocenes bridged by silicon are electronically communicating and thus oxidation of the first ferrocene shifts the oxidation potential for the adjacent one. The polymers were utilized successfully for the preparation of modified electrodes with persistent and reproducible electrochemical response in organic solvents as well as in aqueous solution. The presented work has proven that ferrocenyl-functionalized hyperbranched polymers exhibit similar electrochemical properties as the analogous dendrimers. In a further approach it was shown that hyperbranched polymers containing organometallic moieties can be synthesized by polymerization of a new ferrocene-containing AB2 monomer - diallylferrocenylsilane. The second part of this work is dedicated to the preparation of core-functional hyperbranched polycarbosilanes. Low molecular weight ambifunctional molecules were synthesized that contain double bonds for the attachment of a polycarbosilane polymer as well as a second functionality available for further reaction and modification. Reactive vinyl groups in the core molecule allow an efficient attachment of hyperbranched polycarbosilane which was proven by MALDI-ToF and GPC. In combination with slow monomer addition techniques molecular weight and polydispersity of the polymers were controlled successfully. Core-functional polymers were characterized by NMR-spectroscopy, MALDI-ToF and GPC. Polymers with polydispersities <2 and molecular weights up to 5300g/mol were obtained. Transformation of the double bonds of the carbosilane was demonstrated with various silanes using hydrosilylation reaction or hydrogenation. Additionally, the core-functionality was varied resulting in polymers with bromo-, phthalimide-, amine- or azide moieties. Thus, a versatile synthetic strategy was developed that allows the synthesis of tailor-made polymers.A promising approach is the application of the polymer building blocks in copolymer synthesis. Bisglycidolization of amine-functional polycarbosilanes produces macro-initiators that are suitable for the multibranching-ring opening polymerization of glycidol. This experiments lead to the first example of hyperbranched-hyperbranched amphiphilic block copolymers, hb-PG-b-hb-PCS. Furthermore, the implementation of copper-catalyzed cycloaddition between azide-functional polycarbosilane and alkyne-functional poly(ethoxyethyl glycidylether) resulted in linear-hyperbranched block copolymers. The facile removal of acetal protecting groups provided convenient access to lin-PG-b-hb-PCS.

Hyperbranched polyglycerols as building blocks for complex amphiphilic structures: synthesis, characterization and applications

Among hyperbranched polymers, polyglycerol is one of the most promising and commonly used macromolecules due to its biocompatibility and versatility. However, the synthesis of high molecular weight polyglycerols still involves many intricacies and has only been understood to a limited extent. Furthermore, only few complex structures like star or block copolymers incorporating polyglycerol have been realized so far. Particularly biocompatible block copolymers are considered promising candidates for biomedical applications.rnThe scope of this thesis was the enhancement of the synthetic process leading to polyglycerol derivatives which implies improved molecular weight control for a broad molecular weight range as well as the assembly of more complex structures like amphiphilic block copolymers. Further insight into the relation between reaction solvent, degree of deprotonation during the ring-opening multibranching polymerization of glycidol and the characteristics of the obtained polymers were achieved within the scope of this work. Based on these results, a novel concept for the preparation of hyperbranched polyglycerols with molecular weights up to 20,000 g/mol was developed, applying a two step synthesis pathway. Starting from a partially deprotonated TMP core, low molecular weight hb-PGs were prepared using the known synthetic protocol that has been established since the late 1990ies. In a subsequent reaction sequence, these well defined polymers were used as hyperbranched macroinitiator cores in order to obtain high molecular weight hb-PGs with remarkably low polydispersity (Mw/Mn < 1.8). Molecular weight control was shown to be excellent and undesired low molecular weight side products were absent. Furthermore, the technique of continuous spin fractionation has been discovered as an efficient method for polyglycerol work-up to remove quantitatively residual monomer- and oligomer traces from hb-PG compositions to result in samples with significantly reduced polydispersities. Based on these results the synthesis of amphiphilic block copolymers containing hydrophilic hyperbranched polyglycerol blocks and linear, apolar poly(propylene oxide) blocks has been significantly improved and augmented to hb-PG-b-l-PPO-b-hb-PG ABA block copolymers. The influence of different polyglycerol-based amphiphiles on the fibril formation was studied by Thioflavin T Fluorescence showing remarkable increasing lag times which is promising in order to enhance the stability of this protein. In addition the first synthesis of poly(glyceryl glycerols) (PGG), introducing a new solketyl glycidyl ether monomer (IGG) was shown. It was furthermore demonstrated that core-functional carbosilane wedges allow application in block copolymer synthesis. Bisglycidolized amine functional polymers were successfully employed as macroinitiators for glycidol polymerization. This resulted in the first example of amphiphilic hyperbranched-hyperbranched polymer structures. Finally, it has been shown that the previously reported synthetic pathway to carboxylated hyperbranched polyglycerol polyelectrolytes can also be applied for the amphiphilic linear-hyperbranched block copolymers. These novel biocompatible and highly amphiphilic polyelectrolytes offer great potential for further investigations. rnrn

Synthese und präklinische Evaluation von neuen antioxidativen Substanzen zur Neuroprotektion

Oxidativer Stress ist seit über 25 Jahren als ein Charakteristikum vieler pathologischer Prozesse bekannt. Helmut Sies beschrieb bereits in den 1980er Jahren oxidativen Stress als Störung in der prooxidativ – antioxidativen Balance zugunsten der prooxidativen Seite, wodurch es potentiell zu Schäden in verschiedenen Geweben kommt. Oxidativer Stress tritt sowohl bei neurodegenerativen Erkrankungen wie Morbus Alzheimer, Morbus Parkinson und zerebraler Ischämie, bei peripheren Erkrankungen wie Arteriosklerose, als auch beim Alterungsprozess per se auf und wird als Ursache oder zumindest als ein krankheitsfördernder Faktor diskutiert. Die in in vitro-Experimenten als vielversprechend antioxidativ getesteten Substanzen (meist phenolhaltig) ergaben in mehreren klinischen Studien keinen signifikanten Vorteil. Um die Ursachen dieser Ergebnisse näher zu analysieren, wurde in der vorliegenden Arbeit auf Basis des cytoprotektiven Phenothiazins, einem aromatischen trizyklischen Amin, der Einfluss von verschiedenen Substituenten im Hinblick auf Lipophilie, Radikalstabilisierung und Löslichkeit des Moleküls chemisch vorhergesagt. Anhand dieser in silicio Struktur-Wirkungs-Beziehung wurden anschließend neue Modellsubstanzen synthetisiert, welche sich systematisch in den drei zuvor genannten Parametern unterschieden. Dies wurde durch Substitution von unterschiedlich langen Fettsäureketten, von löslichkeitsbeeinflussenden funktionellen Gruppen, oder durch Anellierung zusätzlicher aromatischer Ringe erreicht. In den folgenden Versuchen zu antioxidativer Kapazität, zellulärem Überleben, Lipidperoxidation und Proteinoxidation zeigte sich, dass mit gesteigerter Stabilität der korrespondierenden Radikale und mit wachsender Lipophilie die antioxidativ cytoprotektive Aktivität der neuen Derivate bis zu einer gewissen Grenze (logP ≈ 7) signifikant zunahm; über diesen Wert hinaus sank die Effektivität wieder ab. Benzanellierte Phenothiazine entwickelten mit EC50-Werten von ungefähr 8-10 nM die höchste mittlere effektive Wirkkonzentration in oxidativ geschädigten, klonalen hippocampalen Neuronen (HT-22 Zellen). Dies entspricht einer etwa 20-fachen Verbesserung gegenüber α-Tocopherol, welches bisher als bestes natürliches lipophiles Antioxidans angesehen wurde. Im Vergleich zu Phenothiazin erreichen die neuen Antioxidantien immerhin eine höhere Effektivität um den Faktor 4. Folglich sind es sowohl Aspekte der Löslichkeit und der Distribution, welche die Potenz der gegenwärtigen Antioxidantien limitieren als auch Aspekte der Radikalstabilisierung, die Einfluss auf die primäre Wirksamkeit nehmen. Dieses Wissen sollte beim zukünftigen Design neuer, antioxidativ potenter Moleküle im Hinblick auf ihren langfristigen Einsatz bei neurodegenerativen Erkrankungen von Nutzen sein.

Fully bio-based epoxy resins

Epoxy resins are mainly produced by reacting bisphenol A with epichlorohydrin. Growing concerns about the negative health effects of bisphenol A are urging researchers to find alternatives. In this work diphenolic acid is suggested, as it derives from levulinic acid, obtained from renewable resources. Nevertheless, it is also synthesized from phenol, from fossil resources, which, in the current paper has been substituted by plant-based phenols. Two interesting derivatives were identified: diphenolic acid from catechol and from resorcinol. Epichlorohydrin on the other hand, is highly carcinogenic and volatile, leading to a tremendous risk of exposure. Thus, two approaches have been investigated and compared with epichlorohydrin. The resulting resins have been characterized to find an appropriate application, as epoxy are commonly used for a wide range of products, ranging from composite materials for boats to films for food cans. Self-curing capacity was observed for the resin deriving from diphenolic acid from catechol. The glycidyl ether of the diphenolic acid from resorcinol, a fully renewable compound, was cured in isothermal and non-isothermal tests tracked by DSC. Two aliphatic amines were used, namely 1,4-butanediamine and 1,6-hexamethylendiamine, in order to determine the effect of chain length on the curing of an epoxy-amine system and determine the kinetic parameters. The latter are crucial to plan any industrial application. Both diamines demonstrated superior properties compared to traditional bisphenol A-amine systems.