Síntese de copolímeros em bloco por reações one-pot com processos RAFT e ROP simultâneos / Synthesis of block copolymers by one-pot reactions with simultaneous raft and rop process

Freitas, Augusto Gonzaga Oliveira de

04 February 2016

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The present work describes a methodology of controlled synthesis of block copolymers by one-pot reactions involving simultaneous RAFT and ROP processes mediated by a bifunctional compound which acts as a chain transfer agent (CTA) for the RAFT process and co-initiator of the ROP process. Reactions involving the RAFT of Styrene (St) and the ROP of ε-Caprolactone (ε-CL) were performed to obtain PS-b-PCL diblock copolymers. The catalysts Sn(Oct)2 and diphenyl phosphate (DPP) were evaluated in the ROP process. Diphenyl phosphate is the most appropriate for this kind of reaction, since Sn(Oct)2 proved to be avid when interacted with CTA, interfering antagonistically in the radical equilibrium of the RAFT process. The reactions were always controlled when DPP was used as a ROP catalyst, wherein copolymers with narrow molar mass distribution were obtained in the end. This methodology was employed in the synthesis of other linear and graft amphiphilic block copolymers, proving to be an excellent alternative for this purpose. Thermoresponsive copolymers based on Poly(oligo(ethylene glycol)methyl ether methacrylate) (POEGMA) and pH responsive based on Poly(acrylic acid) (PAA) were obtained. The physicochemical properties of the copolymers were investigated in solid state as well as in solution, and the results are in total agreement with values reported in the literature. / Este trabalho descreve uma metodologia de síntese controlada de copolímeros em bloco por reações one-pot envolvendo processos RAFT e ROP simultâneos, mediados por um composto bifuncional que atua como agente de transferência de cadeia (CTA) para o processo RAFT e co-iniciador do processo ROP. Reações envolvendo a RAFT do estireno (St) e a ROP da ε-Caprolactona (ε-CL) foram realizadas para obter copolímeros dibloco PS-b-PCL. Os catalisadores Sn(Oct)2 e difenil fosfato (DPP) foram avaliados, sendo o último o mais apropriado para este tipo de reação, uma vez que Sn(Oct)2 mostrou-se ávido por interações com o CTA, interferindo antagonicamente no equilíbrio de radicais do processo RAFT. As reações mantiveram o caráter controlado quando DPP foi usado como catalisador ROP, sendo que ao final, copolímeros com estreita distribuição de massa molar foram obtidos. Esta metodologia foi empregada na síntese de outros copolímeros em bloco anfifílicos lineares e enxertados, se mostrando uma excelente alternativa para este propósito. Copolímeros termoresponsivos à base de Poli(metacrilato de poli(etilenoglicol)metil éter) (POEGMA) e pH responsivos à base de Poli(ácido acrílico) (PAA) foram obtidos. As propriedades físico-químicas dos copolímeros foram investigadas em estado sólido e em solução, e os resultados estão em plena concordância com valores relatados na literatura.

RAFT e ROP simultâneas

One-pot

Copolímeros em bloco

Policaprolactona

Simultaneous RAFT and ROP

One-pot

Block copolymers

Polycaprolactone

PCL-Calcium Phosphate 3D Printed Scaffolds For Bone Tissue Regeneration

Garcia Perez Delabat, Javier

January 2020

The design and selection of a biomaterial will depend on its specific application and the required properties for that application, both mechanical physicochemical properties. Biomaterials can be extremely helpful in order to treat and help the human body to heal and repair faster any kind of fracture produced in bones. Calcium phosphate scaffolds produced by sol-gel procedures have been used for this purpose with a great success regarding mechanical properties and biocompatibility. This is the reason why new techniques needs to be developed to be able to produce scaffolds in a faster way and to reach a personalized treatment to each patient. By using 3D printing techniques, a new and promising scope is open for bone tissue engineering due to the possibility of printing scaffolds with any shape and complexity through CAD design and modelling. In this project 3D printed scaffolds with a matrix combination of polymers and calcium phosphate will be produced and studied for bone tissue regeneration. Self-setting alpha tricalcium phosphate (α-TCP) based cement inks combined with polycaprolactone (PCL) were optimized, and 3D printed structure scaffolds were successfully generated by direct ink writing. Afterwards, the scaffolds were subjected to different hardening processes in order to obtain different hydroxyapatite microstructure morphologies and were characterised by different methodologies. It was demonstrated the important effect of obtaining a complete transformation from the α-TCP into hydroxyapatite in the mechanical properties. An improvement in the mechanical properties at compression was achieved with the addition of PCL within the scaffold ́s structure and a different fracture mode of the scaffolds was observed.

scaffold

bone

regeneration

tissue

biomaterials

calcium phosphates

3D printing

medical device

polycaprolactone

Biomaterials Science

Biomaterialvetenskap

Materials Engineering

Materialteknik

Medical Materials

Medicinska material och protesteknik

Ceramics

Keramteknik

Comprehensive histological evaluation of bone implants

Rentsch, Claudia, Schneiders, Wolfgang, Manthey, Suzanne, Rentsch, Barbe, Rammelt, Stefan

14 July 2014

To investigate and assess bone regeneration in sheep in combination with new implant materials classical histological staining methods as well as immunohistochemistry may provide additional information to standard radiographs or computer tomography. Available published data of bone defect regenerations in sheep often present none or sparely labeled histological images. Repeatedly, the exact location of the sample remains unclear, detail enlargements are missing and the labeling of different tissues or cells is absent. The aim of this article is to present an overview of sample preparation, staining methods and their benefits as well as a detailed histological description of bone regeneration in the sheep tibia. General histological staining methods like hematoxylin and eosin, Masson-Goldner trichrome, Movat’s pentachrome and alcian blue were used to define new bone formation within a sheep tibia critical size defect containing a polycaprolactone-co-lactide (PCL) scaffold implanted for 3 months (n = 4). Special attention was drawn to describe the bone healing patterns down to cell level. Additionally one histological quantification method and immunohistochemical staining methods are described.

info:eu-repo/classification/ddc/570

ddc:570

Perméabilité et endothélialisation in vivo d’une prothèse vasculaire de petit diamètre électrofilée avec membrane bioactive

Fortin, William

11 1900

Les maladies cardiovasculaires continuent à être parmi les principales sources de morbidité et de mortalité dans le monde [1, 2]. Malgré les avancées importantes dans le traitement médical et endovasculaire de ces pathologies, le besoin en revascularisations artérielles par pontage ne cesse de prendre de l’ampleur. Les conduits vasculaires synthétiques actuels performent bien lorsqu’utilisés pour des vaisseaux de calibre moyen, mais ceux de petit diamètre (< 6 mm) démontrent encore à ce jour des taux de perméabilité beaucoup trop bas [3-11]. Deux hypothèses pouvant expliquer ce phénomène sont le manque d’endothélialisation et de compliance des conduits synthétiques actuels [12-18]. Le but de cette étude était de créer et d’évaluer la performance d’un nouveau conduit de petit diamètre avec un potentiel d’endothélialisation supérieur et une compliance similaire aux vaisseaux natifs. Cette étude présente deux aspects distincts : l’élaboration et l’évaluation in vitro d’un conduit électrofilé de petit diamètre (5 mm) composé d’une structure de polyuréthane/polycaprolactone (PU/PCL) et d’un revêtement bioactif de sulfate de chondroïtine (CS) par une équipe spécialisée en biomatériaux, puis l’élaboration et l’évaluation d’un essai in vivo mettant à l’épreuve la performance du néo-conduit dans un modèle de grand animal par une seconde équipe. Les conduits à l’étude (eVG-CS) ont démontré une compliance 10 fois supérieure à celle des conduits de polytétrafluoroéthylène expansé (ePTFE) actuellement utilisés en clinique, ainsi qu’une bonne stabilité au vieillissement in vitro. L’évaluation in vivo, sous forme de pontages carotidiens bilatéraux chez le mouton, a par contre démontré l’infériorité des conduits à l’étude comparativement aux contrôles en ePTFE en termes de perméabilité et de par l’absence d’endothélialisation significative des greffons à l’étude. L’infériorité in vivo de ces nouveaux pontage électrofilés bioactifs par rapport aux résultats favorables in vitro fut attribuée principalement à la trop faible porosité des greffons à l’étude ainsi qu’à l’incapacité du revêtement de CS à favoriser un processus d’endothélialisation rapide. L’établissement d’un greffon plus poreux avec un revêtement bioactif différent représente une piste d’amélioration future de cette structure prometteuse de PU/PCL. / Cardiovascular diseases present a growing burden of morbidity and mortality worldwide [1, 2]. Despite significant advances in medical and endovascular treatments of these pathologies, the need of revascularization by arterial bypass is increasing. Actual synthetic vascular conduits perform well when used on large-diameter arteries, but small-diameter conduits (<6 mm) still show unacceptably low medium- and long-term permeability rates [3-11]. Two hypotheses can explain this phenomenon – the inability of synthetic bypasses to create a neo-endothelium and compliance mismatch between the graft and the native artery [12-18]. The goal of this study was to create and evaluate the performance of a novel small-diameter vascular conduit with superior endothelialization properties and a compliance similar to native vessels. This study presents two distinct aspects : the in vitro elaboration and evaluation of an electrospun, small-diameter (5 mm) vascular conduit made up of a scaffold of polyurethane/polycaprolactone (PU/PCL) combined with a chondroitin sulfate (CS) bioactive coating by a team specialized in biomaterials, and the elaboration and evaluation of an in vivo trial testing the performance of the novel vascular graft in a large animal model by a second team. The experimental conduits (eVG-CS) showed an in vitro compliance 10-times superior to their commercially-available expanded polytetrafluoroethylene (ePTFE) counterparts, while remaining stable after aging trials. However, in vivo evaluation, as bilateral interposition carotid bypasses in sheep, showed the novel bypasses to be inferior to ePTFE controls in terms of permeability and by the absence of significant endothelialization. The in vivo inferiority of these novel bioactive electrospun grafts despite favorable in vitro results was attributed to the low porosity of the grafts and to the inability of the CS coating to promote the endothelialization process. Establishment of a more porous graft with a different bioactive coating represents the future of the evaluation of this promising PU/PCL structure.

cardiovasculaire

pontage

électrofilage

polyurethane

polycaprolactone

sulfate de chondroïtine

compliance

Cardiovascular

Bypass

Electrospinning

Chondroitin

Exploiting Substituent Effects to Control the Mechanochromic Response of Spiropyran-containing Copolymers

Kempe, Fabian

18 May 2021

Mechanochromic polymers respond to external force by changing their color. This can be achieved by the incorporation of a molecular switch such as spiropyran (SP) into polymers. SPs can be isomerized by mechanical force from their colorless form into colored merocyanines. Main chain copolymerization of spiropyrans allows investigation of their mechanochromic behavior and potential use as force sensors. So far, several covalent polymer matrices have been used to investigate the mechanochromic response of SPs, among them poly(ε caprolactone) (PCL). Less investigated is how the mechanochromic response can be fine-tuned by substituent effects. First, PCL with differently substituted spiropyrans at the chain’s midpoint were used in order to investigate the effect of different substituents and their regiochemistry on the isomerization behavior of SPs under mechanical stress. A low activation barrier was observed for NO2 substitution of “ortho”-spiropyrans compared to no substitution (R = H). In order to investigate phenyl-substituted “para,para” spiropyrans, a newly developed kinked polyarylene was employed as covalent matrix material. This new polyarylene (PmmpP) has a meta,meta,para connection in its backbone and exhibits excellent mechanical properties. Its high strength allows the isomerization of this molecular switch with a large activation barrier. The phenyl-substituted “para,para” spiropyran showed transient mechanochromism and was switched 25 times in force-and-release cycles. The synthesis of PmmpP was carried out by a Suzuki polycondensation in three steps from commercial starting materials. To further capitalize on the simplicity and properties of PmmpP, a two step synthesis of a semifluorinated kinked polyarylene was demonstrated by direct arylation polycondensation with tetrafluorobenzene (F4). This partially fluorinated PmmpF4 was synthesized with a variety of side-chains. Resulting polymers exhibited a large range of glass transition temperatures, allowing for the production of tailor-made smart materials.

info:eu-repo/classification/ddc/540

ddc:540

Makromolekulare Chemie

Copolymere

Spiropyrane

Lichtabsorption

Fluorpolymere

Kreuzkupplungsreaktion

Elektrostatické zvlákňování modifikovaných biopolymerů pro medicínské aplikace / Electrospinning of Modified Biopolymers for Medical Applications

Pavliňáková, Veronika

January 2016

Předkládaná disertační práce se zabývá přípravou a charakterizací nových biokompatibilních nanovláken s potenciální aplikací v medicíně. V této práci byl výběr jednotlivých složek pro přípravu nanovlákenného materiálu zvolen tak, aby vyhovoval nárokům tkáňového inženýrství. Literární rešerše shrnuje poznatky o elektrostatickém zvlákňování a o jeho parametrech. Dále se věnuje možnostem elektrostatického zvlákňování proteinů kolagenu a želatiny a jejich směsmi se syntetickými polymery a biopolymery a anorganickými plnivy. Teoretická část řeší také různé postupy síťování nanovláken vedoucí ke zlepšení jejich hydrolytické stability a mechanických vlastností. Poslední část je zaměřena na anorganické nanotrubky halloysitu (HNT), které získaly svou pozornost díky svým vynikajícím fyzikálním a biologickým vlastnostem. V experimentální části byly zpracovány dvě případové studie, z nichž každá se zabývá přípravou nanovlákenných biomateriálů s potenciální aplikací v medicíně. První studie je zaměřena na přípravu a charakterizaci nových hydrolyticky stabilních antibakteriálních želatinových nanovláken modifikovaných pomocí oxidované celulózy. Unikátní inhibiční účinky nanovláken byly testovány na kmenu bakterie Escherichia coli pomocí metody chemické bioluminiscence. Kultivované buňky lidského papilárního adenokacinomu plic prokázaly dobrou adhezi a proliferaci k povrchu nanovláken. Druhá část popisuje vliv zdroje a množství anorganických halloysitových nanotrubek na strukturu a vlastnosti amfifilních nanovláken ze směsi želatiny a syntetického polykaprolaktonu. Přídavek HNT zlepšil tepelnou stabilitu, mechanické vlastnosti (jak tuhost, tak prodloužení) a snížil krystalinitu nanovláken. HNT z různých zdrojů neměl vliv na chování buněk, ale mírně ovlivnil proliferaci a životaschopnost buněk na povrchu nanovláken.

Novel Applications of Co-Extruded Multilayer Polymeric Films

Armstrong, Shannon Renee

23 August 2013

No description available.

Engineering

Plastics

Polymers

multilayer coextrusion

CO2 membrane

shape memory

optical films

polycaprolactone

confined crystallization

PEBAX

nanolayer

polyurethane

gas separation

lead phthalocyanine

Fabrication and Degradation of Electrospun Scaffolds from L-Tyrosine Based Polyurethane Blends for Tissue Engineering Applications

Spagnuolo, Michael

16 May 2011

No description available.

Chemical Engineering

tyrosine polyurethane

electrospinning

fibers

tissue engineering scaffold

electrospun

degradation

hydrolytic

tissue engineering

polycaprolactone

polyethylene glyco

controllable degradation

control

pore size

fiber diameter

Porosity Characterization of Electrospun Polycaprolactone via Laser Metrology

Liu, Yi-xiao

06 September 2022

No description available.

Mechanics

Materials Science

Mechanical Engineering

Nanotechnology

Nanoscience

Polymers

Engineering

Electrospinning

Porosity

Nanofiber

Characterization

Metrology

Heterogeneity

Polycaprolactone

Bending Instability

Sintering

Self-assembly

Alignment

Multi-needle Electrospinning

Fabrication Characterisation and Optimisation of Electrospun Scaffolds for Ligament Tissue Reconstruction. The Development of an Anterior Cruciate Ligament (ACL) Analogue using Electrospun PCL, PVA Hydrogel and Polyester Sutures

Agbabiaka, Oluwadamilola A.

January 2022

Year 2019, football, rugby, netball and skiing had most occurring ACL injuries, listed by United Kingdom National Ligament Report (NLR). The standard procedure treatment of complete laceration of the ACL, is performed by tissue autograft implantation designed from a patellar tendon, for replacement of damaged tissue using orthopaedic surgery. The aim of this thesis is to design and fabricate an ACL graft, attempting to mimic the natural ACL, for the purpose of tissue reconstruction. The desired graft analogues exhibited properties imitating native connective tissue, reducing pain through drug delivery with great biocompatibility and enhance suture mechanical strength. Various biomaterials were implemented into this study, utilising strategies; polymer solution fabrication, electrospinning, hydrogel synthesis, mechanical braiding and graft assembly to fabricate an ACL graft. The polymeric material poly (E- caprolactone) (PCL) was researched, utilising its ability to fabricate scaffolds. Results showed, three analogue ACL grafts (Braided PCL-BP, Braided PCL + Hydrogel-BPH & Braided PCL + Sutures-BPS) created utilising the properties of braiding, hydrogels and sutures, ultimately improving the versatility of electrospinning for tissue engineering and reconstruction. Graft analogues were tested and compared against patellar tendons producing similar tensile properties. Poly vinyl alcohol (PVA) hydrogels successfully held ibuprofen, revealing drug delivery characteristics, polyester threads improved mechanical properties of electrospun grafts and dry degradation showed that PCL did not lose significant mass over two months. Conclusion, tensile strength of patella tendon was 395x, 790x & 56x of analogue grafts (BP, BPH & BPS) respectively, having potential for improvement of tensile parameters for ligament reconstruction.

Polycaprolactone (PCL)

Electrospinning

Grafts

Hydrogel synthesis

Fabrication

Electrospun scaffolds

Anterior Cruciate Ligament (ACL)

Poly vinyl alcohol (PVA) hydrogels

Polyester sutures

Mechanical tensile test