Polymer-based additive manufacturing: optimization for high-performance degradable polymers / Polymerbaserad additiv tillverkning: optimering för högpresterande nedbrytbara polymerer

Chen, Danjing

January 2022

I det här utvecklas en reproducerbar polymerisationsmetod för att uppnå en stabil produktion av poly(ε-caprolakton-co-p-dioxanon) (PCLDX), skala upp filamenttillverkningen för att producera 1.75 mm långa filament och optimera 3D-utskriftsprocessen för att tillverka ställningar/anordningar för mjukvävnadsteknik. PCLDX, med högre nedbrytningshastighet och bättre flexibilitet jämfört med poly(ε-caprolactone) (PCL), syntetiserades på ett reproducerbart sätt genom sampolymerisering. Den syntetiserade PCLDX uppvisade önskvärd sammansättning (85 mol% CL : 15 mol% DX), molmassa (cirka 40 kg∙mol-1), dispersitet (cirka 1.8) och relativt låg smältpunkt (cirka 45 ℃). För att tillverka tredimensionella matriser av PCLDX utformades och optimerades två processer, filamenttillverkning och 3D printning. För filamenttillverkningsprocessen användes låg extruderingstemperatur (65 och 80 ℃) och låg extruderingshastighet (100 cm∙min-1) för att spara energi och minimera nedbrytningen. PCLDX-filament med en jämn diameter på 1.75 mm tillverkades genom att använda en passande partikelstorlek (diameter på 3-4 mm) och en kylmetod (blandning av vatten och torris, 0 ℃). De erhållna filamenten uppvisade lägre Youngs modul (25 % lägre än PCL), PCLDX batch oberoende termiska egenskaper, god ytkvalitet och printbarhet. Den termiska nedbrytningen av PCLDX under processen var försumbar och molmassan var nästintill oförändrad. Processen har skalats upp för att producera stora mängder PCLDX-filament, vars produktivitet nådde upp till 140 g∙h-1. Tredimensionella matriser tillverkades genom att printa önskad design genom manuell matning och låg printhastighet (5 mm/s). En isplatta användes för att kyla ner maskinen under printningen för att undvika bucklingproblem. Det optimerade printprotokollet genererade ingen termisk nedbrytning av polymeren, påverkade inte polymerens molmassa eller dispersitet. De producerade matriserna hade samma termiska egenskaper oavsett polymerbatch och god ytkvalitet. Det optimerade printprotokollet användes också framgångsrikt för att skriva ut komplicerade prototyper, t.ex. menisk och knäprotes för potentiella biomedicinska tillämpningar. / In this project, we develop a reproducible polymerization method to achieve stable production of poly(ε-caprolactone-co-p-dioxanone) (PCLDX), scale-up the filament fabrication to produce 1.75 mm filaments and optimize 3D printing process to manufacture scaffolds/devices for soft tissue engineering. PCLDX, with a higher degradation rate and better pliability compared to poly(ε-caprolactone) (PCL), was successfully synthesized by reproducible copolymerization of ε-caprolactone (CL) and p-dioxanone (DX). The synthesized PCLDX exhibited a polymer composition of 85 mol% CL : 15 mol% DX, molar mass around 40 kg∙mol-1, dispersity around 1.8, and relatively low melting point around 45 ℃. From PCLDX particles to final scaffolds, two processes, including filament fabrication and scaffold manufacturing, were designed and optimized. For the filament fabrication process, low extrusion temperature (65 and 80 ℃) and low extrusion speed (100 cm∙min-1) were applied to save energy and minimize degradation. PCLDX filaments with an even diameter of 1.75 mm were fabricated using suitable particle sizes (diameter of 3-4 mm) and a cooling method (mixture of water and dry ice, 0℃). The obtained filaments exhibited lower young’s modulus (25% lower than PCL), consistent thermal properties, good surface quality, and printability. The thermal degradation of PCLDX during the process was negligible, and the molar mass was kept almost unchanged. The process has been scaled up to produce high amounts of PCLDX filaments, whose productivity rate reached up to 140 g∙h-1. For the scaffold manufacturing process, porous scaffolds were manufactured by feeding manually and printing slowly (5 mm/s). The printability was assessed and validated using produced PCL/PCLDX filaments and commercial PCL filaments. The optimized printing protocol maintained the molar mass and dispersity of the material. The produced scaffolds possessed consistent thermal properties independent on polymer batches and good surface quality. The optimized printing protocol was also successfully applied to print complicated prototypes, such as meniscus and knee prosthesis for potential biomedical applications.

copolymerization

fused filament fabrication

degradable polymer

scaffold

3D printing

sampolymerisering

tillverkning av filament

nedbrytbar polymer

tredimensionella matriser

3D printing

Polymer Technologies

Polymerteknologi

Encapsulation moléculaire de molécules actives hydrophobes par des polymères amphiphiles aléatoires à base de poly(acide diméthylmalique) / Molecular encapsulation of hydrophobic active molecules thanks to random amphiphilic polymers based on poly(dimethylmalic acid)

Schott, Marc-Alexandre

30 November 2012

Nombre de principes actifs rencontrent des problèmes liés à leur faible hydrosolubilité : mauvaise biodisponibilité, métabolisation désactivante, effets secondaires. Pour contourner ce problème, des polyélectrolytes amphiphiles aléatoires ont déjà été étudiés. S'ils ont amélioré la solubilité apparente de composés hydrophobes, ils étaient parallèlement toxiques ou non dégradables, donc non éliminables par l'organisme. Dans ce mémoire, nous présentons la synthèse de différentes malolactones substituées. La copolymérisation anionique par ouverture de cycle de ces lactones a permis d'obtenir une famille de polyanions amphiphiles aléatoires avec un taux d'hydrophobisation variable et contrôlé, et des chaînes latérales, aliphatiques ou aromatique, de différentes longueurs. Ces polymères augmentent la solubilité aqueuse apparente de composés hydrophobes. Lorsque le composé est cationique, une synergie entre interactions hydrophobes et électrostatiques a été mise en évidence. La solubilité apparente de molécules anti-infectieuses a ainsi pu être améliorée de plusieurs ordres de grandeur. Dans les conditions d'une administration intraveineuse (NaCl 9 g.L-1 et pH = 7,5), ces polymères forment préférentiellement des micelles intramoléculaires qui ne sont pas sensibles aux effets de dilution. Un tel système de transport de principes actifs ne produirait donc aucune libération prématurée. Ces polymères étant de plus dégradables, ils pourraient libérer le principe actif et seraient éliminables par l'organisme. Les polymères présentés dans ce manuscrit remplissent les principaux critères physico-chimiques pour former un système de transport de molécules actives. / Lots of drugs meet some problems because of their poor water-solubility : poor bioavailability, desactivating metabolization, side effects. To overcome these problems, some amphiphilic polyelectrolytes have already been studied. They increased the apparent water-solubility of hydrophobic compounds, but were toxic or not degradable, thus could not be eliminated from the body. In this work, we describe the synthesis of various substituted malolactones. Anionic ring opening copolymerization of these lactones yielded random amphiphilic polyanions with varying and controlled hydrophobization ratio and aliphatic and aromatic side chains with different lengths. These polymers increase the apparent water-solubility of hydrophobic compounds. A synergy between hydrophobic and electrostatic interactions has been demonstrated when the compound is cationic. The apparent solubility of anti-infectious drugs could thus be increased by several orders of magnitude. Under intravenous injection conditions (NaCl 9 g.L-1 and pH = 7,5), these polymers form preferentially intramolecular micelles, which are not sensitive to dilution effects. As a consequence, such a drug transport system would yield no premature release. Being also degradable, these polymers could release the drug and be eliminated from the body. They meet all main physico-chemical criteria to become a drug transport system.

Polyesters dégradables

Poly(acide diméthylmalique)

Micelles intramoléculaires

Transport de principes actifs

Random amphiphilic polyelectrolytes

Degradable polyesters

Poly(dimethylmalic acid)

Intramolecular micelles

Drug transport

576

Factors regulating urea-nitrogen recycling in ruminants

Doranalli, Kiran

17 January 2011

A series of experiments were conducted to investigate how dietary and ruminal factors regulate urea-N recycling in ruminants. In Experiments 1, 2, and 3, urea-N kinetics were measured using 4-d intra-jugular infusions of [15N15N]-urea. In Experiment 1, the objective was to determine how interactions between dietary ruminally-degradable protein (RDP) level and ruminally-fermentable carbohydrate (RFC) may alter urea-N transfer to the gastrointestinal tract (GIT) and the utilization of this recycled urea-N in rapidly-growing lambs fed high N diets. The dietary factors were: 1) dry-rolled barley (DRB) vs. pelleted barley (PB) as the principal source of RFC; and 2) dietary levels of RDP of 60 vs. 70% (% of CP). Nitrogen intake, fecal and urinary N excretion increased as dietary RDP level increased; however, method of barley processing had no effect on N use. Dietary treatment had no effect on urea-N kinetics; however, endogenous production of urea-N (UER) exceeded N intake. For all diets, 0.669 to 0.742 of UER was recycled to the GIT; however, 0.636 to 0.756 of the GER was returned to the ornithine cycle. In Experiment 2, the objective was to delineate the effects of partial defaunation of the rumen on urea-N kinetics in lambs fed low or high N diets. Treatments were: 1) partial defaunation (PDFAUN) vs. faunation (FAUN); and 2) low (10%, LOW) vs. high (15%, HIGH) dietary CP. Linoleic acid-rich sunflower oil was fed as a partially-defaunating agent. Partial defaunation decreased ruminal NH3-N concentrations. The UER and urinary urea-N excretion (UUE) were lower, and the GER tended to be lower in PDFAUN as compared to FAUN lambs; however, as a proportion of UER, GER was higher and the proportion of recycled urea-N that was utilized for anabolism (i.e., UUA) tended to be higher in PDFAUN lambs. The UER, GER and UUE were higher in lambs fed diet HIGH; however, as a proportion of UER, GER and its anabolic use were higher in lambs fed diet LOW. In Experiment 3, the objective was to delineate how, at similar N intakes, interactions between ruminal partial defaunation and altering dietary RFC may alter urea-N kinetics and N metabolism in lambs. Treatments were: 1) PDFAUN vs. FAUN; and 2) DRB vs. PB. Urinary N excretion was lower and retained N was higher in PDFAUN compared to FAUN lambs. The UER was similar across treatments; however, the GER, expressed as absolute amounts or as a proportion of UER, UUA, and microbial N supply were higher in PDFAUN compared to FAUN lambs. As a proportion of UER, GER was higher, whereas UUE was lower in lambs fed PB compared to those fed DRB. In Experiment 4, the objective was to determine the effects of feeding oscillating dietary CP compared to static dietary CP concentration on N retention and in vitro urea flux across ruminal epithelia. Dietary treatments consisted of a medium CP diet (MEDIUM; 12.8% CP) or diets with oscillating CP content (OSC) fed in two different sequences i.e., 2 d of low CP (9.7% CP) followed by 2 d of high CP (16.1% CP; OSC-HIGH) or vice-versa (OSC-LOW). Ruminal epithelial tissues were collected and mounted in Ussing chambers under short-circuit conditions and the serosal-to-mucosal urea flux (Jsm-urea) was measured using 14C-urea. Although N intake was similar, retained N and microbial N supply were greater in lambs fed the OSC diets compared to those fed the MEDIUM diet. The total Jsm-urea was higher in lambs fed the OSC-LOW compared to those fed the OSC-HIGH diet. Across diets, the addition of phloretin (a known specific inhibitor of facilitative urea transporter-B; UT-B) reduced Jsm-urea; however, phloretin-insensitive Jsm-urea was the predominant route for transepithelial urea transfer. In summary, data presented in this thesis provide new insights that the improved N retention typically observed in defaunated ruminants and in ruminants fed oscillating dietary CP concentrations is partly mediated via increased urea-N recycling to the GIT and utilization of recycled urea-N for anabolic purposes.

Urea transporter-B

Ussing chamber

Oscillating dietary protein

Urea flux

Partial-defaunation

Dietary crude protein

Gastrointestinal tract

Barley grain processing

Ruminally-degradable protein

Ruminants

Urea-nitrogen recycling

Nitrogen metabolism

Factors regulating urea-nitrogen recycling in ruminants

Doranalli, Kiran

17 January 2011

A series of experiments were conducted to investigate how dietary and ruminal factors regulate urea-N recycling in ruminants. In Experiments 1, 2, and 3, urea-N kinetics were measured using 4-d intra-jugular infusions of [15N15N]-urea. In Experiment 1, the objective was to determine how interactions between dietary ruminally-degradable protein (RDP) level and ruminally-fermentable carbohydrate (RFC) may alter urea-N transfer to the gastrointestinal tract (GIT) and the utilization of this recycled urea-N in rapidly-growing lambs fed high N diets. The dietary factors were: 1) dry-rolled barley (DRB) vs. pelleted barley (PB) as the principal source of RFC; and 2) dietary levels of RDP of 60 vs. 70% (% of CP). Nitrogen intake, fecal and urinary N excretion increased as dietary RDP level increased; however, method of barley processing had no effect on N use. Dietary treatment had no effect on urea-N kinetics; however, endogenous production of urea-N (UER) exceeded N intake. For all diets, 0.669 to 0.742 of UER was recycled to the GIT; however, 0.636 to 0.756 of the GER was returned to the ornithine cycle. In Experiment 2, the objective was to delineate the effects of partial defaunation of the rumen on urea-N kinetics in lambs fed low or high N diets. Treatments were: 1) partial defaunation (PDFAUN) vs. faunation (FAUN); and 2) low (10%, LOW) vs. high (15%, HIGH) dietary CP. Linoleic acid-rich sunflower oil was fed as a partially-defaunating agent. Partial defaunation decreased ruminal NH3-N concentrations. The UER and urinary urea-N excretion (UUE) were lower, and the GER tended to be lower in PDFAUN as compared to FAUN lambs; however, as a proportion of UER, GER was higher and the proportion of recycled urea-N that was utilized for anabolism (i.e., UUA) tended to be higher in PDFAUN lambs. The UER, GER and UUE were higher in lambs fed diet HIGH; however, as a proportion of UER, GER and its anabolic use were higher in lambs fed diet LOW. In Experiment 3, the objective was to delineate how, at similar N intakes, interactions between ruminal partial defaunation and altering dietary RFC may alter urea-N kinetics and N metabolism in lambs. Treatments were: 1) PDFAUN vs. FAUN; and 2) DRB vs. PB. Urinary N excretion was lower and retained N was higher in PDFAUN compared to FAUN lambs. The UER was similar across treatments; however, the GER, expressed as absolute amounts or as a proportion of UER, UUA, and microbial N supply were higher in PDFAUN compared to FAUN lambs. As a proportion of UER, GER was higher, whereas UUE was lower in lambs fed PB compared to those fed DRB. In Experiment 4, the objective was to determine the effects of feeding oscillating dietary CP compared to static dietary CP concentration on N retention and in vitro urea flux across ruminal epithelia. Dietary treatments consisted of a medium CP diet (MEDIUM; 12.8% CP) or diets with oscillating CP content (OSC) fed in two different sequences i.e., 2 d of low CP (9.7% CP) followed by 2 d of high CP (16.1% CP; OSC-HIGH) or vice-versa (OSC-LOW). Ruminal epithelial tissues were collected and mounted in Ussing chambers under short-circuit conditions and the serosal-to-mucosal urea flux (Jsm-urea) was measured using 14C-urea. Although N intake was similar, retained N and microbial N supply were greater in lambs fed the OSC diets compared to those fed the MEDIUM diet. The total Jsm-urea was higher in lambs fed the OSC-LOW compared to those fed the OSC-HIGH diet. Across diets, the addition of phloretin (a known specific inhibitor of facilitative urea transporter-B; UT-B) reduced Jsm-urea; however, phloretin-insensitive Jsm-urea was the predominant route for transepithelial urea transfer. In summary, data presented in this thesis provide new insights that the improved N retention typically observed in defaunated ruminants and in ruminants fed oscillating dietary CP concentrations is partly mediated via increased urea-N recycling to the GIT and utilization of recycled urea-N for anabolic purposes.

Urea transporter-B

Ussing chamber

Oscillating dietary protein

Urea flux

Partial-defaunation

Dietary crude protein

Gastrointestinal tract

Barley grain processing

Ruminally-degradable protein

Ruminants

Urea-nitrogen recycling

Nitrogen metabolism

Nouveaux polymères issus de la polymérisation par étapes organocatalysée de monomères aldéhydiques : polyaldols et polybenzoïnes linéaires et polyacétals hyperramifiés / New polymers synthesis by organocatalyzed step-growth polymerization of aldehydic monomers : polyaldols, linear polybenzoin and hyperbranched polyacetals

Liu, Na

11 July 2013

A partir des mêmes briques élémentaires portant des fonctions aldéhydes et mettant en jeu des catalyseurs différents, trois types de nouveaux polymères ont été synthétisés par la polymérisation par étape dans ce travail. Dans la première partie, bis-cétone et bis-aldéhyde monomères ont directement polymérisé dans des conditions stoechiométriques par ce processus offrant polyaldols. Divers catalyseurs et des effets de la nature du solvant ont ensuite été étudiés. Dans la deuxième partie, nous avons travaillé sur la polymérisation organo-catalysée de monomères bis-aldéhydes par des précurseurs de carbènes N-hétérocycliques chiraux et achiraux pour synthétiser les polymères chiraux. Enfin, la directe polymérisation des monomères de type AB2 avec une fonction aldéhyde fournit une facile synthétique approche à polyacétals hyperbrramifiés portant nombreux périphéries aldehyiques. Ces polyacétals hyperramifiés sans défauts structuraux ont ensuit été introduirsé par des chaines de PEO par réaction de « PEGylation ». L’utilisation de la postpolymymérisation permet d’offre un large varité de la propriété du polymère, à l’aide ces périphéries aldéhydiques. Enplus, les polyacétals hyperramifiés sont dégradables, et facilement hydrolysés en milieu acide. / Using the same building blocks carrying aldehyde function with different catalysts, three types of new polymers were synthesized by step-growth polymerization in this work. In the fist part, bis-ketone and bis-aldehyde monomers have been directly polymerized under stoichiometric conditions by this process affording polyaldols. The effects of different catalysts and solvent nature have also been studied. In the second part, we have studied the organo-catalyzed polymerization of bis-aldehyde monomers by precursors of chiral and achiral N-heterocyclic carbene for synthesis of chiral polymer. Finally, polymerization of AB2-type monomers with one function of aldehyde provides a facile synthetic approach to hyperbranched polyacetals carrying numerous peripheral aldehydes. These defect free hyperbranched polyacetals have been introduced PEO chains by "PEGylation" reaction. A wide variety of other functional moieties could be introduced by postpolymerization with peripheral aldehydes. Besides, the hyperbranched polyacetals are degradable in essence, being readily hydrolyzed under acidic condition.

Polymérisation par étape

Organocatalyse

Monomères aldéhydiques

Polyaldols

Polybenzoïnes linéaires

Carbènes N-hétérocycliques

Polyacétals hyperramifiés

Dégradable par voie acide

Step-growth polymerization

Organocatalysis

Aldehydic monomer

Polyaldol

Linear polybenzoin

N-heterocyclic carbenes

Hyperbranched polyacetal

Acid degradable

Sustainable Polymer Production: Investigating Synthesis and Copolymerization of Cyclic Ketene Acetals / Hållbar polymerproduktion: Undersökning och syntes samt sampolymerisation av cykliska ketenacetaler

Bourraman, Soufian, Staffas, Stella, Brandt, Adam, Isaksson, Simon

January 2023

The large amount of non-degradable plastic waste has become a significant environmental concern, leading to an increased need for degradable plastics. Here in, to create degradable polymers, polyesters were produced through radical ring opening polymerization using cyclic ketene acetals. The cyclic ketene acetal monomer 5,6-benzo-2-methylene-1,3-dioxepane has been prepared for the synthesis of homo- and copolymers with methyl methacrylate, α-methylene-γ-valerolactone, α-methylene-γ-butyrolactone, cholesterol methacrylate and limonene acrylate. The polymerization was conducted using radical ring opening polymerization both in bulk and solution polymerization. The structural characteristics of the polymer were determined by different characterization methodologies, including TGA, DSC, SEC, FTIR and 1D 1H-NMR. The results obtained from 1H-NMR analysis showed the composition of the copolymers. TGA analysis revealed the thermal stability of the polymers and their degradation patterns. DSC analysis provided information about the glass transition temperatures (Tg’s) of the polymers. Moreover, the Tg indicated the presence and amounts of comonomers in the copolymers. Overall, the results showed the influence of different comonomers on the properties of the polymers by successfully incorporating the comonomers in the polymer. The thermal properties for polymers containing methyl methacrylate became more thermally stable. The Tg, analyzed with DSC, shifted from the Tg of homopolymers indicating the incorporation of both monomers. The polymers were successfully degraded via hydrolysis in alkaline conditions breaking them down into smaller pieces making them easier to recycle. To conclude, the results all indicate that the incorporation of BMDO and thereby possibly other CKA-monomers into the polymer chains of commonly used plastics could provide valuable tools in the recycling of said plastics.

Monomers

polymers

radical

radical ring opening polymerization

polymerization

BMDO

MMA

MVL

MBL

comonomer

copolymer

rROP

sustainable

biobased

degradable

monomer synthesis

plastic

polyester

bulk

solution

NMR

FTIR

TGA

DSC

SEC

hydrolysis

molecular weight

diol

ester bonds

Polymer Chemistry

Polymerkemi

Chromatography and extraction techniques for new evaluation methods of polyolefins long-term performance

Burman, Lina

January 2005

Chromatography and extraction techniques, and also chemiluminescence have been utilized to develop new rapid and informative tools in the evaluation of long-term properties and environmental effects of polymeric materials. Methods were developed for classification of materials and for early and rapid degradation detection. Degradable polyethylene films were classified on the basis of their incorporated prooxidant systems using chromatographic fingerprinting of carboxylic acids, the dominating type of degradation product. The fingerprints were also shown to be useful for prediction of the degradation states and evaluation of the degradation mechanisms. Classification and prediction models were obtained by Multivariate Data Analysis, where the diacids were grouped according to both their type of prooxidant system and their state of degradation. The use of total luminescence intensity (TLI) measurements was also investigated as a means of classifying films and for the early detection of degradation. Comparisons were carried out with common techniques, e.g. FTIR and DSC, after both thermal and UV oxidation. TLI gave an earlier detection of degradation and was more sensitive than carbonyl index and crystallinity measurements to relative differences in degradation between the materials. It furthermore offered complementary information regarding changes in activation energies during the course of the degradation. The results were compared with the chromatographic fingerprints. A new way to evaluate the low temperature long-term stabilisation efficiency of antioxidants was investigated. A prooxidant was used to obtain catalytic oxidation, instead of using thermal acceleration, to evaluate the stabilisation efficiency of antioxidants at low temperatures but still during reasonably short aging times. Comparisons were made between polypropylene films stabilised with primary antioxidants (Irganox 1076, Irganox 1010 and α-tocopherol) with and without the prooxidant manganese stearate at different temperatures. The relative efficiencies of the antioxidants obtained under prooxidant acceleration test correlated better than thermal acceleration test with the results of a long-term low temperature test. Additives in plastic packaging materials may affect the environment after migration from the packaging to e.g. their contents, especially if they consist of organic aqueous solutions or oils. The use of Solid-Phase Microextraction (SPME) for the specific task of extraction from an organic aqueous solution such as a simulated food or pharmaceutical solution consisting of 10 vol-% ethanol in water was investigated. Methods were developed and evaluated for extraction both with direct sampling and with headspace sampling. If the extraction method and temperature were selected to suit the concentration levels of the analytes, it was possible to quantify several degradation products simultaneously. Comparisons made with Solid Phase Extraction showed the advantage of SPME for this purpose. / QC 20100929

Chemical engineering

polymer

chromatographic fingerprinting

gas-chromatography – mass spectrometry

GC-MS

degradable polyethylene

prooxidant systems

chemiluminescence

oxidation

degradation mechanisms

accelerated ageing

antioxidants

transformation products

microwave assisted extraction

MAE

solid-phase microextraction

SPME

volatiles

solid phase extraction

SPE

Kemiteknik

Chemical engineering

Kemiteknik

Single-Step Covalent Functionalization of Polylactide Surfaces / Nano Patterened Covalent Surface Modification of Poly(ε-caprolactone)

Källrot, Martina

January 2005

<p>Degradable polymers have gained an increased attention in the field of biomedical applications over the past decades, for example in tissue engineering. One way of improving the biocompatibility of these polymers is by chemical surface modification, however the risk of degradation during the modification procedure is a limiting factor. In some biomedical applications, for example in nerve guides, a patterned surface is desired to improve the cell attachment and proliferation.</p><p>In this thesis a new non-destructive, single-step, and solvent free method for surface modification of degradable polymers is described. Poly(L-lactide) (PLLA) substrates have been functionalized with one of the following vinyl monomers; N-vinylpyrrolidone (VP), acrylamide (AAm), or maleic anhydride (MAH) grafts. The substrates were subjected to a vapor phase atmosphere constituted of a mixture of a vinyl monomer and a photoinitiator (benzophenone) in a closed chamber at very low pressure and under UV irradiation. Poly(ε-caprolactone) (PCL), poly(lactide-co-glycolide) (PLGA), and poly(trimethylene carbonate) (PTMC) have been surface modified with VP using the same procedure to show the versatility of the method. The wettability of all of the four substrates increased after grafting. The surface compositions were confirmed by ATR-FTIR and XPS. The VP grafted PLLA, PTMC and PLGA substrates have been shown to be good substrates for the normal human cells i.e. keratinocytes and fibroblasts, to adhere and proliferate on. The topography of substrates with well defined nano patterns was preserved during grafting, since the grafted layer is very thin. We have also shown that the method is useful for a simultaneous chemical and topographical modification of substrates by masked vapor phase grafting. The surface topography was determined with SEM and AFM.</p> / <p>Intresset för användningen av nedbrytbara polymerer till biomedicinska applikationer som till exempel vävnads rekonstruktion har ökat avsevärt de senaste decennierna. Ett sätt att öka biokompatibiliteten hos dessa polymerer är genom kemisk ytmodifiering, men risken för nedbrytning under själva modifieringen är en begränsande faktor. I vissa biomedicinska applikationer, till exempel nervguider, är det önskvärt att ha en väldefinierad ytstruktur för att öka vidhäftningen och tillväxten av celler.</p><p>I den här avhandlingen presenteras en ny ickeförstörande, lösningsmedelsfri enstegsprocess för ytmodifiering av nedbrytbara polymerer. Substrat av poly(L-laktid) (PLLA) har ytfunktionaliserats med var och en av följande vinylmonomerer, N-vinylpyrrolidon (VP), akrylamid (AAm) eller maleinsyraanhydrid (MAH). Substraten har exponerats för en gasfasatmosfär av en blandning av en vinylmonomer och en fotoinitiator (bensofenon) i en tillsluten reaktor vid mycket lågt tryck och under UV-strålning. Metodens mångsidighet har även påvisats genom att ytmodifiera substrat av poly(ε-kaprolakton) (PCL), poly(laktid-co-glykolid) (PLGA) och poly(trimetylen karbonat) (PTMC) med VP. Vätbarheten ökade för alla fyra materialen efter ympning med en vinylmonomer. Ytsammansättningen fastställdes med ATR-FTIR och XPS. De VP ympade filmerna av PLLA, PLGA och PTMC visade sig vara bra substrat för mänskliga celler, i detta fall keratinocyter och fibroblaster, att vidhäfta och växa på. Yttopografin hos filmer med väldefinierade nanomönstrade ytor kunde bevaras efter ympning, tack vare att det ympade lagret är så tunt. Gasfas metoden har också visat sig användbar för att simultant ytmodifiera både kemiskt och topografiskt genom maskad gasfasympning. Yttopografin bestämdes med SEM och AFM.</p>

Vapor phase grafting

covalent surface modification

solvent free

nano patterned topography

degradable polymers

poly(ε-caprolactone)

poly(L-lactide)

poly(lactide-co-glycolide)

poly(trimethylene carbonate)

N-vinylpyrrolidone

maleic anhydride

acrylamide

Gasfasympning

kovalent ytmodifiering

lösningsmedelsfri

nedbrytbara polymerer

nanomönstrad topografi

poly(L-laktid)

poly(ε-kaprolakton)

poly(laktid-co-glykolid)

poly(trimetylen karbonat)

N-vinylpyrrolidon

maleinsyraanhydrid

akrylamid

Polymer chemistry

Polymerkemi

Covalent Surface Modification of Degradable Polymers for Increased Biocompatibility / Nano Patterened Covalent Surface Modification of Poly(ε-caprolactone)

Källrot, Martina

January 2005

Degradable polymers have gained an increased attention in the field of biomedical applications over the past decades, for example in tissue engineering. One way of improving the biocompatibility of these polymers is by chemical surface modification, however the risk of degradation during the modification procedure is a limiting factor. In some biomedical applications, for example in nerve guides, a patterned surface is desired to improve the cell attachment and proliferation. In this thesis a new non-destructive, single-step, and solvent free method for surface modification of degradable polymers is described. Poly(L-lactide) (PLLA) substrates have been functionalized with one of the following vinyl monomers; N-vinylpyrrolidone (VP), acrylamide (AAm), or maleic anhydride (MAH) grafts. The substrates were subjected to a vapor phase atmosphere constituted of a mixture of a vinyl monomer and a photoinitiator (benzophenone) in a closed chamber at very low pressure and under UV irradiation. Poly(ε-caprolactone) (PCL), poly(lactide-co-glycolide) (PLGA), and poly(trimethylene carbonate) (PTMC) have been surface modified with VP using the same procedure to show the versatility of the method. The wettability of all of the four substrates increased after grafting. The surface compositions were confirmed by ATR-FTIR and XPS. The VP grafted PLLA, PTMC and PLGA substrates have been shown to be good substrates for the normal human cells i.e. keratinocytes and fibroblasts, to adhere and proliferate on. The topography of substrates with well defined nano patterns was preserved during grafting, since the grafted layer is very thin. We have also shown that the method is useful for a simultaneous chemical and topographical modification of substrates by masked vapor phase grafting. The surface topography was determined with SEM and AFM. / Intresset för användningen av nedbrytbara polymerer till biomedicinska applikationer som till exempel vävnads rekonstruktion har ökat avsevärt de senaste decennierna. Ett sätt att öka biokompatibiliteten hos dessa polymerer är genom kemisk ytmodifiering, men risken för nedbrytning under själva modifieringen är en begränsande faktor. I vissa biomedicinska applikationer, till exempel nervguider, är det önskvärt att ha en väldefinierad ytstruktur för att öka vidhäftningen och tillväxten av celler. I den här avhandlingen presenteras en ny ickeförstörande, lösningsmedelsfri enstegsprocess för ytmodifiering av nedbrytbara polymerer. Substrat av poly(L-laktid) (PLLA) har ytfunktionaliserats med var och en av följande vinylmonomerer, N-vinylpyrrolidon (VP), akrylamid (AAm) eller maleinsyraanhydrid (MAH). Substraten har exponerats för en gasfasatmosfär av en blandning av en vinylmonomer och en fotoinitiator (bensofenon) i en tillsluten reaktor vid mycket lågt tryck och under UV-strålning. Metodens mångsidighet har även påvisats genom att ytmodifiera substrat av poly(ε-kaprolakton) (PCL), poly(laktid-co-glykolid) (PLGA) och poly(trimetylen karbonat) (PTMC) med VP. Vätbarheten ökade för alla fyra materialen efter ympning med en vinylmonomer. Ytsammansättningen fastställdes med ATR-FTIR och XPS. De VP ympade filmerna av PLLA, PLGA och PTMC visade sig vara bra substrat för mänskliga celler, i detta fall keratinocyter och fibroblaster, att vidhäfta och växa på. Yttopografin hos filmer med väldefinierade nanomönstrade ytor kunde bevaras efter ympning, tack vare att det ympade lagret är så tunt. Gasfas metoden har också visat sig användbar för att simultant ytmodifiera både kemiskt och topografiskt genom maskad gasfasympning. Yttopografin bestämdes med SEM och AFM. / QC 20101014

Vapor phase grafting

covalent surface modification

solvent free

nano patterned topography

degradable polymers

poly(ε-caprolactone)

poly(L-lactide)

poly(lactide-co-glycolide)

poly(trimethylene carbonate)

N-vinylpyrrolidone

maleic anhydride

acrylamide

Gasfasympning

kovalent ytmodifiering

lösningsmedelsfri

nedbrytbara polymerer

nanomönstrad topografi

poly(L-laktid)

poly(ε-kaprolakton)

poly(laktid-co-glykolid)

poly(trimetylen karbonat)

N-vinylpyrrolidon

maleinsyraanhydrid

akrylamid

Polymer Chemistry

Polymerkemi