DESENVOLVIMENTO, CARACTERIZAÇÃO E AVALIAÇÃO EX VIVO EM ERITRÓCITOS DE NANOCÁPSULAS POLIMÉRICAS CONTENDO FERULATO DE HEXADECILA

Pedroso, Flávia de Brito

02 September 2016

Submitted by Angela Maria de Oliveira (amolivei@uepg.br) on 2018-02-22T14:26:17Z No. of bitstreams: 1 Flávia Pedroso.pdf: 2062416 bytes, checksum: e05f376a163a4ea5fd727a8979c3cc06 (MD5) / Made available in DSpace on 2018-02-22T14:26:17Z (GMT). No. of bitstreams: 1 Flávia Pedroso.pdf: 2062416 bytes, checksum: e05f376a163a4ea5fd727a8979c3cc06 (MD5) Previous issue date: 2016-09-02 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Vários tratamentos para desordens neurológicas são malsucedidos por não poderem atingir efetivamente o Sistema Nervoso Central (SNC). A presença da barreira hematoencefálica (BHE) dificulta esse acesso e muitas substâncias são incapazes de atravessá-la quando empregadas sem qualquer modificação química ou físico-química. O ácido ferúlico, um polifenol encontrado abundantemente na natureza e bem reconhecido por sua atividade antioxidante, antiinflamatória e anticâncer, é amplamente estudado e sua atividade neuroprotetora vem sendo descrita. Um dos principais problemas, que limita sua utilização clínica, é sua baixa biodisponibilidade quando administrado por via oral, que pode ser contornado por alterações e/ou modificações em sua estrutura química e/ou pelo preparo de formulações à base de lipídeos. Desta forma, o objetivo do presente trabalho foi sintetizar um derivado lipossolúvel do AF, o ferulato de hexadecila (FH), e posteriormente obter nanocápsulas poliméricas como sistema de vetorização para sua potencial ação no SNC. O FH foi obtido por esterificação e sua caracterização estrutural foi realizada por espectroscopia na região do infravermelho com transformada de Fourier (IVTF) e de ressonância magnética nuclear. A modificação estrutural não anulou a atividade scavenger frente aos radicais DPPH•, ABTS•+ e ao HOCl. As nanocápsulas poliméricas, em concentração de 0 a 2,0 mg.mL-1, foram desenvolvidas pelo método de deposição interfacial do polímero, utilizando poli(-caprolactona) (PCL) e blendas com polietilenoglicol (PEG). Todas as formulações preparadas apresentaram partículas esféricas e de superfície lisa, como observado por microscopia eletrônica de varredura com emissão de campo (MEV), pH entre 5,75 e 6,04, tamanhos adequados, inferiores a 234 nm, índice de polidispersão inferior a 0,26, garantindo sua homogeneidade, e potencial zeta com valores negativos, entre -28 e -38 mV, sugerindo estabilidade das suspensões de nanocápsulas poliméricas. O processo de nanoencapsulação promoveu a amorfização do FH, comprovada por análise de difração de raios X, calorimetria exploratória diferencial (CED) e MEV, bem como o aumento de sua estabilidade térmica, verificado por termogravimetria e CED, e as análises efetuadas de IVTF demonstraram que não houve interação entre o FH e os polímeros utilizados. Os estudos de toxicidade em eritrócitos demonstraram que o FH, livre ou nas formulações de nanocápsulas com PCL-PEG, não apresentou ação hemolítica, mesmo com variações na dose testada e em função do tempo. Adicionalmente, apresentou ação protetora sobre a hemólise promovida pelo AAPH. A possível ação das formulações desenvolvidas sobre o SNC, considerando que possuem características adequadas para sua vetorização, deve ser investigada futuramente. / Many neurological disorder treatments are unsuccessful because they can not effectively reach the central nervous system (CNS). The presence of the blood-brain barrier (BBB) hinders this access and a lot of substances are unable to pass through it when used without any chemical or physical-chemical modification. The ferulic acid, a polyphenol found abundantly in nature and well known for its antioxidant, anti-inflammatory and anti-cancer activity, is widely studied and their neuroprotective activity has been described. One of the main problem, which limits its clinical use, is its low bioavailability when administered orally, it can be circumvented by changes in their structure and/or for preparing lipid-based formulations. In this way, the aim of this study was to synthesize a lipophilic derivative of AF, the hexadecyl ferulate (HF), and then get polymeric nanocapsules as vectoring system for its potential action in the CNS. The HF was obtained by esterification reaction and their structural characterization was performed by spectroscopy in the Fourier transform infrared spectroscopy (FTIR) and nuclear magnetic resonance. The structural modification did not annul the scavenger activity against the DPPH•, ABTS•+ and HOCl. The polymeric nanocapsules in concentration from 0 to 2.0 mg.mL-1 were developed by interfacial deposition method of the polymer using poly (-caprolactone) (PCL), and blends with polyethylene glycol (PEG). All prepared formulations presented spherical and smooth surface, as observed by scanning electron microscopy (SEM) with field emission, pH between 5.75 and 6.04, proper sizes below 234 nm, polydispersity index below 0.26, ensuring homogeneity, and zeta potential with negative values between -28 and -38 mV, suggesting stability of the suspensions of polymeric nanocapsules. The nanoencapsulation process promoted the FH amorphization. This was verified by X-ray diffraction analysis, differential scanning calorimetry (DSC) and SEM. It also promoted the increasing thermal stability of the FH which was verified by thermogravimetry and DSC, and FTIR analysis demonstrated there was no interaction between HF and the used polymers.Toxicity studies in erythrocytes showed that HF , in free or nanocapsule formulations of PCL- PEG, showed no hemolytic action, even with variations in dose tested and function of time. Additionally, introduced protective effect on hemolysis promoted by AAPH. The possible action of the developed formulations of CNS, considering that they have appropriate characteristics for your vectorization, should be investigated in the future.

CNPQ::CIENCIAS DA SAUDE::FARMACIA

ácido ferúlico

ferulato de hexadecila

poli(caprolactona)

nanocápsulas poliméricas

barreira hematoencefálica

antioxidante

hemólise

hexadecyl ferulate

ferulic acid

poli(caprolactone)

polymeric nanocapsules

blood brain barrier

antioxidant

hemolysis

Desenvolvimento de um substituto nanoestruturado a ser utilizado em associação com células-tronco para a terapia vascular em doença arterial periférica

Braghirolli, Daikelly Iglesias

January 2017

Atualmente, existe uma grande necessidade médica por enxertos vasculares de pequeno calibre (< 6 mm), que possam ser utilizados em cirurgias de reconstrução vascular. Nesse trabalho, dois tipos de biomateriais vasculares foram desenvolvidos pela técnica de electrospinning: biomateriais de policaprolactona (PCL) e biomateriais de poli(carbonato de trimetileno – co – ácido lático) (PTMCLLA). Os biomateriais de PCL foram funcionalizados com heparina e com VEGF (PCL/Hep/VEGF). Os biomateriais de PTMCLLA foram desenvolvidos a partir de três razões de carbonato de trimetileno/ ácido lático: 20/80, 30/70 e 40/60. Os biomateriais de PCL apresentaram taxa de degradação lenta e alta elasticidade. A funcionalização dos biomateriais preveniu a coagulação do sangue e também favoreceu o crescimento de células-tronco mesenquimais (CTMs) e de células progenitoras endoteliais (CPEs) nessas estruturas. A análise de PCR demonstrou que o VEGF adsorvido aos biomateriais não foi suficiente para diferenciar as CTMs em células endoteliais. O cultivo das CPEs sobre os biomateriais aumentou a expressão de VE-caderina e a presença de VEGF nas estruturas manteve o nível de expressão de CD31 e CD34 nessas células. Após essas análises, os biomateriais de PCL/Hep/VEGF foram fabricados em formato tubular. As CPEs foram semeadas no lúmen do biomaterial, através de biorreatores de parede rotatória (BPR), e mantidas em cultivo, por biorreatores de perfusão (BP). O BPR favoreceu a distribuição homogênea das CPEs na parede luminal dos biomateriais enquanto que o BP estimulou seu crescimento e otimizou seu metabolismo energético. Os biomateriais produzidos a partir dos copolímeros de PTMCLLA 30/70 e 40/60 exibiram uma alta flexibilidade. Porém, os biomateriais de PTMCLLA 40/60 tiveram um grande enrugamento. Os biomateriais de PTMCLLA 30/70 suportaram a adesão e o crescimento de CTMs, de CPEs e de células musculares lisas. Os resultados obtidos no presente estudo demonstram que biomateriais de PCL/Hep/VEGF apresentam características físico-químicas compatíveis para o uso vascular. Ainda, previnem a formação de trombos em sua superfície e propiciam o desenvolvimento da camada endotelial em seu lúmen. Os biomateriais de PTMCLLA 30/70 exibem alta flexibilidade e suportam o desenvolvimento de células vasculares e de células-tronco mesenquimais. De acordo com esses resultados, é possível concluir que biomateriais de PCL/Hep/VEGF e de PTMCLLA 30/70 são candidatos promissores para aplicação como enxertos vasculares. / Currently, there is a great medical need for small caliber vascular grafts (<6 mm), which can be used in vascular replacement surgeries. In this work, two types of vascular biomaterials were developed by the electrospinning technique: biomaterials of polycaprolactone (PCL) and biomaterials of poly(trimethylene carbonate-co-L-lactide) (PTMCLLA). PCL biomaterials were functionalized with heparin and VEGF (PCL / Hep/VEGF). The PTMCLLA biomaterials were developed from three ratios of trimethylene carbonate/lactide: 20/80, 30/70 and 40/60. The PCL biomaterials presented a slow degradation rate and high elasticity. The functionalization of the biomaterials prevented the blood from clotting and also favored the growth of mesenchymal stem cells (MSCs) and endothelial progenitor cells (EPCs) in these structures. PCR analysis demonstrated that VEGF adsorbed by the biomaterials was not sufficient to differentiate the MSCs into endothelial cells. The cultivation of CPEs on the biomaterials increased their expression of VE-cadherin and the presence of VEGF in the structures maintained the cell expression of CD34 and CD31. After these analyzes, the PCL/Hep/VEGF biomaterials were produced in a tubular geometrical form. The CPEs were seeded into their lumen by rotating bioreactors (RB) and maintained in culture by perfusion bioreactors (PB). The RB favored the homogeneous distribution of the CPEs in the luminal wall of the biomaterials while the BP stimulated their growth and optimized their energetic metabolism. The biomaterials produced from the PTMCLLA 30/70 and 40/60 copolymers exhibited high flexibility. However, the PTMCLLA 40/60 biomaterials exhibited substantial wrinkling. The PTMCLLA 30/70 biomaterials supported the adhesion and growth of MSCs, CPEs and smooth muscle cells. This study has demonstrated that PCL/Hep/VEGF biomaterials have physicochemical characteristics compatible with vascular use. Furthermore, they prevent thrombus formation on their surfaces and promote the development of the endothelial layer in their lumen. Biomaterials of PTMCLLA 30/70 exhibit high flexibility and support the development of vascular and mesenchymal stem cells. According to these results, it can be concluded that PCL/Hep/VEGF and PTMCLLA 30/70 biomaterials are promising candidates for use as vascular grafts.

Células-tronco

Materiais biocompatíveis

Doença arterial periférica

Engenharia tecidual

Vascular tissue engineering

Poly(caprolactone)

Endothelial progenitor cells

Vascular biomaterials

Polymer Nanocomposites in Thin Film Applications

Fogelström, Linda

January 2010

The introduction of a nanoscopic reinforcing phase to a polymer matrix offers great possibilities of obtaining improved properties, enabling applications outside the boundaries of traditional composites. The majority of the work in this thesis has been devoted to polymer/clay nanocomposites in coating applications, using the hydroxyl-functional hyperbranched polyester Boltorn® as matrix and montmorillonite clay as nanofiller. Nanocomposites with a high degree of exfoliation were readily prepared using the straightforward solution-intercalation method with water as solvent. Hard and scratch-resistant coatings with preserved flexibility and transparency were obtained, and acrylate functionalization of Boltorn® rendered a UV-curable system with similar property improvements. In order to elucidate the effect of the dendritic architecture on the exfoliation process, a comparative study on the hyperbranched polyester Boltorn® and a linear analogue of this polymer was performed. X-ray diffraction and transmission electron microscopy confirmed the superior efficiency of the hyperbranched polymer in the preparation of this type of nanocomposites. Additionally, an objective of this thesis was to investigate how cellulose nanofibers can be utilized in high performance polymer nanocomposites. A reactive cellulose “nanopaper” template was combined with a hydrophilic hyperbranched thermoset matrix, resulting in a unique nanocomposite with significantly enhanced properties. Moreover, in order to fully utilize the great potential of cellulose nanofibers as reinforcement in hydrophobic polymer matrices, the hydrophilic surface of cellulose needs to be modified in order to improve the compatibility. For this, a grafting-from approach was explored, using ring-opening polymerization of ε-caprolactone (CL) from microfibrillated cellulose (MFC), resulting in PCL-modified MFC. It was found that the hydrophobicity of the cellulose surfaces increased with longer graft lengths, and that polymer grafting rendered a smoother surface morphology. Subsequently, PCL-grafted MFC film/PCL film bilayer laminates were prepared in order to investigate the interfacial adhesion. Peel tests demonstrated a gradual increase in the interfacial adhesion with increasing graft lengths. / QC20100621

Nanocomposites

hyperbranched polymers

montmorillonite

clay nanoparticles

exfoliated

coatings

crosslinking

TEM

XRD

mechanical properties

thermal properties

cellulose nanofibers

Atom Transfer Radical Polymerization

Ring-Opening Polymerization

poly(ε-caprolactone)

surface modification

grafting

interfacial adhesion

Polymer chemistry

Polymerkemi

Synthesis and Properties of Branched Semi-Crystalline Thermoset Resins

Claesson, Hans

January 2003

<p>This thesis describes the synthesis and characterization ofbranched semi-crystalline polymers. Included in this work isthe SEC characterization of a series of dendrimers. Thebranched semi-crystalline polymers were synthesized in order toinvestigate the concept of their use as powder coatings resins.This concept being that the use of branched semi-crystallinepolymers in a UV-cured powder coating system may offer a lowertemperature alternative thus allowing the use of heat sensitivesubstrates and the added benefit of a reduced viscositycompared to linear polymers.</p><p>A series of branched poly(ε-caprolactone)’s (PCL)(degree of polymerization: 5-200) initiated from hydroxylfunctional initiators were synthesized. The final architectureswere controlled by the choice of initiator structure;specifically the dendritic initiators yielded starbranchedPCL’s while the linear initiator yielded comb-branchedPCL’s. The dendritic initiators utilized were: (1) a3rd-generation Boltorn H-30, commercially availablehyperbranched polyester with approximately 32 hydroxyl groups,(2) a 3rd-generation dendrimer with 24 hydroxyl groups, and (3)a 3rd-generation dendron with 8 hydroxyl groups. Linear PCL wassynthesized for comparison. All dendritic initiators are basedon 2,2- bis(methylol) propionic acid. The comb-branchedpolymers were initiated from a modified peroxide functionalpolyacrylate. The resins were end-capped withmethylmethacrylate in order to produce a cross-linkable system.The polymers and films were characterized using 1H NMR, 13CNMR, SEC, DMTA, DSC, FT-IR, FT-Raman, rheometry and a rheometercoupled to a UV-lamp to measure cure behavior.</p><p>The star-branched PCL’s exhibited considerably lowerviscosities than their linear counterparts with the samemolecular weight for the molecular region investigated (2-550kg mol-1). It was also found that the zero shear viscosityincreased roughly exponentially with M.</p><p>The PCL star-branched resins are semi-crystalline and theirmelting points (Tm) range from 34-50°C; films can beformed and cured below 80°C. The viscoelastic behaviourduring the cure showed that the time to reach the gel point, afew seconds, increased linearly with molecular weight. Thecrossover of G’and G’’was used as the gelpoint. Measurement of mechanical properties of films showedthat the low molecular weight polymers were amorphous whilethose with high molecular weight were crystalline after cure.The polymerization of 5,5-dimethyl-1,3-dioxane-2-one (NPC) fromoligo- and multifunctional initiators was evaluated utilizingcoordination and cationic polymerization. Two tin basedcatalysts, stannous(II) 2-ethylhexanoate and stannous(II)trifluoromethane sulfonate, were compared with fumaric acid.Fumaric acid under bulk conditions resulted in lowerpolydispersity and less chance of gelling. The synthesis ofstar-branched polymers was confirmed by SEC data. The starpolymers exhibited a Tg at 20-30°C and a Tm at about100°C.</p><p>All semi-crystalline resins exhibited a fast decrease inviscosity at Tm. Blends of combbranched semi-crystalline resinsand amorphous resins exhibited a transition behavior inbetweenthat of pure semi-crystalline resins and that of amorphousresins.</p><p>The SEC characterization of a series of dendrimers withdifferent cores and terminal groups showed that the core had animpact on the viscosimetric radius of the core while theterminal groups appeared to have no effect.</p><p><b>Keywords:</b>star-branched, semi-crystalline,comb-branched, ring-opening polymerization,poly(ε-caprolactone), dendritic, thermoset, lowtemperature curing, powder coating, UVcuring,poly(5,5-dimethyl-1,3-dioxane-2-one), size exclusionchromatography, rheology, dendritic aliphatic polyester</p>

star-branched

semi-crystalline

comb-branched

ring-opening polymerization

poly(ƒÕ-caprolactone)

dendritic

thermoset

low temperature curing

powder coating

UV-curing

poly(5

5-dimethyl-1

3-dioxane-2-one)

size exclusion chromatography

rheology

Synthesis and Properties of Branched Semi-Crystalline Thermoset Resins

Claesson, Hans

January 2003

This thesis describes the synthesis and characterization ofbranched semi-crystalline polymers. Included in this work isthe SEC characterization of a series of dendrimers. Thebranched semi-crystalline polymers were synthesized in order toinvestigate the concept of their use as powder coatings resins.This concept being that the use of branched semi-crystallinepolymers in a UV-cured powder coating system may offer a lowertemperature alternative thus allowing the use of heat sensitivesubstrates and the added benefit of a reduced viscositycompared to linear polymers. A series of branched poly(ε-caprolactone)’s (PCL)(degree of polymerization: 5-200) initiated from hydroxylfunctional initiators were synthesized. The final architectureswere controlled by the choice of initiator structure;specifically the dendritic initiators yielded starbranchedPCL’s while the linear initiator yielded comb-branchedPCL’s. The dendritic initiators utilized were: (1) a3rd-generation Boltorn H-30, commercially availablehyperbranched polyester with approximately 32 hydroxyl groups,(2) a 3rd-generation dendrimer with 24 hydroxyl groups, and (3)a 3rd-generation dendron with 8 hydroxyl groups. Linear PCL wassynthesized for comparison. All dendritic initiators are basedon 2,2- bis(methylol) propionic acid. The comb-branchedpolymers were initiated from a modified peroxide functionalpolyacrylate. The resins were end-capped withmethylmethacrylate in order to produce a cross-linkable system.The polymers and films were characterized using 1H NMR, 13CNMR, SEC, DMTA, DSC, FT-IR, FT-Raman, rheometry and a rheometercoupled to a UV-lamp to measure cure behavior. The star-branched PCL’s exhibited considerably lowerviscosities than their linear counterparts with the samemolecular weight for the molecular region investigated (2-550kg mol-1). It was also found that the zero shear viscosityincreased roughly exponentially with M. The PCL star-branched resins are semi-crystalline and theirmelting points (Tm) range from 34-50°C; films can beformed and cured below 80°C. The viscoelastic behaviourduring the cure showed that the time to reach the gel point, afew seconds, increased linearly with molecular weight. Thecrossover of G’and G’’was used as the gelpoint. Measurement of mechanical properties of films showedthat the low molecular weight polymers were amorphous whilethose with high molecular weight were crystalline after cure.The polymerization of 5,5-dimethyl-1,3-dioxane-2-one (NPC) fromoligo- and multifunctional initiators was evaluated utilizingcoordination and cationic polymerization. Two tin basedcatalysts, stannous(II) 2-ethylhexanoate and stannous(II)trifluoromethane sulfonate, were compared with fumaric acid.Fumaric acid under bulk conditions resulted in lowerpolydispersity and less chance of gelling. The synthesis ofstar-branched polymers was confirmed by SEC data. The starpolymers exhibited a Tg at 20-30°C and a Tm at about100°C. All semi-crystalline resins exhibited a fast decrease inviscosity at Tm. Blends of combbranched semi-crystalline resinsand amorphous resins exhibited a transition behavior inbetweenthat of pure semi-crystalline resins and that of amorphousresins. The SEC characterization of a series of dendrimers withdifferent cores and terminal groups showed that the core had animpact on the viscosimetric radius of the core while theterminal groups appeared to have no effect. Keywords:star-branched, semi-crystalline,comb-branched, ring-opening polymerization,poly(ε-caprolactone), dendritic, thermoset, lowtemperature curing, powder coating, UVcuring,poly(5,5-dimethyl-1,3-dioxane-2-one), size exclusionchromatography, rheology, dendritic aliphatic polyester / <p>NR 20140805</p>

star-branched

semi-crystalline

comb-branched

ring-opening polymerization

poly(ƒÕ-caprolactone)

dendritic

thermoset

low temperature curing

powder coating

UV-curing

poly(5

5-dimethyl-1

3-dioxane-2-one)

size exclusion chromatography

rheology

Desenvolvimento de um substituto nanoestruturado a ser utilizado em associação com células-tronco para a terapia vascular em doença arterial periférica

Braghirolli, Daikelly Iglesias

January 2017

Atualmente, existe uma grande necessidade médica por enxertos vasculares de pequeno calibre (< 6 mm), que possam ser utilizados em cirurgias de reconstrução vascular. Nesse trabalho, dois tipos de biomateriais vasculares foram desenvolvidos pela técnica de electrospinning: biomateriais de policaprolactona (PCL) e biomateriais de poli(carbonato de trimetileno – co – ácido lático) (PTMCLLA). Os biomateriais de PCL foram funcionalizados com heparina e com VEGF (PCL/Hep/VEGF). Os biomateriais de PTMCLLA foram desenvolvidos a partir de três razões de carbonato de trimetileno/ ácido lático: 20/80, 30/70 e 40/60. Os biomateriais de PCL apresentaram taxa de degradação lenta e alta elasticidade. A funcionalização dos biomateriais preveniu a coagulação do sangue e também favoreceu o crescimento de células-tronco mesenquimais (CTMs) e de células progenitoras endoteliais (CPEs) nessas estruturas. A análise de PCR demonstrou que o VEGF adsorvido aos biomateriais não foi suficiente para diferenciar as CTMs em células endoteliais. O cultivo das CPEs sobre os biomateriais aumentou a expressão de VE-caderina e a presença de VEGF nas estruturas manteve o nível de expressão de CD31 e CD34 nessas células. Após essas análises, os biomateriais de PCL/Hep/VEGF foram fabricados em formato tubular. As CPEs foram semeadas no lúmen do biomaterial, através de biorreatores de parede rotatória (BPR), e mantidas em cultivo, por biorreatores de perfusão (BP). O BPR favoreceu a distribuição homogênea das CPEs na parede luminal dos biomateriais enquanto que o BP estimulou seu crescimento e otimizou seu metabolismo energético. Os biomateriais produzidos a partir dos copolímeros de PTMCLLA 30/70 e 40/60 exibiram uma alta flexibilidade. Porém, os biomateriais de PTMCLLA 40/60 tiveram um grande enrugamento. Os biomateriais de PTMCLLA 30/70 suportaram a adesão e o crescimento de CTMs, de CPEs e de células musculares lisas. Os resultados obtidos no presente estudo demonstram que biomateriais de PCL/Hep/VEGF apresentam características físico-químicas compatíveis para o uso vascular. Ainda, previnem a formação de trombos em sua superfície e propiciam o desenvolvimento da camada endotelial em seu lúmen. Os biomateriais de PTMCLLA 30/70 exibem alta flexibilidade e suportam o desenvolvimento de células vasculares e de células-tronco mesenquimais. De acordo com esses resultados, é possível concluir que biomateriais de PCL/Hep/VEGF e de PTMCLLA 30/70 são candidatos promissores para aplicação como enxertos vasculares. / Currently, there is a great medical need for small caliber vascular grafts (<6 mm), which can be used in vascular replacement surgeries. In this work, two types of vascular biomaterials were developed by the electrospinning technique: biomaterials of polycaprolactone (PCL) and biomaterials of poly(trimethylene carbonate-co-L-lactide) (PTMCLLA). PCL biomaterials were functionalized with heparin and VEGF (PCL / Hep/VEGF). The PTMCLLA biomaterials were developed from three ratios of trimethylene carbonate/lactide: 20/80, 30/70 and 40/60. The PCL biomaterials presented a slow degradation rate and high elasticity. The functionalization of the biomaterials prevented the blood from clotting and also favored the growth of mesenchymal stem cells (MSCs) and endothelial progenitor cells (EPCs) in these structures. PCR analysis demonstrated that VEGF adsorbed by the biomaterials was not sufficient to differentiate the MSCs into endothelial cells. The cultivation of CPEs on the biomaterials increased their expression of VE-cadherin and the presence of VEGF in the structures maintained the cell expression of CD34 and CD31. After these analyzes, the PCL/Hep/VEGF biomaterials were produced in a tubular geometrical form. The CPEs were seeded into their lumen by rotating bioreactors (RB) and maintained in culture by perfusion bioreactors (PB). The RB favored the homogeneous distribution of the CPEs in the luminal wall of the biomaterials while the BP stimulated their growth and optimized their energetic metabolism. The biomaterials produced from the PTMCLLA 30/70 and 40/60 copolymers exhibited high flexibility. However, the PTMCLLA 40/60 biomaterials exhibited substantial wrinkling. The PTMCLLA 30/70 biomaterials supported the adhesion and growth of MSCs, CPEs and smooth muscle cells. This study has demonstrated that PCL/Hep/VEGF biomaterials have physicochemical characteristics compatible with vascular use. Furthermore, they prevent thrombus formation on their surfaces and promote the development of the endothelial layer in their lumen. Biomaterials of PTMCLLA 30/70 exhibit high flexibility and support the development of vascular and mesenchymal stem cells. According to these results, it can be concluded that PCL/Hep/VEGF and PTMCLLA 30/70 biomaterials are promising candidates for use as vascular grafts.

Células-tronco

Materiais biocompatíveis

Doença arterial periférica

Engenharia tecidual

Vascular tissue engineering

Poly(caprolactone)

Endothelial progenitor cells

Vascular biomaterials

Avaliação da influência do óleo e do polímero sobre as características físico-químicas e estabilidade de sistemas nanoestruturados contendo ubiquinona

Stangarlin, Mônica Fabiele Lorensi

31 March 2014

This work evaluated the influence of the composition on the physico-chemical characteristics, stability and photostability of nanostructures containing ubiquinone. Nanocapsules (NC) and nanoemulsions (NE) were prepared by interfacial deposition of preformed polymers and spontaneous emulsification, respectively. The formulations were characterized and compared in relation to the influence of the oil (argan or linseed oil) and its amount in the formulation (3% or 1.5%), the type of polymer (poli(ε-caprolactone), PCL or Eudragit® RL100, EUD), drug presence, besides the comparison between both nanostructures. To assay ubiquinone, the analytical method was validated and was considered linear, specific, precise and accurate. The formulations had adequate physico-chemical characteristics, with drug contents close to the theoretical value (1mg/mL), encapsulation efficiencies close to 100% and polydispersity index lower than 0.2 for formulations with 1.5% of oil. The reduction of oil concentration caused a decrease in the average diameter and polidispersity index of PCL NC of argan oil and EUD NC and NE of linseed oil. Furthermore, the addition of ubiquinone was able to modify the zeta potential of these formulations. Regarding the type of structure (NE or NC), the pH was influenced. EUD NC presented values lower than NE and PCL NC, regardless of the oil used. In addition, EUD NC with linseed oil had a higher zeta potential in module in relation to the NE and PCL NC. Concerning the type of oil used, particle diameter and polydispersity index were lower for EUD NC of linseed oil in relation to EUD NC of argan oil. Moreover, all formulations were able to photoprotect ubiquinone in comparison with free drug, occurring influence of the oil and the polymer. Regarding the stability, the formulations showed a reduced level of drug over 60 days, while the type of oil influenced this parameter. Nanostructures of argan oil showed higher levels. NC presented higher drug contents in relation to NE. The increase in particle size was only significant for NC of argan oil and PCL at 15 days, which showed a greater diameter than those of PCL NC of linseed oil and EUD NC of argan oil. An increase in zeta potential for NE was detected at 60 days, while EUD NC of argan oil showed a decrease in this parameter. The zeta potential was higher in module for NC of EUD in relation to the respective NE. / Este trabalho avaliou a influência da composição sobre as características físico-químicas, estabilidade e fotoestabilidade de nanoestruturas contendo ubiquinona. As nanocápsulas (NC) e nanoemulsões (NE) foram preparadas por deposição interfacial de polímero pré-formado e emulsificação espontânea, respectivamente. As formulações foram caracterizadas e comparadas quanto à influência do tipo de óleo (óleo de argan ou de linhaça) e de sua quantidade (3% ou 1,5%), quanto ao polímero poli(-caprolactona), PCL ou Eudragit® RL 100, EUD, quanto à presença do fármaco, além da comparação entre ambas as nanoestruturas. Para a quantificação da ubiquinona, o método foi validado, apresentando-se linear, específico, preciso e exato. As formulações apresentaram características físico-químicas adequadas, com teores próximos ao valor teórico de 1mg/mL, além de eficiências de encapsulamento próximas de 100% e de índices de polidispersão inferiores a 0,2 para as formulações com 1,5% de óleo. A redução na concentração de óleo causou diminuição do diâmetro médio e no índice de polidispersão das NC de óleo de argan e PCL e das NE e NC de EUD e óleo de linhaça. Além disso, a adição de ubiquinona foi capaz de alterar o potencial zeta destas formulações. Quanto ao tipo de estrutura, o pH sofreu influência, onde a NC de EUD apresentou valores inferiores à NE e NC de PCL, independente do óleo utilizado. Além disso, a NC de EUD e óleo de linhaça apresentou potencial zeta superior em módulo em relação à NE e NC de PCL. Quanto ao tipo de óleo empregado, o diâmetro de partícula e o índice de polidispersão foram menores para as NC de EUD e óleo de linhaça em relação às NC de EUD e óleo de argan. Além disso, todas as formulações foram capazes de fotoproteger a ubiquinona em comparação ao fármaco livre, havendo influência do óleo e do polímero. Quanto à estabilidade, as formulações apresentaram redução no teor de fármaco ao longo de 60 dias, sendo que as nanoestruturas de óleo de argan apresentaram teores maiores. As NC apresentaram teores maiores em relação às NE. O aumento no tamanho de partícula só foi significativo para a NC de óleo de argan e PCL aos 15 dias, onde apresentou diâmetro maior em relação às NC de PCL e óleo de linhaça e de EUD e óleo de argan. Um aumento no potencial zeta foi detectado para as NE aos 60 dias, enquanto que a NC de EUD e óleo de argan apresentou decréscimo neste parâmetro. O potencial zeta ainda apresentou-se maior em módulo para as NC de EUD em relação às respectivas NE.

Nanocápsulas

Nanoemulsões

Ubiquinona

Óleo de argan

Óleo de linhaça

Poli(ɛ-caprolactona)

Eudragit® RL 100

Nanocapsule

Nanoemulsion

Ubiquinone

Argan oil

Flaxseed oil

Poli(ɛ-caprolactone)

Eudragit® RL 100

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Síntese de copolímeros de l-lactídeo e &#949;-caprolactona para funcionalização in situ de partículas de celulose nanocristalina / Synthesis of l-lactide and &#949;-caprolactone copolymers for in situ functionalization nanocrystalline cellulose particles

Miranda, Katiusca Wessler

07 August 2015

Made available in DSpace on 2016-12-08T15:56:18Z (GMT). No. of bitstreams: 1 KATIUSCA WESSLER MIRANDA.pdf: 4397696 bytes, checksum: da27bc7c1adc7efa3e74ecfcf87feb0e (MD5) Previous issue date: 2015-08-07 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This paper studied ring opening polymerizations L-lactide (LLA) and &#949;-caprolactone (&#949;-CL) by bulk polymerization and solution polymerization, in order to evaluate the influence of initiator concentration, reaction time and reaction temperature on the yield and molecular weight of both polymers. Tin octoate and methanol was employed as initiators. It was observed that LLA and &#949;-CL speed ring opening polymerization, increases with temperature and that the monomer/polymer conversion immediately occurs in the first hours of synthesis when 2% of initiator is used. The molar mass, determined by capillary viscometry, was approximately 7x103 g/mol, for both polymers. It was also studied the copolymerization of LLA and &#949;-CL by solution polymerization employing different solvents. Weight percentages of LLA/&#949;-CL equal to 100/0, 95/5, 90/10, 85/15 and 80/20 were studied. The toluene was the only solvent that enabled the production of polymers and copolymers at 120 ° C. Initiator concentration equal to 0.015% and reaction time equal to 24 hours, were assessed, generating polymers with average molar mass (Mw) around 2x104 g / mol, determined by GPC. It was observed by proton and carbon 13 nuclear magnetic resonance (13 C-NMR and 1H-NMR) that reactions conducted with &#949;-CL concentrations lower than 15% do not yield copolymer, only PLLA. Bulk polymerization it was also studied and the main difference compared to solution polymerization is associated with the molar mass of the copolymer P(LLA-co-&#949;CL)80/20. This product had a higher molar mass when synthesized by the first technique. After the study of copolymerization, the functionalization of nanocrystalline cellulose particles (CNC) with LLA and &#949;-CL, by polymerization in solution, was studied. Three compositions were analyzed: (i) PLLA-CNC, (II) P(LLA-co-&#949;CL)85/15-CNC and (III) P(LLA-co &#949;CL)80/20-CNC; the reactions were conducted at 120 ° C for 24 hours. It was possible to functionalize CNC particles in situ, using 80/20 LLA/&#949;-CL systems, with tin octoate (0.015 wt%) as catalyst and toluene as solvent (composition III). The functionalization was confirmed by Fourier transform infrared spectroscopy (FTIR). The compatibility of the P(LLA-co-&#949;CL)80/20-CNC particle increased in toluene, confirming the reduction of hydrophilicity of these particles. Unlike occurred with the compositions (I) and (II), the composition (III) only allowed the production CNC functionalized particles. PLLA, PCL and / or P (LLA-co-&#949;CL) were not produced. This fact indicates that the concentration of &#949;-CL and the presence of cellulose hydroxyl groups decreased the reactivity between the monomers. / Neste trabalho foram estudadas as reações de abertura de anel dos monômeros L-lactídeo (LLA) e &#949;-caprolactona (&#949;-CL), pela técnica de polimerização em massa com o intuito de avaliar a influência da concentração de iniciador, do tempo e da temperatura de reação sobre o rendimento reacional e a massa molar de ambos os polímeros. O iniciador empregado neste estudo foi o octoato de estanho e como co-iniciador, metanol foi empregado. Foi observado que a velocidade de reação de obtenção do poli(L-ácido láctico) (PLLA) e da poli(&#949;-caprolactona) (PCL) aumenta em função da temperatura e que com 2% de iniciador a conversão de monômero em polímero ocorre logo nas primeiras horas de síntese. A massa molar determinada por viscosimetria capilar foi de aproximadamente 7x103 g/mol para ambos os polímeros. Também foi estudada a obtenção de copolímeros de LLA e &#949;-CL por reações de polimerização em solução empregando diferentes solventes. As porcentagens mássicas de LLA/&#949;-CL empregadas foram 100/0, 95/5, 90/10, 85/15 e 80/20. O tolueno foi o único solvente que possibilitou a produção de polímeros e copolímeros a 120 °C. Para estas sínteses a concentração de iniciador foi igual a 0,015% e o tempo de reação foi de 24 horas, gerando polímeros com massa molar ponderal média (Mw) ao redor de 2x104 g/mol, determinadas por GPC. Foi observado por ressonância magnética nuclear de hidrogênio e de carbono 13 (RMN1H e RMN13C) que as reações conduzidas com concentrações de &#949;-CL inferiores à 15% não rendem copolímero, apenas PLLA é produzido. A obtenção de copolímeros pela técnica de polimerização em massa também foi estudada e a principal diferença em relação a polimerização em solução está associada à massa molar do copolímero P(LLA-co-&#949;CL)80/20, sendo que o produto da polimerização em massa apresentou massa molar mais elevada que o obtido pela polimerização em solução. Após o estudo da obtenção dos copolímeros, foi estudada a funcionalização de partículas de celulose nanocristalina (CNC) com os monômeros de LLA e &#949;-CL pela técnica de polimerização em solução. Foram analisadas três composições: (I) PLLA-CNC, (II) P(LLA-co-&#949;CL)85/15-CNC e (III) P(LLA-co-&#949;CL)80/20-CNC; as reações foram conduzidas a 120°C durante 24 horas. Foi possível funcionalizar partículas de CNC in situ, empregando 80% de LLA, 20% de &#949;-CL, 0,015% de octoato de estanho e tolueno como solvente (composição III). A funcionalização foi confirmada por análises de espectroscopia de infravermelho por transformada de Fourier (FTIR). Testes de dispersão do P(LLA-co-&#949;CL)80/20-CNC em tolueno confirmaram a diminuição da hidrofilicidade destas partículas. Ao contrário do ocorrido com as composições (I) e (II), a composição (III) permitiu somente a produção partículas de CNC funcionalizadas. PLLA, PCL e/ou P(LLA-co-&#949;CL) não foram produzidos. Este fato indica que o aumento da concentração de &#949;-CL e a presença de grupos hidroxilas de celulose diminuíram a reatividade entre os monômeros.

Celulose nanocristalina

Funcionalização

Polimerização in situ

Poli(L-ácido láctico)

Poli(&#949

-caprolactona)

Nanocrystalline cellulose

Functionalization

In situ polymerization

Poly(L-lactic acid)

Poly(&#949

-caprolactone)

Nanocompósitos de poli(ácido lático), poli(&#949;-caprolactona) e nanotubos de carbono / Nanocomposites poly (lactic acid), poly(&#949;-caprolactone) and carbon nanotubes

Decol, Marindia

15 July 2015

Made available in DSpace on 2016-12-08T17:19:26Z (GMT). No. of bitstreams: 1 Marindia Decol.pdf: 3575085 bytes, checksum: bed6c0ed662d3c76c64b6cfdac902d8b (MD5) Previous issue date: 2015-07-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Poly (lactic acid) (PLA) is a rigid and brittle thermoplastic polymer, and poly (&#949;-caprolactone) (PCL) is a thermoplastic polymer of lower rigidity and higher toughness than PLA. Combination of these properties through the blend PLA/PCL has been studied successfully to change the final properties of the PLA. The addition of multiwalled carbon nanotubes (MWCNT) in the blend PLA/PCL may induce peculiar orphologies depending on their location, resulting in the getting new properties or modifying the properties of the PLA matrix. This study aimed to evaluate the effect of adding the PCL, the compatibilizer Cesa-mix and MWCNT the final properties of the PLA. Mixtures were prepared in internal mixer chamber coupled to a torque rheometer and subjected to characterizations of morphological, thermal, mechanical and electrical properties. In the morphological analysis, there was a 37% reduction in the average size of the phases of the PCL blends PLA/PCL with the addition of compatibilizer Cesa®- mix, a heterogeneous distribution of MWCNT the PLA matrix and a selective location of MWCNT in phase PCL. With respect to thermal properties, the addition of the compatibilizing PCL and did not significantly affect the thermal degradation onset temperature (Tonset) of the PLA, but the addition of the MWCNT in PLA resulted in decreased Tonset nanocomposites. The melting temperature did not change significantly with the addition of PCL, the compatibilizer and MWCNT on the PLA matrix. Already cold crystallization temperature decreased and the degree of crystallinity of the PLA increased with the addition of PCL blends and MWCNT in nanocomposites. Decreases of 35% on elastic hardness and 29% in modulus of elasticity was observed with the addition of PCL and compatibilizer Cesa®-mix in the blends PLA/ PCL/AC/2,5%. With the addition of MWCNT was observed an increase of 6,8% on elastic hardness and 8% in the modulus of elasticity of PLA/CNT mixtures with 1,0% w/w. Blends of PLA/PCL with 0,5% and 1,0% w/w CNT with and without compatibilizer, had a decrease in modulus of elasticity and elastic hardness. No significant changes were observed in the electric resistance of the samples with the addition of the compatibilizer, the PCL and MWCNT with 0,5% and 1,0% w/w. Selective location of MWCNT the PCL phase had great influence on morphological, thermal, mechanical and electrical properties of nanocomposites. / O poli(ácido lático) (PLA) é um polímero termoplástico rígido e frágil, e a poli(&#949;-caprolactona) (PCL) é um polímero termoplástico de menor rigidez e maior tenacidade que o PLA. A combinação destas propriedades através da blenda PLA/PCL tem sido estudada com êxito no auxílio à alteração das propriedades finais do PLA. A adição de nanotubos de carbono de paredes múltiplas (NTCPM) na blenda PLA/PCL pode induzir a morfologias peculiares dependendo da sua localização, resultando na obtenção de novas propriedades ou na alteração das propriedades da matriz PLA. Este trabalho teve como objetivo avaliar o efeito da adição do PCL, do compatibilizante Cesa-mix e dos NTCPM nas propriedades finais do PLA. As misturas foram preparadas em misturador de câmara interna acoplado a reômetro de torque e submetidas à caraterizações das propriedades morfológicas, térmicas, mecânicas e elétricas. Na análise morfológica, observou-se uma redução de 37% no tamanho médio das fases de PCL nas blendas PLA/PCL com a adição do compatibilizante Cesa®- mix, uma distribuição heterogênea dos NTCPM na matriz PLA e uma localização seletiva dos NTCPM na fase PCL. Em relação às propriedades térmicas, a adição do PCL e do compatibilizante não afetaram significativamente na temperatura de início de degradação térmica (Tonset) do PLA, porém a adição de NTCPM no PLA resultou em decréscimo na Tonset dos nanocompósitos. A temperatura de fusão não apresentou variação significativa com a adição do PCL, do compatibilizante e dos NTCPM na matriz PLA. Já a temperatura de cristalização a frio diminuiu e o grau de cristalinidade do PLA aumentou com a adição de PCL nas blendas e dos NTCPM nos nanocompósitos. Diminuições de 35% na dureza elástica e de 29% no módulo de elasticidade foram observadas com a adição do PCL e do compatibilizante Cesa®-mix nas blendas PLA/PCL/AC 2,5%. Com a adição de NTCPM foi observado um aumento de 6,8% na dureza elástica e de 8% no módulo de elasticidade das misturas PLA/NTC com 1,0% m/m. As misturas de PLA/PCL com 0,5% e 1,0% m/m de NTC com e sem compatibilizante, tiveram um decréscimo no módulo de elasticidade e na dureza elástica. Não foram verificadas alterações significativas na resistência elétrica das amostras com a adição do compatibilizante, do PCL e dos NTCPM com 0,5% e 1,0% m/m. A localização seletiva dos NTCPM na fase PCL teve grande influência nas propriedades morfológicas, térmicas, mecânicas e elétricas dos nanocompósitos.

Poli(ácido lático) (PLA)

Poli(&#949

-caprolactona) (PCL)

Compatibilizante

Blendas

Poli(lactic acid) (PLA)

Poli(&#949

-caprolactone) (PCL)

Compatibilizer

Blends

Multi-walled carbon nanotubes

Desenvolvimento de um substituto nanoestruturado a ser utilizado em associação com células-tronco para a terapia vascular em doença arterial periférica

Braghirolli, Daikelly Iglesias

January 2017

Atualmente, existe uma grande necessidade médica por enxertos vasculares de pequeno calibre (< 6 mm), que possam ser utilizados em cirurgias de reconstrução vascular. Nesse trabalho, dois tipos de biomateriais vasculares foram desenvolvidos pela técnica de electrospinning: biomateriais de policaprolactona (PCL) e biomateriais de poli(carbonato de trimetileno – co – ácido lático) (PTMCLLA). Os biomateriais de PCL foram funcionalizados com heparina e com VEGF (PCL/Hep/VEGF). Os biomateriais de PTMCLLA foram desenvolvidos a partir de três razões de carbonato de trimetileno/ ácido lático: 20/80, 30/70 e 40/60. Os biomateriais de PCL apresentaram taxa de degradação lenta e alta elasticidade. A funcionalização dos biomateriais preveniu a coagulação do sangue e também favoreceu o crescimento de células-tronco mesenquimais (CTMs) e de células progenitoras endoteliais (CPEs) nessas estruturas. A análise de PCR demonstrou que o VEGF adsorvido aos biomateriais não foi suficiente para diferenciar as CTMs em células endoteliais. O cultivo das CPEs sobre os biomateriais aumentou a expressão de VE-caderina e a presença de VEGF nas estruturas manteve o nível de expressão de CD31 e CD34 nessas células. Após essas análises, os biomateriais de PCL/Hep/VEGF foram fabricados em formato tubular. As CPEs foram semeadas no lúmen do biomaterial, através de biorreatores de parede rotatória (BPR), e mantidas em cultivo, por biorreatores de perfusão (BP). O BPR favoreceu a distribuição homogênea das CPEs na parede luminal dos biomateriais enquanto que o BP estimulou seu crescimento e otimizou seu metabolismo energético. Os biomateriais produzidos a partir dos copolímeros de PTMCLLA 30/70 e 40/60 exibiram uma alta flexibilidade. Porém, os biomateriais de PTMCLLA 40/60 tiveram um grande enrugamento. Os biomateriais de PTMCLLA 30/70 suportaram a adesão e o crescimento de CTMs, de CPEs e de células musculares lisas. Os resultados obtidos no presente estudo demonstram que biomateriais de PCL/Hep/VEGF apresentam características físico-químicas compatíveis para o uso vascular. Ainda, previnem a formação de trombos em sua superfície e propiciam o desenvolvimento da camada endotelial em seu lúmen. Os biomateriais de PTMCLLA 30/70 exibem alta flexibilidade e suportam o desenvolvimento de células vasculares e de células-tronco mesenquimais. De acordo com esses resultados, é possível concluir que biomateriais de PCL/Hep/VEGF e de PTMCLLA 30/70 são candidatos promissores para aplicação como enxertos vasculares. / Currently, there is a great medical need for small caliber vascular grafts (<6 mm), which can be used in vascular replacement surgeries. In this work, two types of vascular biomaterials were developed by the electrospinning technique: biomaterials of polycaprolactone (PCL) and biomaterials of poly(trimethylene carbonate-co-L-lactide) (PTMCLLA). PCL biomaterials were functionalized with heparin and VEGF (PCL / Hep/VEGF). The PTMCLLA biomaterials were developed from three ratios of trimethylene carbonate/lactide: 20/80, 30/70 and 40/60. The PCL biomaterials presented a slow degradation rate and high elasticity. The functionalization of the biomaterials prevented the blood from clotting and also favored the growth of mesenchymal stem cells (MSCs) and endothelial progenitor cells (EPCs) in these structures. PCR analysis demonstrated that VEGF adsorbed by the biomaterials was not sufficient to differentiate the MSCs into endothelial cells. The cultivation of CPEs on the biomaterials increased their expression of VE-cadherin and the presence of VEGF in the structures maintained the cell expression of CD34 and CD31. After these analyzes, the PCL/Hep/VEGF biomaterials were produced in a tubular geometrical form. The CPEs were seeded into their lumen by rotating bioreactors (RB) and maintained in culture by perfusion bioreactors (PB). The RB favored the homogeneous distribution of the CPEs in the luminal wall of the biomaterials while the BP stimulated their growth and optimized their energetic metabolism. The biomaterials produced from the PTMCLLA 30/70 and 40/60 copolymers exhibited high flexibility. However, the PTMCLLA 40/60 biomaterials exhibited substantial wrinkling. The PTMCLLA 30/70 biomaterials supported the adhesion and growth of MSCs, CPEs and smooth muscle cells. This study has demonstrated that PCL/Hep/VEGF biomaterials have physicochemical characteristics compatible with vascular use. Furthermore, they prevent thrombus formation on their surfaces and promote the development of the endothelial layer in their lumen. Biomaterials of PTMCLLA 30/70 exhibit high flexibility and support the development of vascular and mesenchymal stem cells. According to these results, it can be concluded that PCL/Hep/VEGF and PTMCLLA 30/70 biomaterials are promising candidates for use as vascular grafts.

Células-tronco

Materiais biocompatíveis

Doença arterial periférica

Engenharia tecidual

Vascular tissue engineering

Poly(caprolactone)

Endothelial progenitor cells

Vascular biomaterials