EFEITO DA INCORPORAÇÃO DE NANOPARTÍCULAS DE COBRE EM UM SISTEMA ADESIVO CONVENCIONAL NAS PROPRIEDADES MICROBIOLÓGICAS, MECÂNICAS E ADESIVAS À DENTINA / Effect of inclusion of copper nanoparticles in etch and rinse adhesive systems on microbiological and mechanical properties, and the durability of resin–dentine interfaces

Reyes, Mario Felipe Gutiérrez

23 February 2016

Made available in DSpace on 2017-07-24T19:22:05Z (GMT). No. of bitstreams: 1 FELIPE GUTIERREZ REYES.pdf: 2973646 bytes, checksum: 0e8c702449c97c861e9f0314e3b69e2f (MD5) Previous issue date: 2016-02-23 / Objectives: This study evaluated the effect of addition of copper nanoparticles at different concentrations into a simplified etch-and-rinse (ER) adhesive system (Ambar [AM]) on antimicrobial activity (AMA), degree of conversion of adhesives discs (DC-d) and dentin-resin interface (DC-i), the ultimate tensile strength (UTS), 28-day cumulative water sorption (WS), solubility (So) and copper release (CR) as well as immediate (IM) and 1-year (1Y) resin–dentine bond strength (μTBS) and nanoleakage (NL). Methods: Seven experimental adhesive systems were formulated according to the addition of copper nanoparticles (0 [control], 0.0075, 0.015, 0.06, 0.1, 0.5 and 1%) in AM adhesive system. We tested the antimicrobial activity of synthesized adhesives against Streptococcus mutans using agar diffusion assays. For DC-d, specimens were constructed and tested after 24 h for FTIR and micro-Raman spectroscopy. For UTS, specimens were tested after 24 h and 28 days. For WS and So, after specimens build-up, they were stored in water and the properties measured for 28 days. For CR, specimens were stored in 2% nitric acid solution and the properties were measured for 28 days. The occlusal enamel of thirty-five molars was removed and adhesives were applied to dentine surface after 37% phosphoric acid etching. After composite resin build-ups, specimens were longitudinally sectioned to obtain resin–dentine bonded sticks (0.8 mm2). Specimens were tested in tension at 0.5 mm/min in IM or 1Y (μTBS). For NL, 2 bonded sticks from each tooth were prepared and analyzed under SEM in IM or 1Y. For DC-i, 2 bonded sticks were prepared and analyzed under micro-Raman spectroscopy. The μTBS and NL data of each adhesive were subjected to two-way repeated measures ANOVA. For UTS, WS, So, copper release, DC-d and DC-i data of each adhesive were subjected to a one-way ANOVA. Tukey’s post hoc test was used for pair-wise comparisons (α = 0.05). Results: The addition of copper nanoparticles provided antimicrobial properties to the adhesives at all concentrations (p < 0,05), and did not influence UTS, WS and SO (p > 0.05). Higher CR was observed in adhesives with higher concentration of copper nanoparticles (p < 0.05). The addition of 1% of copper nanoparticles decreased the DC-d and DC-i significantly. After 1Y, significant reductions of μTBS and increases of NL were observed in the control group (p < 0.05). Reductions of μTBS and increase of NL over time were not observed for copper-containing adhesives.Conclusions: The addition of copper nanoparticles in concentrations up to 0.5% in the simplified ER Ambar adhesive system may be an alternative to provide antimicrobial properties, increase the long-term stability of resin–dentine interfaces, 12 without reducing adhesives’ mechanical properties evaluated. / Objetivos: Este estudo avaliou o efeito da adição de nanopartículas de cobre, em diferentes concentrações, em um sistema adesivo convencional (CON) simplificado Ambar [FGM] sobre a atividade antimicrobiana (AAM), grau de conversão de corpos de prova de adesivos (GC-c) e na interface de união a dentina (GC-i), resistência máxima à tração (RT), sorção cumulativa de água (SO), solubilidade (SB) e liberação de cobre (LC) durante 28 dias, bem como a resistência de união (RU) e nanoinfiltração (NI) na interface de união à dentina nos tempos imediatos (IM) e após 1 ano (1A). Material e métodos: Sete sistemas adesivos experimentais foram formulados de acordo com a adição de nanopartículas de cobre (0 [controle], 0,0075, 0,015, 0,06, 0,1, 0,5 e 1%) no sistema adesivo Ambar. Foi testada a atividade antimicrobiana dos adesivos formulados contra Streptococcus mutans por meio de ensaios de difusão em ágar. Para GC-c, as amostras foram construídas e testadas após 24 h por meio de espectrofotometria no infravermelho com Transformação de Fourier (FTIR) e espectroscopia de micro-Raman. Para RT, as amostras foram testadas depois de 24 horas e 28 dias. Para SO e SB, depois de confeccionados os espécimes, eles foram armazenados em água e as propriedades medidas por 28 dias. Para LC, as amostras foram armazenadas em solução de ácido nítrico a 2% e as propriedades medidas durante 28 dias. O esmalte oclusal de trinta e cinco molares foi removido e os adesivos foram aplicados na superfície da dentina depois de condicionamento com ácido fosfórico a 37%. Depois de restaurações de resina composta, os espécimes foram seccionados longitudinalmente para se obter espécimes (palitos) de resina-dentina (0,8 mm2). Os espécimes foram testados em tensão a 0,5 mm/min no IM ou 1A (RU). Para NI, 2 espécimes de cada dente foram preparadas e analisadas em MEV e testados no IM ou 1A. Para GC-i, 2 espécimes foram preparados e analisados sob espectroscopia de micro-Raman. Os dados do RT foram analisados por uma análise de variância de 2 fatores. Para AAM, SO, SB, e liberação de cobre, os dados foram analisados por análise de variância de fator único, e para RU e NI os dados foram submetidos a análise de variância de 2 fatores para medidas repetidas. Também foi feito o teste post hoc de Tukey para múltiplas comparações. A significância estatística foi predefinida em α = 0,05.Resultados: A adição de nanopartículas de cobre adicionou propriedades antimicrobianas aos adesivos em todas as concentrações (p < 0,05), e não influenciou a RT, SO e SB (p > 0,05). LC elevadas foram observadas em adesivos com maior concentração de nanopartículas de cobre (p < 0,05). A adição de 1% de 10 nanopartículas de cobre diminuiu significativamente o GC-c e GC-i. Após 1 ano, decréscimos significativos de RU e aumentos de NI foram observados no grupo controle (p < 0,05). Decréscimos significativos de RU e aumentos de NI não foram observados nos adesivos contendo cobre (p > 0,05). Conclusões: A adição de nanopartículas de cobre em concentrações de até 0,5% no sistema adesivo convencional simplificado Ambar pode ser uma alternativa para adicionar atividade antimicrobiana e aumentar a estabilidade a longo prazo das interfaces resina-dentina, sem comprometer as propriedades mecânicas dos adesivos.

dentina

adesivos convencionais

resistência de união

grau de conversão

nanoinfiltração

resistência a tração

sorção e solubilidade

liberação de cobre

atividade antimicrobiana

dentin

etch-and-rinse

adhesives

resin–dentine bond strength

degree of conversion

nanoleakage

ultimate tensile strength

water sorption and solubility

copper release

antimicrobial activity

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Metal Particles – Hazard or Risk? Elaboration and Implementation of a Research Strategy from a Surface and Corrosion Perspective

Midander, Klara

January 2009

Do metal particles (including particles of pure metals, alloys, metal oxides and compounds) pose a hazard or risk to human health? In the light of this question, this thesis summarizes results from research conducted on metal particles, and describes the elaboration and implementation of an in vitro test methodology to study metal release from particles through corrosion and dissolution processes in synthetic biological media relevant for human exposure through inhalation/ingestion and dermal contact. Bioaccessible metals are defined as the pool of released metals from particles that potentially could be made available for absorption by humans or other organisms. Studies of bioaccessible metals from different metal particles within this thesis have shown that the metal release process is influenced by material properties, particle specific properties, size distribution, surface area and morphology, as well as the chemistry of synthetic biological test media simulating various human exposure scenarios. The presence of metal particles in proximity to humans and the fact that metals can be released from particles to a varying extent is the hazard referred to in the title. The bioavailable metal fraction of the released metals (the fraction available for uptake/absorption by humans through different exposure routes) is usually significantly smaller than the bioaccessible pool of released metals, and is largely related to the chemical form and state of oxidation of the released metals. Chemical speciation measurements of released chromium for instance revealed chromium to be complexed to its non-available form in simulated lung fluids. Such measurements provide an indirect measure of the potential risk for adverse health effects, when performed at relevant experimental conditions. A more direct way to assess risks is to conduct toxicological in-vitro testing of metal particles, for instance on lung cell cultures relevant for human inhalation. Induced toxicity of metal particles on lung cells includes both the effect of the particles themselves and of the released metal fraction (including bioaccessible and bioavailable metals), the latter shown to be less predominant. The toxic response was clearly influenced by various experimental conditions such as sonication treatment of particles and the presence of serum proteins. Thorough characterization of metal particles assessing parameters including chemical surface composition, degree of agglomeration in solution, size distribution, surface area and morphology was performed and discussed in relation to generated results of bioaccessibility, bioavailability and induced toxicity. One important conclusion was that neither the surface composition nor the bulk composition can be used to assess the extent of metals released from chromium-based alloy particles. These findings emphasize that information on physical-chemical properties and surface characteristics of particles is essential for an in-depth understanding of metal release processes and for further use and interpretation of bioaccessibility data to assess hazard and reduce any risks induced by human exposure to metal particles. / QC 20100803

ferro-chromium alloy

metal particles

bioaccessibility

chemical speciation

dermal contact

surface oxide

in-vitro testing

chemical speciation

cu

copper

comet assay

intracellular

ultrafine

in vitro

A549

cytotoxicity

DNA damage

nanoparticles

particle characterization

artificial sweat

nickel release

nickel powder particles

particle loadings

release kinetics

surface area

copper release

powder particles

synthetic body fluids

skin contact

metal release

stainless steel

particles

test method

Surface and colloid chemistry

Yt- och kolloidkemi

Analytical chemistry

Analytisk kemi

Spectroscopy

Spektroskopi