Influencia da radiação ionizante em compositos odontologicos, ionomero de vidro e ceramica

Cruz, Adriana Dibo da

23 February 2005

Orientador: Frab Norberto Boscolo / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Odontologia de Piracicaba / Made available in DSpace on 2018-08-04T03:14:13Z (GMT). No. of bitstreams: 1 Cruz_AdrianaDiboda_M.pdf: 1224328 bytes, checksum: c4ba9884bf5793ca34ee9c248d1bc9ce (MD5) Previous issue date: 2005 / Resumo: A influência da radiação ionizante proveniente de exames radiográficos de diagnóstico ou tratamento radioterápico em materiais como compósitos odontológicos, ionômero de vidro e cerâmica é pouco conhecida. Procurando uma maior compreensão da influência da radiação ionizante no comportamento químico, em escala molecular, dos materiais restauradores estéticos usados na Odontologia, o objetivo neste estudo foi avaliar à ação da radiação aplicada com o aumento de dose e determinar quais possíveis alterações ocorreram na estruturas químicas destes materiais restauradores. Foram confeccionados 25 corpos de prova de cada material, seguindo as recomendações do fabricante e após o período de estabilização dos materiais, foram aplicadas as doses fracionadas de 0,25Gy. Os corpos de prova foram separados em 5 grupos, dentre eles o grupo G1, controle não irradiado, e os grupos G2, G3, G4 e G5, que receberam as doses de 0,25Gy; 0,50Gy; 0,75Gy; e 1,00Gy respectivamente de radiação gama de Cobalto 60. Após um mês da radiação, os corpos de prova foram secos e triturados para a análise espectrométrica. O método usado foi a espectrometria de FTIR com refletância difusa. De acordo com a metodologia empregada e os resultados obtidos, foi possível observar que a radiação ionizante interagiu com todos os materiais odontológicos estudados os quais apresentaram padrão de modificação não linear com aumento da dose de radiação. Vários grupos funcionais se apresentaram susceptíveis, tanto na fração orgânica como na fração inorgânica. Ocorreram alterações na estrutura química de todos materiais irradiados apresentando flutuações quantitativas dos grupos funcionais / Abstract: The influence of the ionizing radiation from diagnosis radiographic exams or radiotherapy treatment in dental materials as resin composite, glass ionomer and ceramic dental is not wide known. Trying a better understanding about the ionizing radiation influence in the chemical behavior, in molecular scale, of the esthetics restoration materials used in the dentistry, our aim with this study was to evaluate the radiation action using a different dose to determine which possible alterations in the chemical structures happened. Twenty-five specimens of each material were performed, following the manufacturer's recommendations, after the materials stabilization period, 0.25Gy fractional doses gamma radiation 60Co were applied. The specimens were separated in 5 groups; group G1, control group not irradiated, and the groups G2, G3, G4 and G5 irradiated with 0.25Gy; 0.50Gy; 0.75Gy; and 1.00Gy respectively. One month after radiation applying, the specimens were dried and triturated for spectrometric analysis. The used method was FTIR spectrometric with diffuse reflectance. According to used methodology and the obtained results, it was possible to observe that the ionizing radiation interacted with all this studied dental materials, which had non lineal pattern of modification with radiation dose increase. Several functional groups are susceptible, as well as in the organic fraction and in the inorganic fraction. All the irradiated materials had alterations in the chemical structure presenting quantitative fluctuation of the functional groups / Mestrado / Radiologia Odontologica / Mestre em Radiologia Odontológica

Materiais dentários

Química analítica

Efeitos da radiação

Radicais livres

Dental materials

Chemistry analytical

Radiation effects

Free radicals

Effect of Fluorine and Hydrogen Radical Species on Modified Oxidized Ni(pt)si

Gaddam, Sneha Sen

05 1900

NiSi is an attractive material in the production of CMOS devices. The problem with the utilization of NiSi, is that there is no proper method of cleaning the oxide on the surface. Sputtering is the most common method used for the cleaning, but it has its own complications. Dry cleaning methods include the reactions with radicals and these processes are not well understood and are the focus of the project. Dissociated NF3 and NH3 were used as an alternative and XPS is the technique to analyze the reactions of atomic fluorine and nitrogen with the oxide on the surface. A thermal cracker was used to dissociate the NF3 and NH3 into NFx+F and NHx+H. There was a formation of a NiF2 layer on top of the oxide and there was no evidence of nitrogen on the surface indicating that the fluorine and hydrogen are the reacting species. XPS spectra, however, indicate that the substrate SiO2 layer is not removed by the dissociated NF3 and NiF2 growth process. The NiF2 over layer can be reduced to metallic Ni by reacting with dissociated NH3 at room temperature. The atomic hydrogen from dissociated ammonia reduces the NiF2 but it was determined that the atomic hydrogen from the ammonia does not react with SiO2.

NiSi

Nf3

NiF2

Metallic oxides.

Fluorine.

Hydrogen.

Free radicals (Chemistry)

Surface chemistry.

Vliv anestézie na míru oxidativního poškození DNA / The influence of anesthesia on the degree of DNA oxidative damage

Zubáňová, Veronika

January 2017

Background: Oxidative damage is one of the most frequent types of cell components damage leading to oxidation of lipids, proteins and the molecule of DNA. As a consequence, there is a higher occurrence of several pathologies such as atherosclerosis, neurodegenerative diseases, cancer; or diabetes. In our study, influence of whole body anesthesia during minor surgery on the level of DNA damage was examined using comet assay technique. Methods: The basic principle of this method is fixing the cells (lymphocytes) in agarose, their lysis for the removal of membranes, incubation with the specific enzymes and electrophoresis of the released cell nuclei. During the electrophoresis, free low-molecular weight and negatively charged fragments of DNA move towards anode which causes the formation of the typical comet cell shape. Finally, the gels are stained by ethidium bromide (DNA intercalating dye) and visualized. Results: We have observed single strand breakages (SSBs) and, with the use of modified assay using specific enzymes for detection of specific lesions, also oxidized purines and pyrimidines. The extent of DNA damage as determined by the intensity of the tail of the comet was quantified using LUCIA Comet Assay (Laboratory Imaging, Czech Republic) software for image analysis. The results were used...

Computational Quantum Study of Intermediates Formed During the Partial Oxidation of Melatonin

Oladiran, Oladun

01 May 2020

Melatonin is a neurohormone produced by the pineal gland in the brain. It functions as an antioxidant to scavenge free radicals. Free radicals are reactive species; they often oxidize the cells leading to oxidative stress which may lead to severe health complications. Reaction of melatonin with free radicals is known to be stepwise, as such the stability of the intermediates can be examined. Thus, the possibility of using melatonin as an in vivo spin trap can be determined. Spin traps allow characterization of unstable radical species using electron spin resonance spectroscopy. In this research, ab initio quantum chemistry techniques were used to calculate the energies of selected intermediates formed during the partial oxidation of melatonin by hydroxyl radical. Specifically, optimized geometries for melatonin, and selected intermediates with ·OH were obtained at the DFT/B3LYP/cc-pVXZ and HF/cc-pVXZ (X = D, T, Q) levels of theory. Extrapolations to the complete basis set limit were also performed.

Melatonin

Spin traps

Free Radicals

DFT

HF

Basis Set Extrapolation

Chemistry

Physical Chemistry

Evaluation des Antwortverhaltens des genetisch kodierten optischen Redox-Indikators HyPer / Evaluation of the response properties of the genetically encoded optical redox-sensor HyPer

Weller, Jonathan

25 June 2020

No description available.

610

HyPer

reaktive Oxygen-Spezies

HyPer

Redoxsignaling

Oxidative stress

Reactive oxygen species

Free radicals

Medizin (PPN619874732)

Free Radical Induced Oxidation, Reduction and Metallization of NiSi and Ni(Pt)Si Surfaces

Manandhar, Sudha

08 1900

NiSi and Ni(Pt)Si, and of the effects of dissociated ammonia on oxide reduction was carried out under controlled ultrahigh vacuum (UHV) conditions. X-ray photoelectron spectroscopy (XPS) has been used to characterize the evolution of surface composition. Vicinal surfaces on NiSi and Ni(Pt)Si were formed in UHV by a combination of Ar+ sputtering and thermal annealing. Oxidation of these surfaces in the presence of either O+O2 or pure O2 at room temperature results in the initial formation of a SiO2 layer ~ 7 Å thick. Subsequent exposure to O2 yields no further oxidation. Continued exposure to O+O2, however, results in rapid silicon consumption and, at higher exposures, the kinetically-driven oxidation of the transition metal(s), with oxides >35Ǻ thick formed on all samples, without passivation. The addition of Pt retards but does not eliminate oxide growth or Ni oxidation. At higher exposures, in Ni(Pt)Si surface the kinetically-limited oxidation of Pt results in Pt silicate formation. Substrate dopant type has almost no effect on oxidation rate. Reduction of the silicon oxide/metal silicate is carried out by reacting with dissociated NH3 at room temperature. The reduction from dissociated ammonia (NHx+H) on silicon oxide/ metal silicate layer shows selective reduction of the metal oxide/silicate layer, but does not react with SiO2 at ambient temperature.

NiSi

radicals

Oxidation.

reduction

Ni(Pt)Si

Nickel.

Silicides.

Free radicals (Chemistry)

Reduction (Chemistry)

Metallizing.

Free Radical Chemistries at the Surface of Electronic Materials

Wilks, Justin

08 1900

The focus of the following research was to (1) understand the chemistry involved in nitriding an organosilicate glass substrate prior to tantalum deposition, as well as the effect nitrogen incorporation plays on subsequent tantalum deposition and (2) the reduction of a native oxide, the removal of surface contaminants, and the etching of a HgCdTe surface utilizing atomic hydrogen. These studies were investigated utilizing XPS, TEM and AFM. XPS data show that bombardment of an OSG substrate with NH3 and Ar ions results in the removal of carbon species and the incorporation of nitrogen into the surface. Tantalum deposition onto a nitrided OSG surface results in the initial formation of tantalum nitride with continued deposition resulting in the formation of tantalum. This process is a direct method for forming a thin TaN/Ta bilayer for use in micro- and nanoelectronic devices. Exposure to atomic hydrogen is shown to increase the surface roughness of both air exposed and etched samples. XPS results indicate that atomic hydrogen reduces tellurium oxide observed on air exposed samples via first-order kinetics. The removal of surface contaminants is an important step prior to continued device fabrication for optimum device performance. It is shown here that atomic hydrogen effectively removes adsorbed chlorine from the HgCdTe surface.

X-ray photoelectron spectroscopy

surface science

HgCdTe

Free radicals (Chemistry)

Surface chemistry.

Electronics -- Materials -- Surfaces.

Computational Studies of the Spin Trapping Behavior of Melatonin and its Derivatives

Oladiran, Oladun Solomon, KIrkby, Scott J.

12 April 2019

The presence of excess free radicals in the body can result in severe health consequences because of oxidative damage to cells. Spin traps may be used as a probe to examine radical reactions in cells, but there is a need for less toxic and more lipid soluble examples. Melatonin is one of the numerous antioxidants used to scavenge free radicals in the body and reportedly one of the most efficient radical scavengers known. It is relatively nontoxic and easily crosses the lipid bilayer in cell membranes. Melatonin is thought to undergo a multistep oxidation process and this work investigates the potential for it to be used as a spin trap. The presence of electron withdrawing or donating groups added to melatonin may stabilize an intermediate and allow it to function as a spin trap. The essence of this study is to conduct a computational inquiry into the relative stability of melatonin, selected derivatives, and the partial oxidation products formed from the scavenging of hydroxyl radical. To determine this, geometries were optimized for each molecule at the DFT/B3LYP/6-31G(d) and HF/6-31G(d) levels of theory.

Melatonin

Spin Traps

Hydroxyl Radical

Partial Oxidation

Free Radicals

Quantum Mechanics

Computational Chemistry

Quantum Chemistry

Lipid Hydroperoxides Inhibit Nitric Oxide Production in RAW264.7 Macrophages

Huang, Annong, Li, Chuanfu, Kao, Race L., Stone, William L.

01 March 1999

The effects of oxidatively modified low density lipoprotein (oxLDL) on atherogenesis may be partly mediated by alterations in the production of nitric oxide (NO) by vascular cells. Lipid hydroperoxides (LOOH) and lysophosphatidylcholine (lysoPC) are the major primary products of LDL oxidation. The purpose of this study was to characterize the effects of oxLDL, LOOH and lysoPC on NO production and the expression of inducible nitric oxide synthase (iNOS) gene in lipopolysaccharide (LPS) stimulated macrophages. LDL was oxidized using an azo-initiator 2,2'-azobis (2- amidinopropane) HCl (ABAP) and octadecadienoic acid was oxidized by lipoxygenase to generate 13-hydroperoxyl octadecadienoic acid (13-HPODE). Our study showed that oxLDL markedly decreased the production of NO, the levels of iNOS protein and iNOS mRNA in LPS stimulated macrophages. The inhibition potential of oxLDL on NO production and iNOS gene expression depended on the levels of LOOH formed in oxLDL and was not due to oxLDL cytotoxicity. Furthermore, 13-HPODE markedly reduced NO production and iNOS protein levels, whereas lysoPC showed only slight reduction. The effects of 13-HPODE and lysoPC did not require an acetylated LDL carrier. Our results suggest that 13-HPODE is a much more potent inhibitor of NO production and iNOS gene expression than lysoPC in LPS stimulated RAW264.7 macrophages.

atherosclerosis

free radicals

iNOS

lipid hydroperoxides

lysophosphatidylcholine

macrophages

nitric oxide

oxidized low density lipoprotein

Surgery

Pediatrics

Vitamin E Supplements Fail to Protect Mice From Acute MPTP Neurotoxicity

Gong, Li, Daigneault, Ernest A., Acuff, Robert V., Kostrzewa, Richard M.

01 January 1991

The effect of chronic treatment with vitamin E (VE) on acute l-methyl-4-phenyl-l,2,3,6-tetrahydropyridine (MPTP)-induced neurotoxicity, as assessed by striatal dopamine (DA) depletion, was studied. Male C57B1/6J mice were fed VE (48 mg kg-1 per day, intragastric) for 4, 8, or 12 weeks prior to administration of MPTP (20 mg kg-1, i.p. X 3, 2 h intervals) or its diluent. Brain VE concentration was increased by exogenous supplements for 12 weeks. Striatal DA content was reduced by 85% to 90% after MPTP in control and VE-treated mice. Mice with elevated cerebral VE were not protected from MPTP toxicity, with DA content as an indicator. In conclusion, these findings indicate that moderate elevation of brain VE is not adequate for protecting DA-containing neurons against the toxic actions of a high dose of MPTP.

dopamine

free radicals

MPTP

Parkinson's disease

striatum

vitamin E

Surgery

Biomedical Sciences