Your search keyword '"Sandro Fernando Stolf"' showing total 6 results

1. Obtaining and characterization of PBAT/PLA fibers containing zinc phthalocyanine prepared by the electrospinning method

Author

Sandro Fernando Stolf, Wilker Caetano, Ariane R. de S. Rossin, Heloisa G. Zanella, Reinaldo Aparecido Bariccatti, L. Gaffo, Douglas C. Dragunski, Josiane Caetano, and Edvani C. Muniz

Subjects

Materials science, Diffuse reflectance infrared fourier transform, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Fluorescence, Electrospinning, 010406 physical chemistry, 0104 chemical sciences, Lactic acid, chemistry.chemical_compound, Differential scanning calorimetry, chemistry, Chemical engineering, Phthalocyanine, Photosensitizer, Physical and Theoretical Chemistry, 0210 nano-technology, Spectroscopy

Abstract

In this work, blends based on poly(butylene adipate-co-terephthalate) (PBAT) and poly(lactic acid) with the incorporation of zinc phthalocyanine (ZnPc) (in concentrations of 6.35 × 10–4 and 1.46 × 10–2 mol L−1) were fabricated using the electrospinning method. The ZnPC is known for its use as a photosensitizer in photodynamic therapy (PDT) with photophysical properties already well reported in the literature. The importance of this study is justified by the applicability of the material in the medical and disinfection field if the formation of reactive species is proven, a predominant factor in PDT. The prepared fibers were characterized by optical and scanning microscopy, differential scanning calorimetry, fluorescence, UV–Vis diffuse reflectance spectroscopy, Fourier transform-Raman spectroscopy, photoacoustic and photosensitivity test. The microscopies indicated a reduction in mean fiber diameter, with an increase in the zinc phthalocyanine concentration. The results indicate that the optical properties of the phthalocyanine remain in the solid carrier and, after intense electric field, there is the formation of reactive species. Also, through the thermal properties of the material, it was possible to notice a greater interaction of phthalocyanine with the PBAT group of the polymeric matrix.

Published

2021

2. Biomechanical characteristics of adults walking in shallow water and on land

Author

Sandro Fernando Stolf, Marcos Duarte, and Ana Maria Forti Barela

Subjects

Adult, Male, medicine.medical_specialty, Power walking, Physical Exertion, Biophysics, Neuroscience (miscellaneous), STRIDE, Context (language use), Walking, Kinematics, Physical medicine and rehabilitation, medicine, Water environment, Humans, Range of Motion, Articular, Ground reaction force, Gait, Swimming, Simulation, Water, Biomechanical Phenomena, Waves and shallow water, Lower Extremity, Female, Stress, Mechanical, Neurology (clinical), human activities, Geology

Abstract

Although water environment has been employed for different physical activities, there is little available information regarding the biomechanical characteristics of walking in shallow water. In the present study, we investigated the kinematics, ground reaction forces (GRF), and electromyographic (EMG) activation patterns of eight selected muscles of adults walking in shallow water and on land. Ten healthy adults were videotaped while walking at self-selected comfortable speeds on land and in water (at the Xiphoid process level). In both conditions there was a force plate embedded in the middle of each walkway to register the GRF components. Reflective markers were placed over main anatomical landmarks and they were digitalized later to obtain stride characteristics and joint angle information. In general, walking in water was different to walking on land in many aspects and these differences were attributed to the drag force, the apparent body weight reduction, and the lower comfortable speed during walking in shallow water. The joint range of motions (ROM) were not different, the segment ROM, magnitudes of GRF components, impact force, and impulse were different between the two conditions. The present results will contribute to a better understanding of this activity in the context of training and rehabilitation.

Published

2006

3. Dental discolouration after thermal treatment

Author

Elisa T. Sena, Luciano Bachmann, Sandro Fernando Stolf, and Denise Maria Zezell

Subjects

Hot Temperature, Time Factors, Opacity, Dentistry, Thermal treatment, Oral cavity, Transmission spectroscopy, stomatognathic system, Browning, Dentin, medicine, Animals, Dental Enamel, General Dentistry, Enamel paint, Chemistry, business.industry, Lasers, Temperature, Cell Biology, General Medicine, Incisor, stomatognathic diseases, medicine.anatomical_structure, Otorhinolaryngology, visual_art, visual_art.visual_art_medium, Tooth Discoloration, Cattle, business, After treatment

Abstract

Summary Enamel and dentin discolouration have extrinsic and intrinsic origins. Possible causes include pigmented food or drink, caries, clinical chemical treatments, trauma and, high temperature. In the oral cavity, dental hard tissues can be heated when irradiated with high-intensity lasers. This paper, reports initial results on the discolouration of enamel and dentin induced by thermal treatment. The samples used in this work were bovine incisor teeth. Enamel and dentin discolouration were verified using microscopy and transmission spectroscopy. Thermal treatment was carried out at temperatures of 140 and 200 8C. The natural transparent aspect of the enamel became opaque after thermal treatment, it whitened following treatment at 140 8C, and turned completely opaque after treatment at 200 8C. With the same thermal treatment, dentin became light brown after treatment, at 140 8C, and the brown pattern was more evident after treatment at 200 8C. Although there is no conclusive evidence, non-enzymatic browning, collagen denaturation or oxidation of some chemical component of the dentin, may be intensified or produced by the thermal treatment. In enamel, water loss and the consequent increase in light scattering explain the observed opacity. 2003 Elsevier Ltd. All rights reserved.

Published

2004

4. Evaluation of low intensity laser effects on the thyroid gland of male mice

Author

Ana Cecília Correa-Aranha, Martha M.F. Vieira, Carlos de Paula Eduardo, Luciane Hiramatsu Azevedo, and Sandro Fernando Stolf

Subjects

Male, endocrine system, medicine.medical_specialty, Pathology, endocrine system diseases, Biomedical Engineering, Thyroid Gland, Male mice, Mice, Internal medicine, medicine, Animals, Radiology, Nuclear Medicine and imaging, business.industry, Thyroid, Background data, Far-infrared laser, Plasma levels, Thyroxine, Endocrinology, medicine.anatomical_structure, Triiodothyronine, Low-intensity laser, Laser Therapy, business, Hormone

Abstract

The purpose of this study was to assess whether there were alterations in the thyroid hormone plasma levels under infrared laser irradiation, in the thyroid gland region.Studies have demonstrated that infrared laser can cause alterations in thyroid glands.Sixty-five albino male mice were used and assigned to five groups (n = 13), with differences in the times that they were sacrificed. Irradiation procedures consisted of an infrared diode laser emitting at 780 nm, at 4 J/cm(2) energy density, in contact mode, point manner. Blood was collected before irradiation (group 1), and then at 24 h (group 2), 48 h (group 3) and 72 h (group 4), and 1 week (group 5) after the third irradiation. The collected material was used for clinical analysis to evaluate the T(3) (triiodothyronine) and T(4) (thyroxin) hormones. Five animals were used for light microscopy analysis.A statistically significant hormonal level alteration between the first day and 7 days after the last irradiation was found.It was concluded that low-level laser therapy (LLLT) of the thyroid gland may affect the level of thyroidal hormones.

Published

2005

5. Evaluation of Low Intensity Laser Effects on theThyroid Gland of Male Mice.

Author

Luciane Hiramatsu Azevedo, Ana Cecília Correaaranha, Sandro Fernando Stolf, Carlos De Paula Eduardo, and Martha Marques Ferreira Vieira

Published

2005

6. Thermal diffusivity measurement of dental hard tissue as function of temperatura obtained by infrared thermography

Author

Thiago Martini Pereira, Denise Maria Zezell, Sandro Fernando Stolf, and Walter Ferreira Velloso Junior

Subjects

Materials science, laser radiation, thermal diffusivity, infrared thermography, enamels, dentin, computer calculations

Abstract

Neste trabalho foi desenvolvido um software que calcula, de forma automatizada, o valor da difusividade térmica em função da temperatura em materiais. A técnica de Termografia no Infravermelho foi utilizada para a aquisição dos dados de distribuição de temperatura em função do tempo, os quais foram utilizados para ajustar uma função de temperatura encontrada por meio da equação de calor homogênea, aplicando as condições de contorno do problema. Para isso, uma câmera termográfica operando no infravermelho distante (8 m - 9 m) foi calibrada para captar temperaturas entre 185º C e 1300º C, e aquisição com frequência de 300 Hz. Foram empregadas como material de avaliação, 10 amostras de esmalte e 10 amostras de dentina, com dimensões de 4 x 4 x 2 mm, obtidas de dentes incisivos inferiores bovinos, as quais foram irradiadas de forma pontual com o laser pulsado de Er:Cr;YSGG (l = 2,78 m), por 10 segundos. Durante as irradiações, foi efetuado o registro das temperaturas atingidas nas amostras que começou 2 segundos antes da irradiação e continuou por mais 2 segundos após o término daquelas. Após as irradiações, as sequências de imagens térmicas digitalizadas obtidas foram processadas no software desenvolvido durante este trabalho, que gerou um arquivo com os dados da difusividade térmica em função da temperatura atingida, assim como forneceu os valores da difusividade térmica para o intervalo de decaimento da temperatura após cada pulso laser. O resultado médio de difusividade térmica obtido para o esmalte dental neste trabalho foi 0,0084±0,001 cm2/s para a região de temperatura de 220-550ºC. Este valor é aproximadamente constante até a temperatura de 550 ºC. O valor médio de difusividade térmica obtido para a dentina foi de 0,0015 0,0004 cm2/s na região de temperatura de 300-360 ºC, porém a difusividade térmica para a dentina aumenta para temperaturas mais altas. De acordo com os resultados obtidos, pode-se concluir que o uso da termografia no infravermelho, associado ao software desenvolvido, apresenta-se como um método eficiente para a determinação dos valores de difusividade térmica em função da temperatura de diferentes materiais. Neste trabalho foi desenvolvido um software que calcula, de forma automatizada, o valor da difusividade térmica em função da temperatura em materiais. A técnica de Termografia no Infravermelho foi utilizada para a aquisição dos dados de distribuição de temperatura em função do tempo, os quais foram utilizados para ajustar uma função de temperatura encontrada por meio da equação de calor homogênea, aplicando as condições de contorno do problema. Para isso, uma câmera termográfica operando no infravermelho distante (8 m - 9 m) foi calibrada para captar temperaturas entre 185º C e 1300º C, e aquisição com frequência de 300 Hz. Foram empregadas como material de avaliação, 10 amostras de esmalte e 10 amostras de dentina, com dimensões de 4 x 4 x 2 mm, obtidas de dentes incisivos inferiores bovinos, as quais foram irradiadas de forma pontual com o laser pulsado de Er:Cr;YSGG (l = 2,78 m), por 10 segundos. Durante as irradiações, foi efetuado o registro das temperaturas atingidas nas amostras que começou 2 segundos antes da irradiação e continuou por mais 2 segundos após o término daquelas. Após as irradiações, as sequências de imagens térmicas digitalizadas obtidas foram processadas no software desenvolvido durante este trabalho, que gerou um arquivo com os dados da difusividade térmica em função da temperatura atingida, assim como forneceu os valores da difusividade térmica para o intervalo de decaimento da temperatura após cada pulso laser. O resultado médio de difusividade térmica obtido para o esmalte dental neste trabalho foi 0,0084±0,001 cm2/s para a região de temperatura de 220-550ºC. Este valor é aproximadamente constante até a temperatura de 550 ºC. O valor médio de difusividade térmica obtido para a dentina foi de 0,0015 0,0004 cm2/s na região de temperatura de 300-360 ºC, porém a difusividade térmica para a dentina aumenta para temperaturas mais altas. De acordo com os resultados obtidos, pode-se concluir que o uso da termografia no infravermelho, associado ao software desenvolvido, apresenta-se como um método eficiente para a determinação dos valores de difusividade térmica em função da temperatura de diferentes materiais.

Published

2009