Your search keyword '"de Thomaz, A. A."' showing total 251 results

51. Small Fluorescent Probes Show iGluRs are in the Synapses of Transfected Neurons under Basal Conditions

Author

Willian Green, Sang Hak Lee, Christopher M. Dundas, En Cai, Okunola Jeyifous, Daniel Demonte, Paul R. Selvin, Andre A. de Thomaz, Kai Wen Teng, Sheldon Park, Duncan L. Nall, Chaoyi Jin, Pinghua Ge, Yuji Ishitsuka, and Murat Baday

Subjects

Synapse, Membrane, Quantum dot, Biophysics, Glutamate receptor, Analytical chemistry, NMDA receptor, AMPA receptor, Biology, Receptor, Fluorescence

Abstract

We imaged transiently transfected live glutamate receptors (iGluRs), namely AMPAR and NMDAR, with super-resolution in three-dimension, labeled with differently sized fluorophores. We used small organic fluorescent dyes (∼ 4 nm), small quantum dots (sQD, ∼10 nm in diameter), or big (commercial) quantum dots (bQD, ∼ 20 nm in diameter). The iGluRs were imaged along with a synaptic protein, Homer1c, using fiducial markers that eliminate stage drift, and under conditions where the receptor cross-linking is monitored or eliminated. With small probes under basal conditions, we find that both AMPAR and NMDAR are predominantly within the synapse (∼84-95%), in contrast to bQDs, which show only 5-10% within the synapse. The results can likely be explained by cross-linking and inhibited mobility of the iGluRs labeled with bQDs, but not with sQDs or organic fluorophores. Hence, this data indicates that there is not a highly diffusible pool of extrasynaptic iGluRs in the plasma membrane, as has been widely reported. In addition, within a synapse, the distribution is non-homogeneous, perhaps due to the non-homogeneous distribution of glutamate.

Published

2017

52. Multimodal nonlinear optical microscopy used to discriminate human colon cancer

Author

Mariana Ozello Baratti, Vitor B. Pelegati, Hernandes F. Carvalho, Javier Adur, André A. de Thomaz, Carlos L. Cesar, Mariana Bianchi, and Victor Hugo Casco

Subjects

Fluorescence-lifetime imaging microscopy, Pathology, medicine.medical_specialty, medicine.diagnostic_test, Colorectal cancer, business.industry, Cancer, Nanotechnology, medicine.disease, Human colon cancer, Breast cancer, Stroma, Microscopy, Biopsy, medicine, business

Abstract

Colon cancer is one of the most diffused cancers in the Western World, ranking third worldwide in freq uency of incidence after lung and breast cancers. Even if it is curable when detected and treated ear ly, a more accurate premature diagnosis would be a suitable aim for both cancer p rognostic and treatment. Combined multimodal nonlin ear optical (NLO) microscopies, such as two-photon excitation f luorescence (TPEF), second-harmonic generation (SHG ), third harmonic generation (THG), and fluorescence lifetim e imaging microscopy (FLIM) can be used to detect m orphological and metabolic changes associated with stroma and ep ithelial transformation in colon cancer disease. NLO microscopes provide complementary information a bout tissue microstructure, showing distinctive pat terns between normal and malignant human colonic mucosa. Using a set of scoring methods significant differences both in the content, distribution and organization of stroma collagen fi brils, and lifetime components of NADH and FAD cofa ctors of human colon mucosa biopsies were found. Our results provi de a framework for using NLO techniques as a clinic al diagnostic tool for human colon cancer, and also suggest that the SHG and FLIM metrics could be applied to other intestinal disorders, which are characterized by abnormal cell proliferation and collagen assembly. Keywords: Multimodal techniques, Nonlinear microscopies, Flu orescence lifetime imaging microscopy, colon, cance r

Published

2013

53. Measuring red blood cell aggregation forces using double optical tweezers

Author

Carlos L. Cesar, André A. de Thomaz, Vagner Castro, Heloise P. Fernandes, Adriana Fontes, and Maria Lourdes Barjas-Castro

Subjects

Erythrocyte Aggregation, Erythrocytes, Optical Tweezers, Rho(D) Immune Globulin, Clinical Biochemistry, Static Electricity, Analytical chemistry, Hydrophobic effect, chemistry.chemical_compound, Isoantibodies, Papain, Zeta potential, medicine, Image Processing, Computer-Assisted, Humans, Cells, Cultured, Chromatography, Intermolecular force, Osmolar Concentration, Dextrans, General Medicine, Culture Media, Red blood cell, Agglutination (biology), Dextran, medicine.anatomical_structure, chemistry, Optical tweezers

Abstract

Classic immunohematology approaches, based on agglutination techniques, have been used in manual and automated immunohematology laboratory routines. Red blood cell (RBC) agglutination depends on intermolecular attractive forces (hydrophobic bonds, Van der Walls, electrostatic forces and hydrogen bonds) and repulsive interactions (zeta potential). The aim of this study was to measure the force involved in RBC aggregation using double optical tweezers, in normal serum, in the presence of erythrocyte antibodies and associated to agglutination potentiator solutions (Dextran, low ionic strength solution [LISS] and enzymes). The optical tweezers consisted of a neodymium:yattrium aluminium garnet (Nd:YAG) laser beam focused through a microscope equipped with a minicam, which registered the trapped cell image in a computer where they could be analyzed using a software. For measuring RBC aggregation, a silica bead attached to RBCs was trapped and the force needed to slide one RBC over the other, as a function of the velocities, was determined. The median of the RBC aggregation force measured in normal serum (control) was 1 × 10(-3) (0.1-2.5) poise.cm. The samples analyzed with anti-D showed 2 × 10(-3) (1.0-4.0) poise.cm (p < 0.001). RBC diluted in potentiator solutions (Dextran 0.15%, Bromelain and LISS) in the absence of erythrocyte antibodies, did not present agglutination. High adherence was observed when RBCs were treated with papain. Results are in agreement with the imunohematological routine, in which non-specific results are not observed when using LISS, Dextran and Bromelain. Nevertheless, false positive results are frequently observed in manual and automated microplate analyzer using papain enzyme. The methodology proposed is simple and could provide specific information with the possibility of meansuration regarding RBC interaction.

Published

2013

54. The role of stress in CdTe quantum dot doped glasses

Author

Hernandes F. Carvalho, V. B. Pelegati, Diogo B. Almeida, A. A. de Thomaz, L. C. Barbosa, Sanclayton G. C. Moreira, and Carlos L. Cesar

Subjects

Phase transition, Work (thermodynamics), Materials science, Acoustics and Ultrasonics, Condensed matter physics, business.industry, Doping, technology, industry, and agriculture, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Fluorescence, Cadmium telluride photovoltaics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Condensed Matter::Soft Condensed Matter, Stress (mechanics), Colloid, Optics, Quantum dot, 0103 physical sciences, 010306 general physics, 0210 nano-technology, business

Abstract

In this work, we unequivocally demonstrate the influence of matrix-related stresses on quantum dots by measuring, side by side, a CdTe quantum dot doped glass and a colloidal sample with similar sizes. We measured the fluorescence spectra and fluorescence lifetime for both samples as a function of the temperature. We show that the expansion coefficient mismatch between CdTe quantum dots and the glass host causes stresses and drastically changes its behavior compared to its colloidal counterpart, even leading to phase transitions. This finding indicates that most experimental data on glass-doped quantum dots used to validate confinement models should be revised, taking stress into account.

Published

2016

55. 63 - A função dos princípios do direito recuperacional e falimentar brasileiro

Author

Junqueira de, Thomaz H. and Pereira, A.

Published

2012

56. Second harmonic generation microscopy as a powerful diagnostic imaging modality for human ovarian cancer

Author

Adur, Javier Fernando, Pelagati, Vitor B., de Thomaz, Andre A., Baratti, Mariana O., Andrade, Liliana A. L. A., Carvalho, Hernandes F., Bottcher Luiz, Fátima, and Lenz Cesar, Carlos

Subjects

COLLAGEN QUANTIFICATION, Astronomía, OVARIAN EPITHELIAL TUMORS, Ciencias Físicas, SECOND HARMONIC GENERATION MICROSCOPY, EXTRACELLULAR MATRIX, CIENCIAS NATURALES Y EXACTAS

Abstract

In this study we showed that second-harmonic generation (SHG) microscopy combined with precise methods for images evaluation can be used to detect structural changes in the human ovarian stroma. Using a set of scoring methods (alignment of collagen fibers, anisotropy, and correlation), we found significant differences in the distribution and organization of collagen fibers in the stroma component of serous, mucinous, endometrioid and mixed ovarian tumors as compared with normal ovary tissue. This methodology was capable to differentiate between cancerous and healthy tissue, with clear cut distinction between normal, benign, borderline, and malignant tumors of serous type. Our results indicated that the combination of different image-analysis approaches presented here represent a powerful tool to investigate collagen organization and extracellular matrix remodeling in ovarian tumors. Fil: Adur, Javier Fernando. Universidad Nacional de Entre Ríos. Facultad de Ingeniería; Argentina. Universidade Estadual de Campinas; Brasil. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Pelagati, Vitor B.. Universidade Estadual de Campinas; Brasil Fil: de Thomaz, Andre A.. Universidade Estadual de Campinas; Brasil Fil: Baratti, Mariana O.. Universidade Estadual de Campinas; Brasil Fil: Andrade, Liliana A. L. A.. Universidade Estadual de Campinas; Brasil Fil: Carvalho, Hernandes F.. Universidade Estadual de Campinas; Brasil Fil: Bottcher Luiz, Fátima. Universidade Estadual de Campinas; Brasil Fil: Lenz Cesar, Carlos. Universidade Estadual de Campinas; Brasil

Published

2012

57. Second harmonic generation microscopy as a powerful diagnostic imaging modality for human ovarian cancer

Author

Javier, Adur, Vitor B, Pelegati, Andre A, de Thomaz, Mariana O, Baratti, Liliana A L A, Andrade, Hernandes F, Carvalho, Fátima, Bottcher-Luiz, and Carlos Lenz, Cesar

Subjects

Diagnostic Imaging, Ovarian Neoplasms, Microscopy, Humans, Female, Collagen

Abstract

In this study we showed that second-harmonic generation (SHG) microscopy combined with precise methods for images evaluation can be used to detect structural changes in the human ovarian stroma. Using a set of scoring methods (alignment of collagen fibers, anisotropy, and correlation), we found significant differences in the distribution and organization of collagen fibers in the stroma component of serous, mucinous, endometrioid and mixed ovarian tumors as compared with normal ovary tissue. This methodology was capable to differentiate between cancerous and healthy tissue, with clear cut distinction between normal, benign, borderline, and malignant tumors of serous type. Our results indicated that the combination of different image-analysis approaches presented here represent a powerful tool to investigate collagen organization and extracellular matrix remodeling in ovarian tumors.

Published

2012

58. Analysis of human aorta using fluorescence lifetime imaging microscopy (FLIM)

Author

C. L. Cesar, Gislaine Vieira-Damiani, André A. de Thomaz, Daniela Ferro, R. L. Adam, Konradin Metze, V. B. Pelegati, and Javier Adur

Subjects

Human aorta, Fluorescence-lifetime imaging microscopy, Optics, Molecular level, Nuclear magnetic resonance, business.industry, Chemistry, Microscopic level, business, Fluorescence

Abstract

The use of photonics has improved our understanding of biologic phenomena. For the study of the normal and pathologic architecture of the aorta the use of Two-Photon Excited Fluorescence (TPEF) and Second Harmonic Generation showed interesting details of morphologic changes of the elastin-collagen architecture during aging or development of hypertension in previous studies. In this investigation we tried to apply fluorescence lifetime imaging (FLIM) for the morphologic analysis of human aortas. The aim of our study was to use FLIM in non-stained formalin-fixed and paraffin-embedded samples of the aorta ascendants in hypertensive and normotensive patients of various ages, examining two different topographical regions. The FLIM-spectra of collagen and elastic fibers were clearly distinguishable, thus permitting an exact analysis of unstained material on the microscopic level. Moreover the FLIM spectrum of elastic fibers revealed variations between individual cases, which indicate modifications on a molecular level and might be related to FLIM age or diseases states and reflect modifications on a molecular level.

Published

2012

59. Second-harmonic generation microscopy used to evaluate the effect of the dimethyl sulfoxide in the cryopreservation process in collagen fibers of differentiated chondrocytes

Author

Mariana Ozello Baratti, M. F. Andreoli-Risso, Fernando Ferreira Costa, Adriana S. S. Duarte, Hernandes F. Carvalho, P. Kharmadayan, S. T. Olalla-Saad, Angela C. M. Luzo, Vitor B. Pelegati, Thiago Borsoi Ribeiro, Javier Adur, P. Bordeaux-Rego, A. A. de Thomaz, and Carlos Lenz Cesar

Subjects

medicine.diagnostic_test, Chemistry, Dimethyl sulfoxide, Mesenchymal stem cell, Adipose tissue, Chondrogenesis, Cryopreservation, Flow cytometry, Cell biology, chemistry.chemical_compound, Collagenase, medicine, medicine.drug, Adult stem cell

Abstract

Cartilaginous lesions are a significant public health problem and the use of adult stem cells represents a promising therapy for this condition. Cryopreservation confers many advantages for practitioners engaged in cell-based therapies. However, conventional slow freezing has always been associated with damage and mortality due to intracellular ice formation, cryoprotectant toxicity, and dehydration. The aim of this work is to observe the effect of the usual Dimethyl Sulfoxide (DMSO) cryopreservation process on the architecture of the collagen fiber network of chondrogenic cells from mesenchymal stem cells by Second Harmonic Generation (SHG) microscopy. To perform this study we used Mesenchymal Stem Cells (MSC) derived from adipose tissue which presents the capacity to differentiate into other lineages such as osteogenic, adipogenic and chondrogenic lineages. Mesenchymal stem cells obtained after liposuction were isolated digested by collagenase type I and characterization was carried out by differentiation of mesodermic lineages, and flow cytometry using specific markers. The isolated MSCs were cryopreserved by the DMSO technique and the chondrogenic differentiation was carried out using the micromass technique. We then compared the cryopreserved vs non-cryopreserved collagen fibers which are naturally formed during the differentiation process. We observed that noncryopreserved MSCs presented a directional trend in the collagen fibers formed which was absent in the cryopreserved MSCs. We confirmed this trend quantitatively by the aspect ratio obtained by Fast Fourier Transform which was 0.76 for cryopreserved and 0.52 for non-cryopreserved MSCs, a statistical significant difference.

Published

2012

60. Quantitative second-harmonic generation imaging to detect osteogenesis imperfecta in human skin samples

Author

A. E. Ferreira, Hernandes F. Carvalho, A. A. de Thomaz, Diogo B. Almeida, Javier Adur, C. L. Cesar, V. B. Pelegati, Mariana Ozello Baratti, and Lília D'Souza-Li

Subjects

medicine.medical_specialty, Materials science, Second-harmonic generation, Human skin, Second Harmonic Generation Microscopy, Fibril, medicine.disease, symbols.namesake, Fourier transform, Osteogenesis imperfecta, Molecular genetics, Microscopy, medicine, symbols, Biomedical engineering

Abstract

Osteogenesis Imperfecta (OI) is a genetic disorder that leads to bone fractures due to mutations in the Col1A1 or Col1A2 genes that affect the primary structure of the collagen I chain with the ultimate outcome in collagen I fibrils that are either reduced in quantity or abnormally organized in the whole body. A quick test screening of the patients would largely reduce the sample number to be studied by the time consuming molecular genetics techniques. For this reason an assessment of the human skin collagen structure by Second Harmonic Generation (SHG) can be used as a screening technique to speed up the correlation of genetics/phenotype/OI types understanding. In the present work we have used quantitative second harmonic generation (SHG) imaging microscopy to investigate the collagen matrix organization of the OI human skin samples comparing with normal control patients. By comparing fibril collagen distribution and spatial organization, we calculated the anisotropy and texture patterns of this structural protein. The analysis of the anisotropy was performed by means of the two-dimensional Discrete Fourier Transform and image pattern analysis with Gray-Level Co-occurrence Matrix (GLCM). From these results, we show that statistically different results are obtained for the normal and disease states of OI.

Published

2012

61. Use of the second harmonic generation microscopy to evaluate chondrogenic differentiation of mesenchymal stem cells for cartilage repair

Author

B. Vidal, F. F. Costa, Thiago Borsoi Ribeiro, C. L. Cesar, Adriana S. S. Duarte, Pedro Bordeaux-Rego, S. T. Olalla Saad, A. A. de Thomaz, Javier Adur, Mariana Ozello Baratti, M. F. Andreoli-Risso, V. B. Pelegati, Angela C. M. Luzo, João Batista de Miranda, and Hernandes F. Carvalho

Subjects

Transplantation, Extracellular matrix, Cell therapy, Pathology, medicine.medical_specialty, medicine.anatomical_structure, Chemistry, Hyaline cartilage, Cartilage, Mesenchymal stem cell, Type II collagen, medicine, Chondrogenesis

Abstract

Articular cartilage injury remains one of the major concerns in orthopedic surgery. Mesenchymal stem cell (MSC) transplantation has been introduced to avoid some of the side effects and complications of current techniques.. With the aim to evaluate chondrogenic differentiation of mesenchymal stem cells, we used Second Harmonic Generation (SHG) microscopy to analyze the aggregation and orientation of collagen fibrils in the hyaline cartilage of rabbit knees. The experiment was performed using implants with type II collagen hydrogel (a biomaterial that mimics the microenvironment of the cartilage), one implant containing MSC and one other without MSC (control). After 10 weeks, the rabbit knees were dissected and fibril collagen distribution and spatial organization in the extracellular matrix of the lesions were verified by SHG. The result showed significant differences, whereas in histological sections of the cartilaginous lesions with MSC the collagen fibers are organized and regular; in the control sections the collagen fibers are more irregular, with absence of cells. A macroscopic analysis of the lesions confirmed this difference, showing a greater percentage of lesions filling in knees treated with MSC than in the knees used as controls. This study demonstrates that SHG microscopy will be an excellent tool to help in the evaluation of the effectiveness of MSC-based cell therapy for cartilage repair.

Published

2012

62. Multimodal optical setup for nonlinear and fluorescence lifetime imaging microscopies: improvement on a commercial confocal inverted microscope

Author

Mariana Ozello Baratti, A. A. de Thomaz, Hernandes F. Carvalho, Diogo B. Almeida, Javier Adur, V. B. Pelegati, and C. L. Cesar

Subjects

Fluorescence-lifetime imaging microscopy, Materials science, Microscope, business.industry, Inverted microscope, Nonlinear optics, Second-harmonic generation, law.invention, Optics, law, Collagen network, Microscopy, Optoelectronics, High harmonic generation, business

Abstract

In this work we proposed and built a multimodal optical setup that extends a commercially available confocal microscope (Olympus FV300) to include nonlinear optical (NLO) microscopy and fluorescence lifetime imaging microscopy (FLIM). The NLO microscopies included two-photon fluorescence (TPFE), Second Harmonic Generation (SHG) and Third Harmonic Generation (THG). The whole system, including FLIM, used only one laser source composed of an 80 MHz femtosecond laser. The commercial Ti:sapphire lasers can be tuned up to 690-1040 nm bringing the THG signal to the 350 nm region where most microscope optics do not work. However, the third harmonic is only generated at the sample, meaning that we only have to take care of the collection optics. To do that we used a remote photomultiplier to acquire the THG signal at the 310-350 nm wavelength window. After performing the tests to guarantee that we are observing actually SHG/THG signals we than used this system to acquire multimodal images of several biological samples, from epithelial cancer to vegetables. The ability to see the collagen network together with the cell nuclei proved to be important for cancer tissues diagnosis. Moreover, FLIM provides information about the cell metabolism, also very important for cancer cell processes.

Published

2012

63. Combined nonlinear laser imaging (two-photon excitation fluorescence, second and third-harmonic generation, and fluorescence lifetime imaging microscopies) in ovarian tumors

Author

Liliana Aparecida Lucci De Angelo Andrade, Diogo B. Almeida, Javier Adur, C. L. Cesar, V. B. Pelegati, Hernandes F. Carvalho, Fátima Böttcher-Luiz, and A. A. de Thomaz

Subjects

Serous fluid, Fluorescence-lifetime imaging microscopy, Optics, Nuclear magnetic resonance, Materials science, Two-photon excitation microscopy, business.industry, Microscopy, Nonlinear optics, Second-harmonic generation, High harmonic generation, business, Fluorescence

Abstract

We applied Two-photon Excited Fluorescence (TPEF), Second/Third Harmonic Generation (SHG and THG) and Fluorescence Lifetime Imaging (FLIM) Non Linear Optics (NLO) Laser-Scanning Microscopy within the same imaging platform to evaluate their use as a diagnostic tool in ovarian tumors. We assess of applicability of this multimodal approach to perform a pathological evaluation of serous and mucinous tumors in human samples. The combination of TPEF-SHG-THG imaging provided complementary information about the interface epithelium/stromal, such as the transformation of epithelium surface (THG) and the overall fibrillar tissue architecture (SHG). The fact that H&E staining is the standard method used in clinical pathology and that the stored samples are usually fixed makes it important a re-evaluation of these samples with NLO microscopy to compare new results with a library of already existing samples. FLIM, however, depends on the chemical environment around the fluorophors that was completely changed after fixation; therefore it only makes sense in unstained samples. Our FLIM results in unstained samples demonstrate that it is possible to discriminate healthy epithelia from serous or mucinous epithelia. Qualitative and quantitative analysis of the different imaging modalities used showed that multimodal nonlinear microscopy has the potential to differentiate between cancerous and healthy ovarian tissue.

Published

2012

64. Harmonic optical microscopy and fluorescence lifetime imaging platform for multimodal imaging

Author

Vitor B. Pelegati, Liliana Aparecida Lucci De Angelo Andrade, Fátima Böttcher-Luiz, André A. de Thomaz, Carlos L. Cesar, Diogo B. Almeida, Javier Adur, and Mariana Ozello Baratti

Subjects

Fluorescence-lifetime imaging microscopy, Histology, Materials science, Microscope, Confocal, Second-harmonic imaging microscopy, law.invention, Optics, law, Microscopy, Onions, Image Processing, Computer-Assisted, Humans, Instrumentation, Solanum tuberosum, Ovarian Neoplasms, Microscopy, Confocal, business.industry, Second-harmonic generation, Laser, Adenocarcinoma, Mucinous, Medical Laboratory Technology, Microscopy, Fluorescence, Female, Anatomy, business, Ultrashort pulse

Abstract

In this work, we proposed and built a multimodal optical setup that extends a commercially available confocal microscope (Olympus VF300) to include nonlinear second harmonic generation (SHG) and third harmonic generation (THG) optical (NLO) microscopy and fluorescence lifetime imaging microscopy (FLIM). We explored all the flexibility offered by this commercial confocal microscope to include the nonlinear microscopy capabilities. The setup allows image acquisition with confocal, brightfield, NLO/multiphoton and FLIM imaging. Simultaneously, two-photon excited fluorescence (TPEF) and SHG are well established in the biomedical imaging area, because one can use the same ultrafast laser and detectors set to acquire both signals simultaneously. Because the integration with FLIM requires a separated modulus, there are fewer reports of TPEF+SHG+FLIM in the literature. The lack of reports of a TPEF+SHG+THG+FLIM system is mainly due to difficulties with THG because the present NLO laser sources generate THG in an UV wavelength range incompatible with microscope optics. In this article, we report the development of an easy-to-operate platform capable to perform two-photon fluorescence (TPFE), SHG, THG, and FLIM using a single 80 MHz femtosecond Ti:sapphire laser source. We described the modifications over the confocal system necessary to implement this integration and verified the presence of SHG and THG signals by several physical evidences. Finally, we demonstrated the use of this integrated system by acquiring images of vegetables and epithelial cancer biological samples. Microsc. Res. Tech. 2012. © 2012 Wiley Periodicals, Inc.

Published

2011

65. Multimodal nonlinear optical microscopy used to discriminate epithelial ovarian cancer

Author

Fátima Böttcher-Luiz, C. L. Cesar, Diogo B. Almeida, Javier Adur, A. A. de Thomaz, V. B. Pelegati, and Liliana Aparecida Lucci De Angelo Andrade

Subjects

Pathology, medicine.medical_specialty, Materials science, Eosin, H&E stain, medicine.disease, Fluorescence, Staining, chemistry.chemical_compound, Serous fluid, Nuclear magnetic resonance, chemistry, Microscopy, medicine, Neoplastic transformation, Ovarian cancer

Abstract

We used human specimens of epithelial ovarian cancer (serous type) to test the feasibility of nonlinear imaging as complementary tools for ovarian cancer diagnosis. Classical hematoxylin-and-eosin stained sections were applied to combining two-photon excitation fluorescence (TPEF), second (SHG), and third (THG) harmonic microscopy within the same imaging platform. We show that strong TPEF + SHG + THG signals can be obtained in fixed samples stained with Hematoxylin & Eosin (H&E) stored for a very long time and that H&E staining enhanced the THG signal. We demonstrate using anisotropy and morphological measurements, that SHG and THG of stained optical sections allow reproducible identification of neoplastic features such as architectural alterations of collagen fibrils at different stages of the neoplastic transformation and cellular atypia. Taken together, these results suggest that, with our viable imaging system, we can qualitatively and quantitatively assess endogenous optical biomarkers of the ovarian tissue with SHG and THG microscopy. This imaging capability may prove to be highly valuable in aiding to determine structural changes at the cellular and tissue levels, which may contribute to the development of new diagnostic techniques.

Published

2011

66. Elastic fibers and collagen distribution in human aorta

Author

Gislaine Vieira-Damiani, Konradin Metze, Daniela Ferro, V. B. Pelegati, C. L. Cesar, A. A. de Thomaz, and Randall L. Adam

Subjects

Aorta, Materials science, Eosin, business.industry, H&E stain, Second-harmonic generation, Fluorescence, law.invention, chemistry.chemical_compound, Optics, chemistry, Confocal microscopy, law, medicine.artery, Microscopy, medicine, Thoracic aorta, business, Biomedical engineering

Abstract

Elastic and collagen fibers are essential components of the aorta, the remodeling of these structures is accompanied with aging in various diseases and life-threatening events. While the elastic fibers confer resilience to major blood vessels collagen confers resistance to the same. Elastic fibers are easily visualized in the fluorescent light when stained with hematoxylin eosin. Second Harmonic Generation (SHG) is a non linear signal that occurs only in molecules without inversion symmetry and is particularly strong in the collagen fibers arranged in triple helices. The aim of this paper is to describe the distribution of collagen in the thickness of the thoracic aorta, and to demonstrate the distribution of between elastic fibers. The images were acquired in a multifoton microscopy and both signals, Two-phtoton excitaded fluorescence (TPEF) and SHG, were excited by a Ti:Sapphire laser. We used a band pass filter to filter the SHG signal from the TPEF signal. The thickness of the aorta varies 2-3 mm, and the image was composed of the juxtaposition of images of 220 x 220 microns. We acquired images of a histological slide of the thoracic aorta stained with picrosirius red (specific for collagen) at a wavelength of 670nm SHG subsequently acquired images with the same region and observed that the images are overlapping. Therefore, the following images were acquired by confocal microscopy (fluorescence of eosin for visualization of elastic fibers) and for collagen SHG. After reconstruction of the images, we observed the distribution of collagen along the aorta.

Published

2011

67. Blood group antigen studies using CdTe quantum dots and flow cytometry

Author

Cabral Filho,Paulo, Pereira,Maria, Fernandes,Heloise, de Thomaz,Andre, Lenz Cesar,Carlos, Santos,Beate, Barjas-Castro,Maria, Fontes,Adriana, Cabral Filho,Paulo, Pereira,Maria, Fernandes,Heloise, de Thomaz,Andre, Lenz Cesar,Carlos, Santos,Beate, Barjas-Castro,Maria, and Fontes,Adriana

Abstract

Paulo E Cabral Filho,1 Maria IA Pereira,1 Heloise P Fernandes,2 Andre A de Thomaz,3 Carlos L Cesar,3 Beate S Santos,4 Maria L Barjas-Castro,2 Adriana Fontes1 1Departamento de Biofísica e Radiobiologia, Universidade Federal de Pernambuco, Recife, Pernambuco, 2Centro de Hematologia e Hemoterapia, Universidade Estadual de Campinas, Instituto Nacional de Ciência e Tecnologia do Sangue, Campinas, São Paulo, 3Departamento de Eletrônica Quântica, Instituto de Física Gleb Wataghin, Universidade Estadual de Campinas, Campinas, São Paulo, 4Departamento de Ciências Farmacêuticas, Universidade Federal de Pernambuco, Recife, PE, Brazil Abstract: New methods of analysis involving semiconductor nanocrystals (quantum dots [QDs]) as fluorescent probes have been highlighted in life science. QDs present some advantages when compared to organic dyes, such as size-tunable emission spectra, broad absorption bands, and principally exceptional resistance to photobleaching. Methods applying QDs can be simple, not laborious, and can present high sensibility, allowing biomolecule identification and quantification with high specificity. In this context, the aim of this work was to apply dual-color CdTe QDs to quantify red blood cell (RBC) antigen expression on cell surface by flow cytometric analysis. QDs were conjugated to anti-A or anti-B monoclonal antibodies, as well as to the anti-H (Ulex europaeus I) lectin, to investigate RBCs of A1, B, A1B, O, A2, and Aweak donors. Bioconjugates were capable of distinguishing the different expressions of RBC antigens, both by labeling efficiency and by flow cytometry histogram profile. Furthermore, results showed that RBCs from Aweak donors present fewer amounts of A antigens and higher amounts of H, when compared to A1 RBCs. In the A group, the amount of A antigens decreased as A1 > A3 > AX = Ael, while H antigens were AX = Ael > A1. Bioc

Published

2015

68. Studying nanotoxic effects of CdTe quantum dots in Trypanosoma cruzi

Author

André A. de Thomaz, Denise Feder, Suzete Araujo Oliveira Gomes, Diogo B. Almeida, Carlos L. Cesar, Rubem F. S. Menna-Barreto, Jacenir Reis dos Santos-Mallet, and Cecilia Stahl Vieira

Subjects

Microbiology (medical), lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Trypanosoma cruzi, lcsh:QR1-502, CdTe quantum dots, Biology, lcsh:Microbiology, Flow cytometry, chemistry.chemical_compound, Mice, Microscopy, Electron, Transmission, In vivo, Quantum Dots, medicine, Cadmium Compounds, Animals, Propidium iodide, Cell Proliferation, Fluorescent Dyes, medicine.diagnostic_test, Cell Membrane, technology, industry, and agriculture, equipment and supplies, biology.organism_classification, Flow Cytometry, In vitro, chemistry, Quantum dot, Nanotoxicology, nanotoxicity, Immunology, Biophysics, Tellurium, Mitochondrial Swelling, Ex vivo, DNA Damage

Abstract

Semiconductor nanoparticles, such as quantum dots (QDs), were used to carry out experiments in vivo and ex vivo with Trypanosoma cruzi. However, questions have been raised regarding the nanotoxicity of QDs in living cells, microorganisms, tissues and whole animals. The objective of this paper was to conduct a QD nanotoxicity study on living T. cruzi protozoa using analytical methods. This was accomplished using in vitro experiments to test the interference of the QDs on parasite development, morphology and viability. Our results show that after 72 h, a 200 μM cadmium telluride (CdTe) QD solution induced important morphological alterations in T. cruzi, such as DNA damage, plasma membrane blebbing and mitochondrial swelling. Flow cytometry assays showed no damage to the plasma membrane when incubated with 200 μM CdTe QDs for up to 72 h (propidium iodide cells), giving no evidence of classical necrosis. Parasites incubated with 2 μM CdTe QDs still proliferated after seven days. In summary, a low concentration of CdTe QDs (2 μM) is optimal for bioimaging, whereas a high concentration (200 μM CdTe) could be toxic to cells. Taken together, our data indicate that 2 μM QD can be used for the successful long-term study of the parasite-vector interaction in real time.

Published

2010

69. One- and two-photon photoluminescence excitation spectra of CdTe quantum dots in a cryogenic confocal microscopy platform

Author

Almeida, Diogo B., primary, de Thomaz, André A., additional, Carvalho, Hernandes F., additional, and Cesar, Carlos L., additional

Published

2015

70. Blood group antigen studies using CdTe quantum dots and flow cytometry

Author

Fontes, Adriana, primary, Cabral Filho, Paulo, additional, Pereira, Maria, additional, Fernandes, Heloise, additional, de Thomaz, Andre, additional, Lenz Cesar, Carlos, additional, Santos, Beate, additional, and Barjas-Castro, Maria, additional

Published

2015

71. Correction: Corrigendum: αB-crystallin interacts with and prevents stress-activated proteolysis of focal adhesion kinase by calpain in cardiomyocytes

Author

Pereira, Michelle B.M., primary, Santos, Aline M., additional, Gonçalves, Danieli C., additional, Cardoso, Alisson C., additional, Consonni, Sílvio R., additional, Gozzo, Fabio C., additional, Oliveira, Paulo S., additional, Pereira, Ana Helena M., additional, Figueiredo, Alana R., additional, Tiroli-Cepeda, Ana O., additional, Ramos, Carlos H.I., additional, de Thomaz, André A., additional, Cesar, Carlos L., additional, and Franchini, Kleber G., additional

Published

2015

72. Measurement of the Hydrodynamic Radius of Quantum Dots by Fluorescence Correlation Spectroscopy Excluding Blinking

Author

de Thomaz, A. A., primary, Almeida, D. B., additional, Pelegati, V. B., additional, Carvalho, H. F., additional, and Cesar, C. L., additional

Published

2015

73. Studying nanotoxic effects of CdTe quantum dots in Trypanosoma cruzi

Author

Suzete Araujo Oliveira Gomes, A. A. de Thomaz, Rubem F. S. Menna-Barreto, Adriana Fontes, C. V. Stahl, Jacenir Reis dos Santos-Mallet, Carlos L. Cesar, Denise Feder, and Diogo B. Almeida

Subjects

Chagas disease, biology, Chemistry, Cell, biology.organism_classification, medicine.disease, In vitro, Cell biology, Transplantation, medicine.anatomical_structure, In vivo, parasitic diseases, Immunology, medicine, Parasite hosting, Cytotoxicity, Trypanosoma cruzi

Abstract

Many studies have been done in order to verify the possible nanotoxicity of quantum dots in some cellular types. Protozoan pathogens as Trypanosoma cruzi, etiologic agent of Chagas1 disease is transmitted to humans either by blood-sucking triatomine vectors, blood transfusion, organs transplantation or congenital transmission. The study of the life cycle, biochemical, genetics, morphology and others aspects of the T. cruzi is very important to better understand the interactions with its hosts and the disease evolution on humans. Quantum dot, nanocrystals, highly luminescent has been used as tool for experiments in in vitro and in vivo T. cruzi life cycle development in real time. We are now investigating the quantum dots toxicity on T. cruzi parasite cells using analytical methods. In vitro experiments were been done in order to test the interference of this nanoparticle on parasite development, morphology and viability (live-death). Ours previous results demonstrated that 72 hours after parasite incubation with 200 μM of CdTe altered the development of T. cruzi and induced cell death by necrosis in a rate of 34%. QDs labeling did not effect: (i) on parasite integrity, at least until 7 days; (ii) parasite cell dividing and (iii) parasite motility at a concentration of 2 μM CdTe. This fact confirms the low level of cytotoxicity of these QDs on this parasite cell. In summary our results is showing T. cruzi QDs labeling could be used for in vivo cellular studies in Chagas disease.

Published

2010

74. Confocal microscopy for automatic measurement of the density and distance between elastin fibers of histologic preparations of normotensive and hypertensive patients

Author

Daniela Ferro, Randall L. Adam, G. Vieira, Konradin Metze, A. A. de Thomaz, and C. L. Cesar

Subjects

Pathology, medicine.medical_specialty, Aorta, Materials science, biology, Confocal, law.invention, medicine.anatomical_structure, Confocal microscopy, law, medicine.artery, Microscopy, Fluorescence microscope, medicine, biology.protein, Fiber, Elastin, Elastic fiber

Abstract

Elastic fibers are essential components of the human aorta, and there is an association between elastin fibers remodeling and several diseases. Hypertension is one such example of a disease leading to elastin fibers remodeling. These fibers can be easily seen in eosin-hematoxilin (HE) stained histologic sections when observed by UV-excited fluorescence microscopy or by a much more precise Laser Scanning Confocal Microscope (LSCM). In order to study the effect of the hypertension on the elastin fibers pattern we developed an automatic system (software and hardware) to count the number of elastin fibers and to measure the distance between them in a LSCM and used it compare the statistical distribution of the distance between these fibers in normotensive and hypertensive patients. The full image of the whole sample (2 or 3mm long) was composed by several 220x220μm frames with 512x512 pixels. The software counters fiber and distance between fibers. We compared the elastic fiber texture in routinely HE-stained histologic slides of the aorta ascendens in 24 normotensive and 30 hypertensive adult patients of both sexes and of similar age from our autopsy files. Our results show that the average number of fibers is the same for both cases but the distance between the fibers are larger for hypertensive patients than for normotensive ones.

Published

2010

75. Second harmonic generation in human ovarian neoplasias

Author

Luciana Pietro, Liliana Aparecida Lucci De Angelo Andrade, Fátima Böttcher-Luiz, C. L. Machado, C. L. Cesar, A. A. de Thomaz, and L. Lamonier

Subjects

Pathology, medicine.medical_specialty, medicine.diagnostic_test, Cancer, Ovary, medicine.disease, medicine.disease_cause, Metastasis, Extracellular matrix, medicine.anatomical_structure, Biopsy, medicine, Fiber, Ovarian cancer, Carcinogenesis

Abstract

Metastasis is the main cause of death in cancer patients; it requires a complex process of tumor cell dissemination, extra cellular matrix (ECM) remodeling, cell invasion and tumor-host interactions. Collagen is the major component of ECM; its fiber polymerization or degradation evolves in parallel with the evolution of the cancerous lesions. This study aimed to identify the collagen content, spatial distribution and fiber organization in biopsies of benign and malignant human ovarian tissues. Biopsies were prepared in slides without dyes and were exposed to 800nm Ti:Sapphire laser (Spectra Physics, 100 fs pulse duration, 800mW average power, 80MHz repetition rate). The obtained images were recorded at triplets, corresponding to clear field, multiphoton and second harmonic generation (SHG) mycroscopy. Data showed considerable anisotropy in malignant tissues, with regions of dense collagen arranged as individual fibers or in combination with immature segmental filaments. Radial fiber alignment or regions with minimal signal were observed in the high clinical grade tumors, suggesting degradation of original fibers or altered polymerization state of them. These findings allow us to assume that the collagen signature will be a reliable and a promising marker for diagnosis and prognosis in human ovarian cancers.

Published

2010

76. MMP-2 regulates rat ventral prostate development in vitro

Author

Hernandes F. Carvalho, Rafaela Rosa-Ribeiro, Carlos L. Cesar, Alexandre Bruni-Cardoso, Vinicius D'Ávila Bitencourt Pascoal, and André A. de Thomaz

Subjects

Male, Morphogenesis, Biology, Matrix metalloproteinase, In Vitro Techniques, Organ culture, GM6001, Epithelium, chemistry.chemical_compound, Imaging, Three-Dimensional, Stroma, medicine, Gene silencing, Animals, Gene Silencing, RNA Processing, Post-Transcriptional, RNA, Small Interfering, Rats, Wistar, Cell Proliferation, Reverse Transcriptase Polymerase Chain Reaction, Prostate, Gene Expression Regulation, Developmental, In vitro, Cell biology, Rats, medicine.anatomical_structure, chemistry, Immunology, Matrix Metalloproteinase 2, Collagen, Developmental Biology

Abstract

We have hypothesized that epithelial growth, branching, and canalization in the rodent ventral prostate (VP) would require matrix remodeling, and hence matrix metalloproteinase (MMP) activity. Therefore, the aim of this study was to evaluate the impact of blocking MMP-2, using whole organ culture. siRNA was employed to inhibit MMP-2 expression, and this was compared to GM6001's (a broad-spectrum MMP inhibitor) inhibition of general MMPs. These blocks impaired VP morphogenesis. MMP-2 silencing reduced organ size, epithelial area, and the number of tips, as well as caused a dilation of the distal parts of the epithelium. Histology, 3-D reconstruction, biochemistry, and second harmonic generation (SHG) revealed that MMP-2 silencing affected VP architecture by interfering in epithelial cell proliferation, lumen formation, and cellular organization of both epithelium and stroma, besides intense accumulation of collagen fibers. These data suggest that MMP-2 plays important roles in prostate growth, being directly involved with epithelial morphogenesis. Developmental Dynamics 239:737–746, 2010. © 2010 Wiley-Liss, Inc.

Published

2010

77. Simple GaAs and InP Colloidal Quantum Dots Synthesis Using Laser Ablation

Author

André A. de Thomaz, Diogo B. Almeida, Carlos L. Cesar, and Vitor B. Pelegati

Subjects

endocrine system, congenital, hereditary, and neonatal diseases and abnormalities, Laser ablation, Materials science, business.industry, digestive, oral, and skin physiology, nutritional and metabolic diseases, Physics::Optics, Nanotechnology, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, complex mixtures, Nanomaterials, Gallium arsenide, Condensed Matter::Soft Condensed Matter, Condensed Matter::Materials Science, chemistry.chemical_compound, chemistry, Quantum dot laser, Quantum dot, Optoelectronics, Colloidal quantum dots, business

Abstract

In this work we will present a simple synthesis route for obtaining both GaAs and InP colloidal quantum dots using the same laser ablation assembly.

Published

2010

78. Evidence of chemotaxis by quantitative measurement of the force vectors of Trypanossoma cruzi in the vicinity of the Rhodnius prolixus midgut wall cell

Author

Denise Feder, Jacenir Reis dos Santos-Mallet, Diogo B. Almeida, C. L. Cesar, Suzete Araujo Oliveira Gomes, A. A. de Thomaz, C. V. Stahl, and Adriana Fontes

Subjects

Force transducer, biology, Chemistry, Cell, Chemotaxis, Midgut, biology.organism_classification, medicine.anatomical_structure, Optical tweezers, parasitic diseases, Tweezers, Biophysics, medicine, Trypanosoma cruzi, Rhodnius prolixus

Abstract

In this work we used a methodology to study chemotaxis of Trypanossoma cruzi (T. Cruzi) in real time using an Optical Tweezers system. Trapped beads were used as a force transducer for measuring forces of the same order of magnitude as typical forces induced by flagellar motion. Op tical Tweezers allowed real time measurements of the force vectors, strength and direction, of living parasites under chemical or other kinds of gradients. This seems to be the ideal tool to perform observations of taxis re sponse of cells and microorganisms with high sensitivity to capture instantaneous responses to a given stimulus. We applied this methodology to investigate the T. cruzi under distinct situations: the parasite alone and in the presence of its insect-vector Rhodnius prolixus (R. prolixus) . Keywords : Optical tweezers, chemotaxis, para site-vector interaction, force

Published

2009

79. Optical tweezers force measurements to study parasites chemotaxis

Author

Jacenir Reis dos Santos-Mallet, Diana Copi Ayres, Diogo B. Almeida, C. L. Cesar, Denise Feder, Suzete Araujo Oliveira Gomes, A. A. de Thomaz, Lorena Pozzo, Adriana Fontes, C. V. Stahl, and Selma Giorgio

Subjects

Chagas disease, Cell, Leishmaniasis, Chemotaxis, Biology, medicine.disease, Cell biology, Cell membrane, Multicellular organism, medicine.anatomical_structure, Optical tweezers, Immunology, medicine, Parasite hosting

Abstract

In this work we use a methodology to study chemotaxis of Leishmania amazonensis and Trypanossoma cruzi in real time using an Optical Tweezers sy stem. We obtained qu antitative results of the parasites forces. ©2009 Optical Soci ety of America OCIS: (350.0350) General; (350.4855) Optical tweezers or optical manipulation 1. Introduction In this work, we propose a methodology to study microorganisms chemotaxis in real time using an Optical Tweezers system. Optical Tweezers allowed real time measurements of the force vectors, strength and direction, of living parasites under chemical or other kinds of gradients. This seems to be the ideal tool to perform observations of taxis response of cells and microorganisms with high sensitiv ity to capture instantaneous responses to a given stimulus. Forces involved in the movement of unicellular parasites are very small, in the femto-pico-Newton range, about the same order of magnitude of the forces generated in an Optical Tweezers. We applied this methodology to investigate the Leishmania amazonensis (L. amazonensis ) and Trypanossoma cruzi (T. cruzi ) under distinct situations. One of the fundamental goals in paras itology is the fully understanding of para site-host cell interactions. This is still more important when it comes to non-curable diseases, like Chagas disease caused by T. cruzi and leishmaniasis caused by L. amazonensis. Chagas disease is present in 18 countries of the American continent with prevalence of 16 million cases, with 4.8–5.4 million people exhibiting clinical symptoms, an annual incidence of 700,000-800,000 new cases, and 45,000 deaths due to the cardiac form of the diseas e. At present, estimates indi cate an infection prevalence of 13 million, with 3.0–3.3 million symptomatic cases and an an nual incidence of 200,000 cases in 15 countries [1]. The L. amazonensis is responsible for another serious tropical disease that affects about 30 million people in Africa, Mid Orient and Central and South America [2]. Chemotaxis is a process where cells and microorganisms direct their movements acco rding to certain chemicals in their environment. This is important for the microorganisms, such bacterias, to find food (for example, glucose) by swimming towards the highest concentration of food molecules, or to flee from poisons (for example, phenol). In multicellular organisms, chemotaxis is critical to early (e.g . movement of sperm towards the egg during fertilization) and subsequent phases of development (e.g. migration of neurons or lymphocytes) as well as in normal function. In addition, it has been recognized that mechanisms th at allow chemotaxis in animals can be su bverted during cancer metastasis. Cell signalization is responsible for the chem otatic activity and many chemical recep tor present mostly on cell membrane are involved in this kind of taxis. In order to clarify the whole infection process it is necessa ry to understand how the parasite can detect the cells. One of fundamental steps of the T. cruzi infection on invertebrate host occurs on midgut of R. prolixus , its invertebrate host. There the parasites binds to the membrane of the mi dgut cells (perimicrovillar membrane) and epimastigote forms of T. cruzi suffer intense multiplication. Studies show that the rupture of perimicrovillar membrane interrupts the multiplication and the development of the parasite in infective forms on the invertebrate host. In the parasite and the perimicrovillar membrane interaction occurs attachment between molecules from both. Quantitative measurements of the parasite chemotaxis in presence of R. prolixus perimicrovillar membrane can elucidate some points of this interaction. For a better understanding of chemotaxis it is necessary to know not only the sense and

Published

2009

80. Confocal Microscopy for automatic texture analysis of elastic fibers in histologic preparations

Author

R. L. Adam, G. Vieira, D. P. Ferro, A. A. de Thomaz, C, L. Cesar, and K. Metze

Subjects

Pathology, medicine.medical_specialty, Materials science, biology, Cartilage, Adhesion (medicine), Degeneration (medical), medicine.disease, law.invention, Elastic recoil, medicine.anatomical_structure, Confocal microscopy, law, medicine, biology.protein, Biophysics, Process (anatomy), Elastin, Elastic fiber

Abstract

Elastic fibers are an important component of many organs and tissues, such as skin, lungs, arteries, ligaments, intervertebral discs and cartilage Their function is to endow tissues with elastic recoil and resilience, to act as an important adhesion template for cells, and to regulate growth factor availability (1,2). Loss or remodeling of the elastic fiber texture occurs in many diseases. Degeneration and fragmentation of elastic fibers and aging are intimately related (3). Recently, the importance of elastin for the study of malignant tumor progression has been emphasized (4,5). Elastic tissue may be a significant reservoir of angiostatic molecules and soluble elastin as well as elastin peptides, that are inhibitors of the metastatic process in experimental tumor models (4). Elastic fibers are involved in the anatomic remodeling of chronic pulmonary diseases (6) and, especially, of diseases of the arterial wall (7, 8). The study of these phenomena is important for the understanding of the pathophysiologic basis of the diseases. Recently the role of elastic fibers in small diameter vascular graft design has been emphasized (2). The possibility to regenerate or engineer elastic fibres and tissues creates an important challenge, not only to understand the molecular basis of elastic-fibre biology (1,2), but also of its spatial arrangement and remodeling in the diseased tissues. Subtle changes of the complex elastic fiber network may be involved in the pathogenesis of diseases. Therefore a precise and objective histopathologic description is necessary.

Published

2009

81. Studying taxis in real time using optical tweezers: applications for Leishmania amazonensis parasites

Author

A. A. de Thomaz, Lorena Pozzo, Diana Copi Ayres, Beate S. Santos, Selma Giorgio, Adriana Fontes, Carlos L. Cesar, and Patricia M. A. Farias

Subjects

Leishmania amazonensis, Force transducer, Microscopy, Video, Chemotactic Factors, Optical Tweezers, Chemotaxis, Leishmania mexicana, Taxis, General Physics and Astronomy, Nanotechnology, Cell Biology, Biology, biology.organism_classification, Temperature and pressure, Glucose, Optical tweezers, Structural Biology, Biophysics, Animals, General Materials Science, Concentration gradient, Locomotion

Abstract

Beads trapped by an optical tweezers can be used as a force transducer for measuring forces of the same order of magnitude as typical forces induced by flagellar motion. We used an optical tweezers to study chemotaxis by observing the force response of a flagellated microorganism when placed in a gradient of attractive chemical substances. This report shows such observations for Leishmania amazonensis, responsible for leishmaniasis, a serious disease. We quantified the movement of this protozoan for different gradients of glucose. We were able to observe both the strength and the directionality of the force. The characterization of the chemotaxis of these parasites can help to understand the mechanics of infection and improve the treatments employed for this disease. This methodology can be used to quantitatively study the taxis of any kind of flagellated microorganisms under concentration gradients of different chemical substances, or even other types of variable gradients such as temperature and pressure.

Published

2008

82. Simple silanization routes of CdSe and CdTe nanocrystals for biological applications

Author

Oswaldo Luiz Alves, Luiz C. Barbosa, Beate S. Santos, Italo Odone Mazali, Denise Feder, Wagner M. Faustino, Adriana Fontes, André A. de Thomaz, Carlos L. Cesar, Suzete Araujo Oliveira Gomes, Patricia M. A. Farias, Diogo B. Almeida, and Gilberto Junior Jacob

Subjects

Materials science, business.industry, Nanophotonics, Nanotechnology, Cadmium telluride photovoltaics, chemistry.chemical_compound, Semiconductor, Nanocrystal, chemistry, Quantum dot, Silanization, Molecule, business, Bifunctional

Abstract

Semiconductor colloidal quantum dots have been, for the past two decades, incorporated in a wide range of applications from catalysis and optical sensors to biolabels. For this reason, simple, cheap and reproducible routes of synthesis are the main goal of many research groups around the world. They seek the production of a very stable and extremely quantum efficient nanocrystal that can afford rough changes in the external environment. Silica capping is becoming a very common tool in the quest for a stable quantum dot, because of its strong and stable structure, this material provides a great insulator to the nanocrystal from the outside. The nanocrystal surface is not chemically favorable to the deposition of the bare silica shell, what demands a bifunctional molecule that provides the linkage between the core and the shell. In this work we present a comparison between several silanization methods of thiol capped CdSe and CdTe quantum dots, showing some simplifications of the routes and an application of the quantum dots produced as fluorescent cell markers in acquisition of confocal microscopy images.

Published

2008

83. Study of optically trapped living Trypanosoma cruzi / Trypanosoma rangeli - Rhodnius prolixus interactions by real time confocal images using CdSe quantum dots

Author

Suzete Araujo Oliveira Gomes, A. A. de Thomaz, Diogo B. Almeida, Lcgs Barbosa, C. L. Cesar, Adriana Fontes, C. V. Stahl, Denise Feder, Wagner M. Faustino, Jacenir Reis dos Santos-Mallet, and Gilberto Junior Jacob

Subjects

Trypanosoma rangeli, biology, business.industry, Confocal, biology.organism_classification, Photobleaching, law.invention, Optics, Optical tweezers, Confocal microscopy, law, Microscopy, Fluorescence microscope, Biophysics, Rhodnius prolixus, business

Abstract

One of the fundamental goals in biology is to understand the interplay between biomolecules of different cells. This happen, for example, in the first moments of the infection of a vector by a parasite that results in the adherence to the cell walls. To observe this kind of event we used an integrated Optical Tweezers and Confocal Microscopy tool. This tool allow us to use the Optical Tweezers to trigger the adhesion of the Trypanosoma cruzi and Trypanosoma rangeli parasite to the intestine wall cells and salivary gland of the Rhodnius prolixus vector and to, subsequently observe the sequence of events by confocal fluorescence microscopy under optical forces stresses. We kept the microorganism and vector cells alive using CdSe quantum dot staining. Besides the fact that Quantum Dots are bright vital fluorescent markers, the absence of photobleaching allow us to follow the events in time for an extended period. By zooming to the region of interested we have been able to acquire confocal images at the 2 to 3 frames per second rate.

Published

2008

84. Measuring electrical and mechanical properties of red blood cells with double optical tweezers

Author

Carlos L. Cesar, André A. de Thomaz, Maria Lourdes Barjas-Castro, Luiz C. Barbosa, Adriana Fontes, and Heloise P. Fernandes

Subjects

Materials science, Optical Tweezers, Biomedical Engineering, Nanotechnology, Cell Separation, Membrane Potentials, Biomaterials, Viscosity, Agglutination Tests, medicine, Zeta potential, Humans, Cells, Cultured, Double layer (biology), Focal Adhesions, Erythrocyte Membrane, Adhesiveness, Adhesion, Equipment Design, Atomic and Molecular Physics, and Optics, Elasticity, Electronic, Optical and Magnetic Materials, Equipment Failure Analysis, Red blood cell, Agglutination (biology), medicine.anatomical_structure, Membrane, Optical tweezers, Biophysics, Stress, Mechanical

Abstract

Red blood cell (RBC) aggregation in the blood stream is prevented by the zeta potential created by its negatively charged membrane. There are techniques, however, to decrease the zeta potential and allow cell agglutination, which are the basis of most of antigen-antibody tests used in immunohematology. We propose the use of optical tweezers to measure membrane viscosity, adhesion, zeta potential, and the double layer thickness of charges (DLT) formed around the cell in an electrolytic solution. For the membrane viscosity experiment, we trap a bead attached to RBCs and measure the force to slide one RBC over the other as a function of the velocity. Adhesion is quantified by displacing two RBCs apart until disagglutination. The DLT is measured using the force on the bead attached to a single RBC in response to an applied voltage. The zeta potential is obtained by measuring the terminal velocity after releasing the RBC from the trap at the last applied voltage. We believe that the methodology proposed here can provide information about agglutination, help to improve the tests usually performed in transfusion services, and be applied for zeta potential measurements in other samples.

Published

2008

85. Fluorescent II-VI semiconductor quantum dots in living cells: nonlinear microspectroscopy in an optical tweezers system

Author

Adriana Fontes, Frederico Duarte de Menezes, Patricia M. A. Farias, Carlos L. Cesar, Beate S. Santos, André A. de Thomaz, and Ricardo B. Ferreira

Subjects

Silicon, Optical Tweezers, Nanotechnology, Sulfides, Spectrum Analysis, Raman, Condensed Matter::Materials Science, Mice, Two-photon excitation microscopy, Quantum Dots, Materials Chemistry, Cadmium Compounds, Animals, Emission spectrum, Physical and Theoretical Chemistry, Spectroscopy, Selenium Compounds, Titanium, Mice, Inbred BALB C, Microscopy, Confocal, Chemistry, technology, industry, and agriculture, equipment and supplies, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Fluorescence, Surfaces, Coatings and Films, Spectrometry, Fluorescence, Optical tweezers, Quantum dot, Zinc Compounds, Excited state, Microspectrophotometry, Macrophages, Peritoneal, Tellurium, Luminescence

Abstract

In this work we used a setup consisting of an optical tweezers combined with a nonlinear microspectroscopy system to perform scanning microscopy and obtain emission spectra using two photon excited (TPE) luminescence of captured single living cells labeled with core-shell fluorescent semiconductor quantum dots (QDs). The QDs were obtained via colloidal synthesis in aqueous medium with an adequate physiological resulting pH. Sodium polyphosphate was used as the stabilizing agent. The results obtained show the potential presented by this system as well as by these II-VI fluorescent semiconductor quantum dots to perform spectroscopy in living trapped cells in any neighborhood and dynamically observe the cell chemical reactions in real time.

Published

2008

86. Studying red blood cell agglutination by measuring membrane viscosity with optical tweezers

Author

Heloise P. Fernandes, Maria Lourdes Barjas-Castro, Adriana Fontes, Carlos L. Cesar, Luiz C. Barbosa, and André A. de Thomaz

Subjects

Rouleaux, Agglutination (biology), Viscosity, Red blood cell, Membrane, medicine.anatomical_structure, Hemagglutination, Optical tweezers, Biochemistry, Chemistry, Biophysics, medicine, Lipid bilayer

Abstract

The red blood cell (RBC) viscoelastic membrane contains proteins and glycoproteins embedded in a fluid lipid bilayer that are responsible for cell agglutination. Manipulating RBCs rouleaux with a double optical tweezers, we observed that the cells slide easily one over the others but are strongly connected by their edges. An explanation for this behavior could be the fact that when the cells slide one over the others, proteins are dragged through the membrane. It confers to the movement a viscous characteristic that is dependent of the velocity between the RBCs and justifies why is so easy to slide them apart. Therefore, in a first step of this work, by measuring the force as a function of the relative velocity between two cells, we confirmed this assumption and used this viscous characteristic of the RBC rouleaux to determine the apparent membrane viscosity of the cell. As this behavior is related to the proteins interactions, we can use the apparent membrane viscosity to obtain a better understanding about cell agglutination. Methods related to cell agglutination induced by antigen-antibody interactions are the basis of most of tests used in transfusion centers. Then, in a second step of this work, we measured the apparent membrane viscosity using antibodies. We observed that this methodology is sensitive to different kinds of bindings between RBCs. Better comprehension of the forces and bindings between RBCs could improve the sensibility and specificity of the hemagglutination reactions and also guides the development of new potentiator substances.

Published

2007

87. Optical tweezers and multiphoton microscopies integrated photonic tool for mechanical and biochemical cell processes studies

Author

Heloise P. Fernandes, Maria Lourdes Barjas-Castro, Wagner M. Faustino, A. A. de Thomaz, Selma Giorgio, C. L. Cesar, Adriana Fontes, L. C. Barbosa, and Konradin Metze

Subjects

Photon, business.industry, Chemistry, Confocal, food and beverages, Second-harmonic generation, Nonlinear optics, Nanotechnology, law.invention, Optical tweezers, Confocal microscopy, law, Microscopy, Photonics, business

Abstract

The research in biomedical photonics is clearly evolving in the direction of the understanding of biological processes at the cell level. The spatial resolution to accomplish this task practically requires photonics tools. However, an integration of different photonic tools and a multimodal and functional approach will be necessary to access the mechanical and biochemical cell processes. This way we can observe mechanicaly triggered biochemical events or biochemicaly triggered mechanical events, or even observe simultaneously mechanical and biochemical events triggered by other means, e.g. electricaly. One great advantage of the photonic tools is its easiness for integration. Therefore, we developed such integrated tool by incorporating single and double Optical Tweezers with Confocal Single and Multiphoton Microscopies. This system can perform 2-photon excited fluorescence and Second Harmonic Generation microscopies together with optical manipulations. It also can acquire Fluorescence and SHG spectra of specific spots. Force, elasticity and viscosity measurements of stretched membranes can be followed by real time confocal microscopies. Also opticaly trapped living protozoas, such as leishmania amazonensis. Integration with CARS microscopy is under way. We will show several examples of the use of such integrated instrument and its potential to observe mechanical and biochemical processes at cell level.

Published

2007

88. Studying red blood cell agglutination by measuring electrical and mechanical properties with a double optical tweezers

Author

Maria Lourdes Barjas-Castro, Carlos L. Cesar, André A. de Thomaz, Luiz C. Barbosa, Heloise P. Fernandes, and Adriana Fontes

Subjects

Double layer (biology), Agglutination (biology), Red blood cell, Membrane, medicine.anatomical_structure, Optical tweezers, Chemistry, Zeta potential, Analytical chemistry, Biophysics, medicine, Adhesion, Lipid bilayer

Abstract

The red blood cell (RBC) viscoelastic membrane contains proteins and glycolproteins embedded in, or attached, to a fluid lipid bilayer and are negatively charged, which creates a repulsive electric (zeta) potential between the cells and prevents their aggregation in the blood stream. The basis of the immunohematologic tests is the interaction between antigens and antibodies that causes hemagglutination. The identification of antibodies and antigens is of fundamental importance for the transfusional routine. This agglutination is induced by decreasing the zeta-potential through the introduction of artificial potential substances. This report proposes the use of the optical tweezers to measure the membrane viscosity, the cell adhesion, the zeta-potential and the size of the double layer of charges (CLC) formed around the cell in an electrolytic solution. The adhesion was quantified by slowly displacing two RBCs apart until the disagglutination. The CLC was measured using the force on the bead attached to a single RBC in response to an applied voltage. The zeta-potential was obtained by measuring the terminal velocity after releasing the RBC from the optical trap at the last applied voltage. For the membrane viscosity experiment, we trapped a bead attached to RBCs and measured the force to slide one RBC over the other as a function of the relative velocity. After we tested the methodology, we performed measurements using antibody and potential substances. We observed that this experiment can provide information about cell agglutination that helps to improve the tests usually performed in blood banks. We also believe that this methodology can be applied for measurements of zeta-potentials in other kind of samples.

Published

2007

89. Integrates biophotonic tool for manipulations and confocal microscopies

Author

Andre Alexandre de Thomaz, César, Carlos Lenz, 1955, Pozzo, Lorena, Metze, Konradin, Universidade Estadual de Campinas. Instituto de Física Gleb Wataghin, Programa de Pós-Graduação em Física, and UNIVERSIDADE ESTADUAL DE CAMPINAS

Subjects

Microscopia confocal multifóton, Confocal microscopy, Pinças óticas, Optical images, Multiphoton confocal microscopy, Second harmonic generation microscopy, Microscopia de geração de segundo harmônico, Optical tweezers, Microscopia confocal, Imagens óticas

Abstract

Orientador: Carlos Lenz Cesar Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Fisica Gleb Wataghin Resumo: A pesquisa em fotônica biomedica está claramente tomando a direção do entendimento de processos biológicos a nível celular. A resolução necessária para atingir esse objetivo requer praticamente ferramentas fotônicas. Contudo, uma integração de diferentes ferramentes fotônicas e uma aproximação funcional serão necessárias para acessar os processos biomecânicos e bioquímicos celulares. Deste modo nós podemos observar eventos bioquímicos disparados mecanicamente ou eventos mecânicos disparados bioquimicamente, ou até mesmo observar simultâneamente eventos biomecânicos e bioquímicos disparados por outros meios, entre outros, eletricamente. Uma das grandes vantagens das ferramentas fotônicas é a sua facilidade de integração. Nós desenvolvemos uma ferramenta integrada incorporando pinça óptica simples com Microscopia Confocal "Single-photon" e Multifóton. O sistema consegue realizar microscopias de fluorescência excitada pela absorção de dois fótons e geração de segundo harmônico em conjunto com manipulações ópticas. Medidas de força, elasticidade e viscosidade de membranes esticadas podem ser monitoradas em tempo real pelas microscopias confocais, bem como protozoários capturados opticamente, como, por exemplo, Trypanosoma cruzi. Nós mostraremos vários exemplos do uso de tal ferramenta integrada e seu potencial para observar processos mecânicos e bioquímicos a nível celular Abstract: The research in biomedical photonics is clearly evolving in the direction of the understanding of biological processes at the cell level. The spatial resolution to accomplish this task practically requires photonics tools. However, an integration of different photonic tools and a multimodal and functional approach will be necessary to access the mechanical and biochemical cell processes. This way we can observe mechanicaly triggered biochemical events or biochemicaly triggered mechanical events, or even observe simultaneously mechanical and biochemical events triggered by other means, e.g. electricaly. One great advantage of the photonic tools is its easiness for integration. Therefore, we developed such integrated tool by incorporating single Optical Tweezers with Confocal Single and Multiphoton Microscopies. This system can perform 2-photon excited fluorescence and Second Harmonic Generation microscopies together with optical manipulations. Force, elasticity and viscosity measurements of stretched membranes can be followed by real time confocal microscopies. Also opticaly trapped living protozoas, such as Trypanosoma cruzi. Integration with CARS microscopy is under way. We will show several examples of the use of such integrated instrument and its potential to observe mechanical and biochemical processes at cell level Mestrado Física Mestre em Física

Published

2007

90. Chemotaxis study using optical tweezers to observe the strength and directionality of forces of Leishmania amazonensis

Author

Diana Copi Ayres, Carlos L. Cesar, Adriana Fontes, Luiz C. Barbosa, André A. de Thomaz, Liliana de Ysasa Pozzo, and Selma Giorgio

Subjects

Physics, Leishmania amazonensis, Medical diagnostic, Force transducer, biology, business.industry, fungi, Chemotaxis, biology.organism_classification, Microsphere, Optics, Transducer, Optical tweezers, Directionality, business

Abstract

The displacements of a dielectric microspheres trapped by an optical tweezers (OT) can be used as a force transducer for mechanical measurements in life sciences. This system can measure forces on the 50 femto Newtons to 200 pico Newtons range, of the same order of magnitude of a typical forces induced by flagellar motion. The process in which living microorganisms search for food and run away from poison chemicals is known is chemotaxy. Optical tweezers can be used to obtain a better understanding of chemotaxy by observing the force response of the microorganism when placed in a gradient of attractors and or repelling chemicals. This report shows such observations for the protozoa Leishmania amazomenzis, responsible for the leishmaniasis, a serious tropical disease. We used a quadrant detector to monitor the movement of the protozoa for different chemicals gradient. This way we have been able to observe both the force strength and its directionality. The characterization of the chemotaxis of these parasites can help to understand the infection mechanics and improve the diagnosis and the treatments employed for this disease.

Published

2006

91. Measuring electrical and mechanical properties of red blood cells with a double optical tweezers

Author

Adriana Fontes, Luiz C. Barbosa, Carlos L. Cesar, Liliana de Ysasa Pozzo, André A. de Thomaz, Maria Lourdes Barjas-Castro, and Heloise P. Fernandes

Subjects

Red blood cell, Viscosity, Membrane, Materials science, medicine.anatomical_structure, Optical tweezers, Zeta potential, Biophysics, medicine, Nanotechnology, Electrolyte, Adhesion, Lipid bilayer

Abstract

The fluid lipid bilayer viscoelastic membrane of red blood cells (RBC) contains antigen glycolproteins and proteins which can interact with antibodies to cause cell agglutination. This is the basis of most of the immunohematologic tests in blood banks and the identification of the antibodies against the erythrocyte antigens is of fundamental importance for transfusional routines. The negative charges of the RBCs creates a repulsive electric (zeta) potential between the cells and prevents their aggregation in the blood stream. The first counterions cloud strongly binded moving together with the RBC is called the compact layer. This report proposes the use of a double optical tweezers for a new procedure for measuring: (1) the apparent membrane viscosity, (2) the cell adhesion, (3) the zeta potential and (4) the compact layer's size of the charges formed around the cell in the electrolytic solution. To measure the membrane viscosity we trapped silica beads strongly attached to agglutinated RBCs and measured the force to slide one RBC over the other as a function of the relative velocity. The RBC adhesion was measured by slowly displacing two RBCs apart until the disagglutination happens. The compact layer's size was measured using the force on the silica bead attached to a single RBC in response to an applied voltage and the zeta potential was obtained by measuring the terminal velocity after releasing the RBC from the optical trap at the last applied voltage. We believe that the methodology here proposed can improve the methods of diagnosis in blood banks.

Published

2006

92. Double optical tweezers for 3D photonic force measurements of Mie scatterers

Author

Diogo B. Almeida, Adriana Fontes, Wendel L. Moreira, Luiz C. Barbosa, A. A. R. Neves, André A. de Thomaz, and Carlos L. Cesar

Subjects

Physics, Mechanical equilibrium, business.industry, Optical force, Physics::Optics, Polarization (waves), law.invention, Transverse mode, Wavelength, Optics, Transducer, Optical tweezers, law, Photonics, business

Abstract

The ability to observe quantitatively mechanical events in real time of biological phenomena is an important contribution of the Optical Tweezers technique for life sciences. The measurements of any mechanical property involves force measurements, usually performed using a microsphere as the force transducer. This makes the understanding of the photonic force theory critical. Only very sensitive and precise experimental 3D photonic force measurements for any particle size will be able to discriminate between different theoretical models. In particular it is important to obtain the whole photonic force curve as a function of the beam position instead of isolate particular points. We used a dual trap in an upright standard optical microscope, one to keep the particle at the equilibrium position and the other to disturb it. With this system we have been able to obtain these force curves as a function of x, y and z position, incident beam polarization and wavelength. We investigated the optical forces for wavelengths in and out of Mie resonances of dielectric microspherical cavities for both TM and TE modes and compared the experimental results with the calculations performed with different models for the optical force.

Published

2006

93. Exact partial wave expansion of optical beams with respect to arbitrary origin

Author

Diogo B. Almeida, Adriana Fontes, André A. de Thomaz, Wendel L. Moreira, Carlos L. Cesar, Luiz C. Barbosa, and A. A. R. Neves

Subjects

Physics, Diffraction, Classical mechanics, Scattering, Paraxial approximation, Mathematical analysis, Solid angle, Physics::Accelerator Physics, M squared, Boundary value problem, Beam (structure), Gaussian beam

Abstract

Partial wave decomposition of incident beams is the first task to be performed to impose boundary conditions at the particle interface in the calculation of the scattering of spherical particles. The coordinate's origin must be in the center of the particle and not at high symmetry positions of the beam. This can be a quite complicated problem, especially when a full vectorial diffraction description of the electromagnetic fields and highly focused laser beams are required where the paraxial limit fails. Traditional approximation techniques have been used to proceed forward and to obtain numerical results. The main fault relies on a radial dependence of the beam shape coefficients, which limits the validity of such approximations. Here we prove that the radial dependence will emerge from the solid angle integration in this way obtaining an exact, closed expression, without any approximation, for the beam shape coefficients, for an arbitrary beam shape, origin and polarization, the special case of a Gaussian beam is presented.

Published

2006

94. Red blood cell membrane viscoelasticity, agglutination and zeta potential measurements with double optical tweezers

Author

Heloise P. Fernandes, André A. de Thomaz, Luiz C. Barbosa, Maria Lourdes Barjas-Castro, Adriana Fontes, Carlos L. Cesar, and Liliana de Ysasa Pozzo

Subjects

Rouleaux, Materials science, business.industry, Optical force, hemic and immune systems, Red blood cell, medicine.anatomical_structure, Membrane, Optics, Optical tweezers, Tweezers, Zeta potential, medicine, Biophysics, business, Lipid bilayer, circulatory and respiratory physiology

Abstract

The red blood cell (RBC) viscoelastic membrane contains proteins and glycolproteins embedded in, or attached, to a fluid lipid bilayer and are negatively charged, which creates a repulsive electric (zeta) potential between the cells and prevents their aggregation in the blood stream. There are techniques, however, to decrease the zeta potential to allow cell agglutination which are the basis of most of the tests of antigen-antibody interactions in blood banks. This report shows the use of a double optical tweezers to measure RBC membrane viscosity, agglutination and zeta potential. In our technique one of the optical tweezers trap a silica bead that binds strongly to a RBC at the end of a RBCs rouleaux and, at the same time, acts as a pico-Newton force transducer, after calibration through its displacement from the equilibrium position. The other optical tweezers trap the RBC at the other end. To measure the membrane viscosity the optical force is measured as a function of the velocity between the RBCs. To measure the adhesion the tweezers are slowly displaced apart until the RBCs disagglutination happens. The RBC zeta potential is measured in two complimentary ways, by the force on the silica bead attached to a single RBC in response to an applied electric field, and the conventional way, by the measurement of terminal velocity of the RBC after released from the optical trap. These two measurements provide information about the RBC charges and, also, electrolytic solution properties. We believe this can improve the methods of diagnosis in blood banks.

Published

2006

95. Optical tweezers 3D photonic force spectroscopy

Author

Diogo B. Almeida, Luiz C. Barbosa, Carlos L. Cesar, Adriana Fontes, Wendel L. Moreira, André A. de Thomaz, and Antônio Augusto Neves

Subjects

Electromagnetic field, Physics, Mechanical equilibrium, business.industry, Force spectroscopy, Physics::Optics, Polarization (waves), Transverse mode, law.invention, Wavelength, Optics, Optical tweezers, law, Photonics, business

Abstract

Since optical tweezers trapped microspheres can be used as an ultrasensitive force measurements technique, the knowledge of its theoretical description is of utmost importance. However, even the description of the incident electromagnetic fields under very tight focusing, typical of the optical trap, is not yet a closed problem. Therefore it is important to experimentally obtain whole accurate curves of the force as a function of wavelength, polarization and incident beam 3D position with respect to the center of the microsphere. Theoretical models for optical forces such as the Generalized Lorenz-Mie theory, can then be applied to the precisely evaluated experimental results. Using a dual trap in an upright standard optical microscope, one to keep the particle at the equilibrium position and the other to disturb it we have been able to obtain these force curves as a function of x, y and z position, incident beam polarization and also wavelength. Further investigation of optical forces was conducted for wavelengths in and out Mie resonances of the dielectric microspherical cavities for both TM and TE modes.

Published

2006

96. Observation of mie resonances for a single microsphere using force spectroscopy and two photon excited luminescence in an optical tweezers system

Author

W.L. Moreira, A. Fontes, Katsuhiro Ajito, A. M. de Paula, L.C. Barbosa, A. A. de Thomaz, Antônio Augusto Neves, and C. L. Cesar

Subjects

Photoluminescence, Materials science, business.industry, Mie scattering, Force spectroscopy, Optical polarization, Laser, Two-photon absorption, law.invention, Optical tweezers, law, Optoelectronics, Atomic physics, business, Luminescence

Abstract

The paper demonstrates optical tweezer's potential by showing more than eight Mie resonance peaks of a single 9 /spl mu/m polystyrene microspheres, and showed the capability to selective couple the light to either the TE, TM or both microsphere modes depending of the beam size, the light polarization and the beam positioning. The spectrum obtained from the luminescence excited by two photon absorption (TPE - luminescence) using the optical tweezers to hold a 6 /spl mu/m bead suspended and a femtosecond Ti:sapphire laser for two photon excitation.

Published

2006

97. Electromagnetic forces for an arbitrary optical trapping of a spherical dielectric

Author

André A. de Thomaz, Luiz C. Barbosa, Carlos L. Cesar, Antônio Augusto Neves, Adriana Fontes, Enver Chillce, E. Rodriguez, and Liliana de Ysasa Pozzo

Subjects

Electromagnetic field, Diffraction, Physics, business.industry, Scattering, Optical force, Force spectroscopy, FOS: Physical sciences, Dielectric, Atomic and Molecular Physics, and Optics, Optics, Optical tweezers, business, Beam (structure), Physics - Optics, Optics (physics.optics)

Abstract

Analytical solution for optical trapping force on a spherical dielectric particle for an arbitrary positioned focused beam is presented in a generalized Lorenz-Mie and vectorial diffraction theory. In this case the exact electromagnetic field is considered in the focal region. A double tweezers setup was employed to perform ultra sensitive force spectroscopy and observe the forces, demonstrating the selectively couple of the transverse electric (TE), transverse magnetic (TM) modes by means of the beam polarization and positioning, and to observe correspondent morphology-dependent resonances (MDR) as a change in the optical force. The theoretical prediction of the theory agrees well with the experimental results. The algorithm presented here can be easily extended to other beam geometries and scattering particles., Comment: 6 pages, 3 figures

Published

2006

98. Mechanical properties of stored red blood cells using optical tweezers

Author

Carlos L. Cesar, Adriana Fontes, Maria Lourdes Barjas-Castro, Sara T.O. Saad, Marcelo Moll Brandão, Luiz C. Barbosa, André A. de Thomaz, and Liliana de Ysasa Pozzo

Subjects

business.industry, Chemistry, Blood flow, medicine.disease, Sickle cell anemia, Microcirculation, Red blood cell, medicine.anatomical_structure, Optics, Optical tweezers, medicine, Irradiation, Elasticity (economics), business, Biomedical engineering, Gamma irradiation

Abstract

We have developed a method for measuring the red blood cell (RBC) membrane overall elasticity μ by measuring the deformation of the cells when dragged at a constant velocity through a plasma fluid by an optical tweezers. The deformability of erythrocytes is a critical determinant of blood flow in the microcirculation. We tested our method and hydrodynamic models, which included the presence of two walls, by measuring the RBC deformation as a function of drag velocity and of the distance to the walls. The capability and sensitivity of this method can be evaluated by its application to a variety of studies, such as, the measurement of RBC elasticity of sickle cell anemia patients comparing homozygous (HbSS), including patients taking hydroxyrea (HU) and heterozygous (HbAS) with normal donors and the RBC elasticity measurement of gamma irradiated stored blood for transfusion to immunosupressed patients as a function of time and dose. These studies show that the technique has the sensitivity to discriminate heterozygous and homozygous sickle cell anemia patients from normal donors and even follow the course of HU treatment of Homozygous patients. The gamma irradiation studies show that there is no significant change in RBC elasticity over time for up to 14 days of storage, regardless of whether the unit was irradiated or not, but there was a huge change in the measured elasticity for the RBC units stored for more than 21 days after irradiation. These finds are important for the assessment of stored irradiated RBC viability for transfusion purposes because the present protocol consider 28 storage days after irradiation as the limit for the RBC usage.

Published

2005

99. Determination of fluid viscosity and femto Newton forces of Leishmania amazonensis using optical tweezers

Author

Carlos L. Cesar, Archimedes B. de Castro, Luiz C. Barbosa, Adriana Fontes, André A. de Thomaz, Liliana de Ysasa Pozzo, Vivaldo Moura Neto, and Selma Giorgio

Subjects

Physics, business.industry, Optical force, Physics::Optics, Mechanics, Laser, law.invention, Viscosity, Integrating sphere, Optics, Optical tweezers, law, Drag, Laser power scaling, business, Displacement (fluid)

Abstract

The displacements of a polystyrene microsphere trapped by an optical tweezers (OT) can be used as a force transducer for mechanical measurements in life sciences such as the measurement of forces of living microorganisms or the viscosity of local fluids. The technique we used allowed us to measure forces on the 200 femto Newtons to 4 pico Newtons range of the protozoa Leishmania amazonensis, responsible for a serious tropical disease. These observations can be used to understand the infection mechanism and chemotaxis of these parasites. The same technique was used to measure viscosities of few microliters sample with agreement with known samples better than 5%. To calibrate the force as a function of the microsphere displacement we first dragged the microsphere in a fluid at known velocity for a broad range of different optical and hydrodynamical parameters. The hydrodynamical model took into account the presence of two walls and the force depends on drag velocity, fluid viscosity and walls proximities, while the optical model in the geometric optics regime depends on the particle and fluid refractive indexes and laser power. To measure the high numerical (NA) aperture laser beam power after the objective we used an integration sphere to avoid the systematic errors of usual power meters for high NA beams. After this careful laser power measurement we obtained an almost 45 degrees straight line for the plot of the optical force (calculated by the particle horizontal displacement) versus hydrodynamic force (calculated by the drag velocity) under variation of all the parameters described below. This means that hydrodynamic models can be used to calibrate optical forces, as we have done for the parasite force measurement, or vice-versa, as we did for the viscosity measurements.

Published

2005

100. Microspectroscopy and scanning microscopy in an optical tweezers system

Author

Beate S. Santos, Carlos L. Cesar, Luis Carlos Barbosa, André A. de Thomaz, Ana M. de Paula, Patricia M. A. Farias, Ricardo de C. Ferreira, A. A. R. Neves, Katsuhiro Ajito, Wendel L. Moreira, and Adriana Fontes

Subjects

Materials science, business.industry, Physics::Optics, Laser, law.invention, symbols.namesake, Optics, Optical tweezers, Two-photon excitation microscopy, law, Microscopy, Femtosecond, symbols, Physics::Atomic Physics, business, Raman spectroscopy, Luminescence, Monochromator

Abstract

In this work we developed a setup consisting of an Optical Tweezers equipped with linear and non-linear micro-spectroscopy system to add the capabilities of manipulation and analysing captured objects. Our setup includes a homemade confocal spectrometer using a monochromator equipped with a liquid nitrogen cooled CCD. The spectroscopic laser system included a cw and a femtosecond Ti:sapphire lasers that allowed us to perform Raman, hyper-Raman, hyper-Rayleigh and two photon Excited (TPE) luminescence in particles trapped with an Nd:YAG cw laser. We obtained Raman spectra of a single trapped polystyrene microsphere and a single trapped red blood cell to evaluate the performance of our system. We also observed hyper-Rayleigh and hyper-Raman peaks for SrTiO3 with 60s integration time only. This was possible because the repetition rate of the femtosecond Ti:sapphire lasers, on the order of 80 MHz, are much higher than the few kHz typical picosecond laser repetition rate used before in hyper- Raman experiment, which required acquisition times of order of few hours. We used this system to perform scanning microscopy and to acquire TPE luminescence spectra of captured single stained microsphere and cells conjugated with quantum dots of CdS and CdTe and hyper-Rayleigh spectra of a noncaptured ZnSe microparticle. The results obtained show the potential presented by this system and fluorescent labels to perform spectroscopy in a living trapped microorganism in any neighbourhood and dynamically observe the chemical reactions changes in real time.

Published

2005