Your search keyword '"Fiod Costa, Elaine"' showing total 11 results

1. Evaluation of biophysical alterations in the epithelial and endothelial layer of patients with Bullous Keratopathy

Author

Dias Rates, Erick Rafael, Almeida, Charles Duarte, de Paula Fiod Costa, Elaine, Jansen de Mello Farias, Roberta, Santos-Oliveira, Ralph, and Rebelo Alencar, Luciana M.

Published

2024

2. Bilateral interstitial keratitis in a patient with presumed brain tuberculoma.

Author

Fiod Costa, Elaine, Pimentel Oliveira, João Victor, Moreira Pinto, Luciano, Pedrozoe Silva Azevedo, Conceição de Maria, and Luisa Hofling-Lima, Ana

Subjects

TUBERCULOMA, IRON deficiency anemia, KERATITIS, DISEASE risk factors, MAGNETIC resonance imaging, IRIDOCYCLITIS, HIV, CORNEAL dystrophies

Abstract

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Published

2023

3. Ability of New Vital Dyes to Stain Intraocular Membranes and Tissues in Ocular Surgery

Author

Rodrigues, Eduardo B., Penha, Fernando M., de Paula Fiod Costa, Elaine, Maia, Mauricio, Dib, Eduardo, Moraes, Milton, Jr, Meyer, Carsten H., Magalhaes, Octaviano, Jr, Melo, Gustavo Barreto, Stefano, Vinicius, Dias, Ana Beatriz, and Farah, Michel Eid

Published

2010

4. Epidemiological profile and visual outcome of ocular trauma in a referral center in northeastern Brazil.

Author

de Paula Fiod Costa, Elaine, Mota Gomes, Thais, Mendes, Thailon Azevedo, Garcia Campos, Marcos Adriano, Carvalho Bertrand, Romero Henrique, and Moreira Pinto, Luciano

Subjects

*TRAUMA centers, *OCULAR injuries, *VISUAL acuity, *STATISTICAL hypothesis testing, *PROGNOSIS, *SCIENTIFIC observation

Abstract

Objectives: To evaluate the epidemiological profile and prognosis of patients with mechanical ocular trauma. Methods: Descriptive cross-sectional observational study of consecutive patients evaluated during a one-year period at a public referral center in São Luis, Maranhão, Brazil. The Ocular Trauma Score (OTS) was used to estimate final visual acuity. The variables were analyzed using the chisquare test with a significance level of 5%. Results: Out of a total of 154 patients (mean age of 30.1 years), 27.92% were younger than 16 years, and 81.8% were men, with most coming from the state’s countryside (55.2%). Most of the patients were dependents (34%) or rural workers (19%). Regarding the OTS prognosis, 33.77% of the patients were category 5 and 31.16% category 1 or 2, indicating worse prognosis. The best prognoses (visual outcomes) were inversely proportional to age and time to treatment (p<0.001). Conclusion: Ocular trauma remains an important cause of ocular morbidity in childhood and in informal work. Adult supervision and socio-educational measures are mandatory to change this scenario. [ABSTRACT FROM AUTHOR]

Published

2019

5. Effect of Vital Dyes on Retinal Pigmented Epithelial Cell Viability and Apoptosis: Implications for Chromovitrectomy.

Author

Penha, Fernando M., Pons, Marianne, de Paula Fiod Costa, Elaine, Rodrigues, Eduardo B., Maia, Mauricio, Marin-Castaño, Maria E., and Farah, Michel Eid

Subjects

APOPTOSIS, EPITHELIAL cells, VITRECTOMY, DYES & dyeing, BROMOPHENOLS

Abstract

Purpose: To investigate the in vitro effect of vital dyes on toxicity and apoptosis in a human retinal pigment epithelial cell line. Methods: ARPE-19 cells were exposed to brilliant blue (BBG), Evans Blue (EB), bromophenol blue (BroB), indocyanine green (ICG), infracyanine green (IfCG), light green (LG), fast green (FG), indigo carmine (IC) and Congo red (CR). Balanced salt solution was used as the control. Five different concentrations and 2 exposure times were tested. Cell viability was determined by the MTS (1-solution methyl thiazolyl tetrazolium) assay and apoptosis by Bax expression on Western blot. Results: All dyes significantly reduced cell viability after 3 min of exposure at all concentrations (p < 0.01), except for BBG that was safe at concentrations up to 0.25 mg/ml and CR up to 0.05 mg/ml, while LG was safe at all concentrations. Toxicity was higher after 30 min of exposure. Expression of Bax was upregulated after all dye exposures, except BBG; ICG had the highest Bax expression (p < 0.01). Conclusions: Overall the safest dye was BBG followed by LG, IfCG, FG, CR, IC, BroB, EB and ICG. ICG was toxic at all concentrations and exposure times tested. Moreover, BBG was the only dye that did not induce apoptosis in ARPE-19 cells. © 2013 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2013

6. Biochemical Analysis and Decomposition Products of Indocyanine Green in Relation to Solvents, Dye Concentrations and Laser Exposure.

Author

Penha, Fernando M., Rodrigues, Eduardo B., Maia, Mauricio, Meyer, Carsten H., de Paula Fiod Costa, Elaine, Dib, Eduardo, Bechara, Etelvino, Lourenço, andréia, Lima Filho, acácio a.S., Freymüller, Edna H., and Farah, Michel Eid

Subjects

INDOCYANINE green, SOLVENTS, VITRECTOMY, VITREOUS body surgery, OSMOLAR concentration

Abstract

Purpose: To investigate pH, ions, osmolarity and precipitation of indocyanine green (ICG), as well as the profile of ICG decomposition products (DPs) after laser exposure and the interaction with quenchers. Methods: ICG was diluted in water, 5% glucose (GL) or balanced salt solution (BSS) to achieve concentrations of 2.5, 1, 0.25 and 0.1 mg/ml. Osmolarity, pH and precipitation were analyzed immediately and after 24 h. Precipitation analyses were done with a scanning electron microscope. Anion and iodate analyses of ICG and infracyanine green (IfCG) were performed by capillary zone electrophoresis. With regard to DPs, 0.5 mg/ml of ICG was assessed with high-performance liquid chromatography (HPLC) after 810-nm laser irradiation. DP profiles were evaluated with ICG dilution in quenchers (Trolox, histidine and DABCO) in 3 concentrations (0.1, 1 and 10 M). Results: BSS promoted iso-osmotic ICG solutions of 208 mOsm (147-266) compared to GL with 177 mOsm. BSS solutions had a higher physiological pH of 7.2 compared with the GL one of 6.55. ICG precipitated more when diluted with BSS (5.95 mg); in contrast, GL showed less precipitate (3.6 mg). IfCG has no iodine derivates and other ICGs have an average 4.6% of iodate derivates. From HPLC analysis, 5 DPs were observed. The rate of DPs was higher when BSS was used (p < 0.05). Five DPs have been generated with ICG, and they may be altered with the quenchers DABCO, histidine and Trolox. Conclusions: BSS dilution induces more precipitation and DPs. ICG dilution in any solvent induces DPs. Quencher use reduces the amount of toxic DPs. © 2013 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2013

7. In Vivo, In Vitro Toxicity and In Vitro Angiogenic Inhibition of Sunitinib Malate.

Author

Dib, Eduardo, Maia, Mauricio, Lima, Acácio de Souza, de Paula Fiod Costa, Elaine, de Moraes-Filho, Milton Nunes, Rodrigues, Eduardo Büchele, Penha, Fernando Marcondes, Coppini, Larissa Pereira, de Barros, Nilana Meza Tenório, Coimbra, Rita de Cassia Sinigaglia Galli, Magalhães Júnior, Octaviano, Guerra, Tarcisio, Furlani, Bruno de Albuquerque, Freymuller, Edna, and Farah, Michel Eid

Subjects

IN vitro toxicity testing, MALATES, SCIENTIFIC experimentation, DRUG toxicity, PROTEIN-tyrosine kinase inhibitors, NEOVASCULARIZATION inhibitors

Abstract

Purpose: To evaluate the in vivo and in vitro toxicity of sunitinib malate, a multikinase inhibitor molecule. Design: Experimental, Prospective, Controlled. Methods: Human retinal pigment epithelial (ARPE-19) and human umbilical vein endothelialcells (HUVECS) were used in a culture toxicity test and exposed to different concentrations of sunitinib malate for 18 hours. The HUVECs also were cultured to evaluate the angiogenesis inhibitory effect of sunitinib malate. Fundus photography and angiographic, electrophysiologic, and histopathologic evaluations with light and electron microscopy were performed in two groups of five rabbits each that received different intravitreal concentrations of the drug. Each rabbit received 0.1 ml of sunitinib malate in the right eye (one group with 12.5 mg/ml, the other group with 25 mg/ml); all animals received 0.1 ml of physiologic saline solution in the left eye. After sacrifice, the eyes were enucleated and fixed with modified Karnovsky solution. Results: No toxicity related to sunitinib malate was observed using an in vitro model with the 12.5 and 25 mg/ml solutions in HUVEC and ARPE cell cultures. No toxicity was observed in the in vivo model with 12.5 mg/ml, but light microscopy showed that the 25 mg/ml solution damaged the photoreceptors layer. No functional changes in the electroretinogram were observed in any group. Conclusions: Sunitinib malate 12.5 mg/ml caused no toxicity in in vivo and in vitro models, but the 25 mg/ml concentration caused retinal changes suggesting toxicity in the in vivo model. Further research with the drug is needed in models of ocular neovascularization. [ABSTRACT FROM AUTHOR]

Published

2012

8. Retinal and Ocular Toxicity in Ocular Application of Drugs and Chemicals – Part I: Animal Models and Toxicity Assays.

Author

Penha, Fernando Marcondes, Rodrigues, Eduardo B., Maia, Maurício, Dib, Eduardo, Fiod Costa, Elaine, Furlani, Bruno A., Nunes Moraes Filho, Milton, Dreyfuss, Juliana L., Bottós, Juliana, and Farah, Michel E.

Subjects

OCULAR toxicology, DRUG therapy, RETINAL (Visual pigment), RETINA, ELECTRON microscopy, ELECTRORETINOGRAPHY

Abstract

AbstractAims:Experimental retinal research has gained great importance due to the ophthalmic pharmacotherapy era. An increasing number of drugs are constantly released into the market for the treatment of retinal diseases. In this review, animal species, animal models and toxicity assays in retinal research are discussed. Methods:An extensive search of the literature was performed to review various aspects of the methods of investigation of drug toxicity. The different types of animal species, as well as single animal models available for the evaluation of safety and efficacy of retinal pharmacotherapy, were identified. In addition, a large variety of reported laboratory techniques were critically examined. Results:In vitro studies are the first-line experiments for the development of a new drug for retinal diseases, using retinal pigment epithelial cells and other cell lines. The next step involves in vivo animal studies where nonhuman primates are considered the gold standard. However, cost and legal issues make their use difficult. Mice and rats provide genetically controlled models for investigations. Pigs, dogs and cats represent good large-size animal models, while rabbits are one of the most used species for retinal toxicity evaluations. Various laboratory methods were identified, including light microscopy, electron microscopy, electroretinography and new emerging methods, such as optical coherence tomography and scanning laser ophthalmoscopy for experimental purposes. Conclusions:A great number of animal species and models are available that simulate retinal diseases and provide experimental data for further human use. Work with animal models should include properly designed toxicity assays to obtain reliable results for safety and efficacy. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2010

9. PRECLINICAL INVESTIGATION OF THE RETINAL BIOCOMPATIBILITY OF SIX NOVEL VITAL DYES FOR CHROMOVITRECTOMY.

Author

Rodrigues, Eduardo B., Penha, Fernando Marcondes, Farah, Michel Eid, De Paula Fiod Costa, Elaine, Maia, Mauricio, Dib, Eduardo, BottÓs, Juliana, Freymuller, Edna, Furlani, Bruno, Meyer, Carsten H., MagalhÃes Jr, Octaviano, Lima-Filho, AcÁcio Alves Souza, and Safatle, AngÉlica

Published

2009

10. Retinal and ocular toxicity in ocular application of drugs and chemicals--part I: animal models and toxicity assays.

Author

Penha FM, Rodrigues EB, Maia M, Dib E, Fiod Costa E, Furlani BA, Nunes Moraes Filho M, Dreyfuss JL, Bottós J, and Farah ME

Subjects

Animals, Electroretinography drug effects, Immunohistochemistry, Microscopy, Electron, Drug Evaluation, Preclinical methods, Drug-Related Side Effects and Adverse Reactions, Models, Animal, Retina drug effects, Retinal Diseases chemically induced, Toxicity Tests methods

Abstract

Aims: Experimental retinal research has gained great importance due to the ophthalmic pharmacotherapy era. An increasing number of drugs are constantly released into the market for the treatment of retinal diseases. In this review, animal species, animal models and toxicity assays in retinal research are discussed., Methods: An extensive search of the literature was performed to review various aspects of the methods of investigation of drug toxicity. The different types of animal species, as well as single animal models available for the evaluation of safety and efficacy of retinal pharmacotherapy, were identified. In addition, a large variety of reported laboratory techniques were critically examined., Results: In vitro studies are the first-line experiments for the development of a new drug for retinal diseases, using retinal pigment epithelial cells and other cell lines. The next step involves in vivo animal studies where nonhuman primates are considered the gold standard. However, cost and legal issues make their use difficult. Mice and rats provide genetically controlled models for investigations. Pigs, dogs and cats represent good large-size animal models, while rabbits are one of the most used species for retinal toxicity evaluations. Various laboratory methods were identified, including light microscopy, electron microscopy, electroretinography and new emerging methods, such as optical coherence tomography and scanning laser ophthalmoscopy for experimental purposes., Conclusions: A great number of animal species and models are available that simulate retinal diseases and provide experimental data for further human use. Work with animal models should include properly designed toxicity assays to obtain reliable results for safety and efficacy., (Copyright 2010 S. Karger AG, Basel.)

Published

2010

11. Preclinical investigation of the retinal biocompatibility of six novel vital dyes for chromovitrectomy.

Author

Rodrigues EB, Penha FM, Farah ME, de Paula Fiod Costa E, Maia M, Dib E, Bottós J, Freymuller E, Furlani B, Meyer CH, Magalhães O Jr, Lima-Filho AA, and Safatle A

Subjects

Animals, Cell Count, Coloring Agents administration & dosage, Coloring Agents toxicity, Dose-Response Relationship, Drug, Edema chemically induced, Electroretinography, Fluorescein Angiography, Injections, Male, Microscopy, Electron, Rabbits, Reaction Time drug effects, Retina pathology, Retina physiopathology, Retinal Diseases chemically induced, Vacuoles pathology, Vitreous Body, Coloring Agents pharmacology, Materials Testing, Retina drug effects, Vitrectomy methods

Abstract

Purpose: To investigate the retinal biocompatibility of six novel vital dyes for chromovitrectomy., Methods: An amount of 0.05 mL of 0.5% and 0.05% light green (LG), fast green (FG), Evans blue (EB), brilliant blue (BriB), bromophenol blue (BroB), or indigo carmine (IC) was injected intravitreally in the right eye, whereas in the left eye balanced salt solution was applied for control in rabbits' eyes. Clinical examination, fluorescein angiography, histology with light microscopy, and transmission electron microscopy were performed after 1 and 7 days. Retinal cell layers were evaluated for morphologic alterations and number of cells. The electroretinographic changes were assessed at baseline, 24 hours and 7 days., Results: Fluorescein angiography disclosed hypofluorescent spots only in the 0.5% EB group. Light microscopy and transmission electron microscopy disclosed slight focal morphologic changes in eyes exposed to 0.05% IC, FG, BriB, similar to the control at 1 and 7 days. In the lower dose groups, EB, LG, and BroB caused substantial retinal alterations by light microscopy. At the higher dose, BroB and EB produced diffuse cellular edema and vacuolization within the ganglion cells, bipolar cells, and photoreceptors. FG and IC at 0.5% caused slight retinal alterations similar to balanced salt solution injection. LG at 0.5% caused diffuse vacuolization of bipolar cells after 1 and 7 days. Injection of 0.5% EB caused a significant decrease in neuroretinal cell counts in comparison to control eyes in the 7-day examination (P < 0.05). Electroretinography revealed intermittent prolonged latency and decreased amplitude in eyes injected with 0.5% EB, LG, BriB, and BroB, while at the lower dose, only LG and EB induced few functional changes., Conclusion: The progressive order of retinal biocompatibility, from safest to most toxic, was IC, FG, BriB, BroB, LG, EB.

Published

2009