RESUMO
OBJECTIVE: We evaluated the effects of crocin supplementation during culture of intact and half-destroyed four-cell mouse embryos. Outcomes measured included rate of cleavage arrest, blastocyst formation, and blastocyst cell number. METHODS: We used laser to create two zonal holes without blastomere destruction in Groups 1 (n=100) and 2 (n=100), and to destroy two of the four blastomeres in Groups 3 (n=150) and 4 (n=150). Embryos were cultured in groups of ten in drops of medium without (Groups 1 and 3) or with 20 µg/ml of crocin supplementation (Groups 2 and 4). RESULTS: Embryos in Groups 1 and 2 had no difference in the rate of cleavage arrest (6.0% vs. 7.0%, respectively; p=0.774) or blastocyst formation (89.0% vs. 86.0%, respectively; p=0.521). Neither was there a difference in the number of cells in the blastocysts (99.6±23.5 vs. 95.6± 8.2, respectively, p=0.83). Half-destroyed embryos cultured in crocin-supplemented medium (Group 4) had a lower rate of cleavage arrest (14.7% vs. 30.0%, p=0.001), and a higher rate of blastocyst formation (51.3% vs. 37.3%, p=0.015), than those in non-supplemented medium (Group 3). In blastocysts derived from half-destroyed embryos, there was no difference in the number of cells in ICM (14.5±3.9 vs. 13.7±2.9, p=0.285), TE (45.2±12.3 vs. 46.0±13.3, p=0.764), or total cells (59.7±12.2 vs. 59.7±14.8, respectively, p=0.990) among the two groups. CONCLUSIONS: Crocin supplementation during in vitro development of impaired embryos improved their development, but had no effect on intact embryos.
RESUMO
In this study, we explored new properties of the bioinspired pyridine benzimidazole compound B2 (2,4-di-tert-butyl-6-(3H-imidazo[4,5-c]pyridine-2-yl)phenol) regarding its potential use as a differential biomarker. For that, we performed 1D 1HNMR (TOCSY), UV-Vis absorption spectra in different organic solvents, voltammetry profile (including a scan-rate study), and TD-DFT calculations that including NBO analyses, to provide valuable information about B2 structure and luminescence. In our study, we found that the B2 structure is highly stable, where the presence of an intramolecular hydrogen bond (IHB) seems to have a crucial role in the stability of luminescence, and its emission can be assigned as fluorescence. In fact, we found that the relatively large Stokes Shift observed for B2 (around 175 nm) may be attributed to the stability of the B2 geometry and the strength of its IHB. On the other hand, we determined that B2 is biocompatible by cytotoxicity experiments in HeLa cells, an epithelial cell line. Furthermore, in cellular assays we found that B2 could be internalized by passive diffusion in absence of artificial permeabilization at short incubation times (15 min to 30 min). Fluorescence microscopy studies confirmed that B2 accumulates in the endoplasmic reticulum (ER) and Golgi apparatus, two organelles involved in the secretory pathway. Finally, we determined that B2 exhibited no noticeable blinking or bleaching after 1 h of continuous exposure. Thus, B2 provides a biocompatible, rapid, simple, and efficient way to fluorescently label particular organelles, producing similar results to that obtained with other well-established but more complex methods.
RESUMO
La tinción de Ziehl Neelsen (ZN), es una técnica de coloración de microorganismos para la identificación de patógenos, como Mycobacterium tuberculosis causante de la tuberculosis, que requiere de tres (03) soluciones: Carbol Fucsina Fenicada (Fucsina Básica), Azul de Metileno al 1% y Solución Decolorante, que se elaboran en la Sección de Reactivos y Colorantes del Instituto Nacional de Higiene "Rafael Rangel" y se emplean en el diagnóstico de tuberculosis. Esta investigación surgió con el propósito de comprobar el tiempo de caducidad y condiciones de almacenamiento de dichos productos y presentarlos en un estuche tipo kit para su distribución, en apoyo a la Red Nacional de Laboratorios de Salud Pública y comercialización con otros entes. Se realizó el ensayo de tres (3) lotes del kit de Ziehl Neelsen; con su respectiva contramuestra que fue evaluada en el análisis final. Se registraron los parámetros físicos de temperatura y humedad relativa bajo condiciones normales de almacenamiento en el laboratorio, con las muestras protegidas de la luz. Se evaluó la funcionalidad por medio de la tinción ZN observada bajo microscopio, de tres (03) muestras con ATCC 700686: M. peregrinum y ATCC 29213: S. aureus por lote; tomando en cuenta el exceso de colorante, y la definición de las coloraciones. Estas evaluaciones se realizaron durante dos (02) años encontrándose como resultado que física y funcionalmente los productos contentivos en el kit se mantenían estables, fijándose un tiempo de caducidad de dos (02) años.
Ziehl Neelsen (ZN) is a staining technique of microorganisms for the identification of pathogens as Mycobacterium tuberculosis, causative of tuberculosis, which requires three (03) solutions: Carbol Fuchsin combined with Phenol (Basic Fuchsin), Methylene Blue 1% and Bleaching solution, which are prepared in Section of Reagents and Coloring of the Instituto Nacional de Higiene "Rafael Rangel" and are used in the diagnosis of tuberculosis. This investigation was made with the purpose of checking the shelf life and storage conditions of these products and present them in a kit type container for distribution in support of the National Network of Public Health Laboratories and marketing with other entities. The analysis was performed in three (3) batches of the Ziehl Neelsen kit; with their respective counter sample that was evaluated in the final analysis. The physical parameters of temperature and relative humidity were recorded in the laboratory under normal storage conditions with samples protected from light. The functionality was evaluated through ZN staining being observed under a microscope three (03) samples with ATCC 700686: M. peregrinum and ATCC 29213: S. aureus by Batch; taking into consideration the excess dye, and the definition of the colors. These evaluations were conducted for two (02) years found as main result that physically and functionally the products in the kit were stable, and can set an expiration time of two years.
Assuntos
Humanos , Masculino , Feminino , Criança , Idoso , Idoso de 80 Anos ou mais , Kit de Reagentes para Diagnóstico , Mycobacterium tuberculosis , Saúde PúblicaRESUMO
A new modification of the differential stainning technique for B. abortus was described here. The method was based upon the well known resistance of B. abortus to alcali associated with heating during the staining of the smears. A fresh mixture of saturated aqueous solution of safranin and 1N potassium hydroxide was used in 1:2 proportion, respectively, for the clinical material and 4:1 for the bacterial cultures.
Descreve-se uma modificação na técnica de coloração diferencial de Brucella abortus. Associa-se a bem conhecida propriedade de resistência do microrganismo ao álcali, com o aquecimento durante a coloração dos esfregaços. Foi utilizada uma mistura, recém preparada, de solução aquosa saturada de safranina e uma solução de hidróxido de potássio 1N, respectivamente nas proporções de 1:2 para o material clínico e 4:1 para os cultivos bacterianos.
RESUMO
A new modification of the differential stainning technique for B. abortus was described here. The method was based upon the well known resistance of B. abortus to alcali associated with heating during the staining of the smears. A fresh mixture of saturated aqueous solution of safranin and 1N potassium hydroxide was used in 1:2 proportion, respectively, for the clinical material and 4:1 for the bacterial cultures.
Descreve-se uma modificação na técnica de coloração diferencial de Brucella abortus. Associa-se a bem conhecida propriedade de resistência do microrganismo ao álcali, com o aquecimento durante a coloração dos esfregaços. Foi utilizada uma mistura, recém preparada, de solução aquosa saturada de safranina e uma solução de hidróxido de potássio 1N, respectivamente nas proporções de 1:2 para o material clínico e 4:1 para os cultivos bacterianos.