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@#AIM: To observe the application of light emitting diode(LED)irradiation in rat retinal vascular endothelial cells with high glucose and its effect and mechanism on photobioregulation. <p>METHODS:Rat retinal vascular endothelial cells were randomly divided into three groups: normal control group, high glucose model group, high glucose model light emitting diode irradiation group, and cells in the high glucose model light emitting diode group began to use light emitting diodes in the incubator 48h after modeling. The cells are irradiated. MTT cell apoptosis experiment was used to detect the apoptosis rate of each group; laser confocal microscope was used to observe the changes of intracellular calcium in retinal vascular endothelial cells; Western blot was used to detect the phosphorylated serine-threonine kinase(P-AKT)protein in each group expression.<p>RESULTS: The apoptosis rates of normal control group, high glucose model group, and high glucose model light emitting diode irradiation group were 7.54%±2.67%, 31.69%±5.74%, and 21.65%±3.52%, respectively(<i>P</i><0.05). In the normal control group, the cytoplasm with weak Ca2+ fluorescence showed green fluorescence with a pixel value of 192.65±50.54. In the high-sugar model group, the cytoplasm showed a stronger green fluorescence with a fluorescent pixel value of 710.69±100.38. The green fluorescent pixel value was 430.47±80.67, which was significantly higher than the normal control group, but significantly lower than the high-sugar model group. The intra-Ca2+ fluorescence pixel values in the three groups were statistically significant(<i>P</i><0.05). The amount of phosphorylated serine-threonine kinase(P-AKT)protein in these three groups of cells was 10.26±2.47, 2.35±0.16, 7.46±1.64, respectively(<i>P</i><0.05).<p>CONCLUSION: High-glucose environment inhibits the activity of threonine kinase pathway, which has an effect on calcium homeostasis of rat retinal vascular endothelial cells and promotes apoptosis. Low-intensity led irradiation can activate threonine kinase pathway and reduce the apoptosis rate caused by high glucose, which is of great application value.
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Introducción: El potencial evocado visual es una técnica que permite la evaluación de la integridad funcional de la vía visual; su aplicación en niños pequeños resulta de gran dificultad. Objetivo: Caracterizar desde el punto de vista fisiológico el potencial evocado visual en niños menores de 5 años. Métodos: Estudio descriptivo transversal, donde se registran respuestas visuales obtenidas con diodos (montados en gafas) en 112 niños sanos (65 varones, 47 hembras) con rango de edad entre 3 meses y 5 años. Se calcularon los valores medios y desviación estándar de latencias y amplitudes de cada componente de la respuesta y se estimaron sus dinámicas madurativas en función de la edad. Se utilizó un análisis de componentes principales para explicar la variabilidad morfológica (complejo N1-P1-N2) y, se calculó una ecuación discriminante (con indicadores de replicación y relación señal/ruido), para evaluar la contribución en su mejor detección. Resultados: La morfología típica encontrada resultó consistente, replicable y mostró un nivel de detección visual > 90 por ciento (para cada componente), con 85 por ciento de acierto global (clasificaciones correctas) mediante la ecuación discriminante. El complejo N1-P1-N2, consigue explicar > 70 por ciento de la varianza de esta respuesta. Se demostró un acortamiento significativo de latencia con la edad (regresión, p≤ 0,05) para los componentes N1, P1 (marginal, N2). Los valores de amplitud resultaron de mayor dispersión y su tendencia al incremento no alcanzó significación. Conclusiones: El registro del potencial evocado visual mediante diodos/gafas demuestra la obtención de respuestas fisiológicas consistentes y replicables (alta detectabilidad) con una variabilidad morfológica controlable(AU)
Introduction: The Visual Evoked Potentials is a neurophysiological technique to provide an objective assessment of the functional integrity of the visual pathway. However, the young children population is a particularly difficult (uncooperative) group to obtain visual responses. Objective: The purpose of this study was to describe electrophysiological characteristics of the visual response in children. Methods: Descriptive, cross-sectional study. Transient visual evoked potentials with goggles were recorded from 112 healthy children (65 males, 47 females) aged between 3 months to 5 years old. The mean (and standard deviations) for latencies and amplitudes of each component was calculated and both statistical significance in function of age was analyzed (linear regression model). Principal component analysis is use to explain the visual waveform variability. A discriminant equation (with indicators of reliability and noise/signal ratio) is calculate to evaluate contribution in detectability. Results: The typical waveform of (N1, P1, N2, components) is consistent and reliable and showed a visual detection level >90 percent (for each component) and 85 percent of global success (good classifications) with the discriminant equation. N1-P1-N2 complex is able to explain >70 percent of the visual response variance. A significant reduction of N1, P1 (N2, marginal) latencies with increasing age is demonstrated (linear regression, p≤0.05). There was no significant difference for age-dependent increased pattern of amplitude data (high variability). Conclusions: The visual evoked potentials/goggles obtained in infants and young children are consistent and reliable physiological responses (high detectability) with recognizable morphological variability(AU)
Subject(s)
Humans , Male , Female , Child, Preschool , Evoked Potentials, Visual/physiology , Eyeglasses/standards , Epidemiology, Descriptive , Cross-Sectional StudiesABSTRACT
BACKGROUND: Light-emitting diodes curing unit (LCU), which emit blue light, is used for polymerization of composite resins in many dentistry. Although the use of LCU for light-cured composite resin polymerization is considered safe, it is still controversial whether it can directly or indirectly have harmful biological influences on oral tissues. The aim of this study was to elucidate the biological effects of LCU in wavelengths ranging from 440 to 490 nm, on the cell viability and secretion of inflammatory cytokines in MDPC-23 odontoblastic cells and inflammatory-induced MDPC-23 cells by lipopolysaccharide (LPS). METHODS: The MTT assay and observation using microscope were performed on MDPC-23 cells to investigate the cell viability and cytotoxic effects on LCU irradiation. RESULTS: MDPC-23 cells and LPS stimulated MDPC-23 cells were found to have no effects on cell viability and cell morphology in the LCU irradiation. Nitric oxide (NO) and prostaglandin E2 which are the pro-inflammatory mediators, and interleukin-1β and tumor necrosis factor-α (TNF-α) which are the proinflammatory cytokines were significantly increased in MCPD-23 cells after LCU irradiation as time increased in comparison with the control. LCU irradiation has the potential to induce inflammation or biological damages in normal dental tissues, including MDPC-23 cells. CONCLUSION: Therefore, it is necessary to limit the use of LCU except for the appropriate dose and irradiation time. In addition, LCU irradiation of inflammatory-induced MDPC-23 cells by LPS was reduced the secretion of NO compared to the LPS alone treatment group and was significantly reduced the secretion of TNF-α in all the time groups. Therefore, LCU application in LPS stimulated MDPC-23 odontoblastic cells has a photodynamic therapy like effect as well as inflammation relief.
Subject(s)
Cell Survival , Composite Resins , Cytokines , Dentistry , Dinoprostone , Inflammation , Necrosis , Nitric Oxide , Odontoblasts , Photochemotherapy , Polymerization , PolymersABSTRACT
Objective@#To study the effect of red light on the proliferation of mesenchymal stem cells (BMSCs).@*Methods@#BMSCs were isolated from Sprague-Dawley rats and cultured in vitro. They were irradiated with red light delivered by a light-emitting diode placed 2 cm above the cell layer. The light had a wavelength of 620 nm and a maximum power of 1 W. The measured optical power density was 6.67 mW/cm2. The cells were randomly divided into a control group and three experimental groups. The control group was not irradiated, while the other 3 groups were irradiated at 0.5, 1 and 2 J/cm2 for 75 s, 150 s or 300 s, repeated twice with an interval of 12 hours. Forty-eight hours after the irradiation, cellular proliferation was evaluated using CCK-8 assays and DNA replication was quantified with a Cell-Light EdU. Changes in the cell cycle parameters were detected using flow cytometry.@*Results@#After the irradiation, the proliferation and DNA replication of the experimental group were significantly strengthened, while the cell growth cycle was significantly shortened compared with the control group, especially in the group irradiated at 0.5 J/cm2.@*Conclusion@#Low-energy red light irradiation can promote the proliferation of mesenchymal stem cells in vitro by enhancing DNA replication and shortening the cell growth cycle.
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Objective To study the effect of red light on the proliferation of mesenchymal stem cells ( BMSCs) . Methods BMSCs were isolated from Sprague-Dawley rats and cultured in vitro. They were irradiated with red light delivered by a light-emitting diode placed 2 cm above the cell layer. The light had a wavelength of 620 nm and a maximum power of 1 W. The measured optical power density was 6.67 mW/cm2. The cells were ran-domly divided into a control group and three experimental groups. The control group was not irradiated, while the oth-er 3 groups were irradiated at 0. 5, 1 and 2 J/cm2 for 75 s, 150 s or 300 s, repeated twice with an interval of 12 hours. Forty-eight hours after the irradiation, cellular proliferation was evaluated using CCK-8 assays and DNA repli-cation was quantified with a Cell-Light EdU. Changes in the cell cycle parameters were detected using flow cytometry. Results After the irradiation, the proliferation and DNA replication of the experimental group were significantly strengthened, while the cell growth cycle was significantly shortened compared with the control group, especially in the group irradiated at 0.5 J/cm2 . Conclusion Low-energy red light irradiation can promote the proliferation of mesenchymal stem cells in vitro by enhancing DNA replication and shortening the cell growth cycle.
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This study aimed to determine whether the curing times of Xtra Power and High Power modes of high-power light emitting diode (LED) curing light are sufficient for polymerization of resin sealants. The specimens were prepared and their microhardness values were measured and compared with those of specimens polymerized under conventional LED curing light.The filled sealant polymerized for 8 seconds in the High Power mode and for 3 seconds in the Xtra Power mode showed significantly lower microhardness than the control specimen (p = 0.000). The unfilled sealant polymerized for 8, 12 seconds in the High Power mode and for 6 seconds in the Xtra Power mode showed significantly lower microhardness than the control specimen (p = 0.000).The results of this study suggest that the short curing time with the Xtra Power and High Power modes of highpower LED curing light are not sufficient for adequate polymerization of sealants under specific conditions, taking into account the curing times and the type of sealant.
Subject(s)
Polymerization , PolymersABSTRACT
OBJECTIVE: With the introduction of third-generation light-emitting diodes (LEDs) in dental practice, it is necessary to compare their bracket-bonding effects, safety, and efficacy with those of the second-generation units. METHODS: In this study, 80 extracted human premolars were randomly divided into eight groups of 10 samples each. Metal or polycrystalline ceramic brackets were bonded on the teeth using second- or third-generation LED light-curing units (LCUs), according to the manufacturers’ instructions. The shear bond strengths were measured using the universal testing machine, and the adhesive remnant index (ARI) was scored by assessing the residual resin on the surfaces of debonded teeth using a scanning electron microscope. In addition, curing times were also measured. RESULTS: The shear bond strengths in all experimental groups were higher than the acceptable clinical shear bond strengths, regardless of the curing unit used. In both LED LCU groups, all ceramic bracket groups showed significantly higher shear bond strengths than did the metal bracket groups except the plasma emulation group which showed no significant difference. When comparing units within the same bracket type, no differences in shear bond strength were observed between the second- and third-generation unit groups. Additionally, no significant differences were observed among the groups for the ARI. CONCLUSIONS: The bracket-bonding effects and ARIs of second- and third-generation LED LCUs showed few differences, and most were without statistical significance; however, the curing time was shorter for the second-generation unit.
Subject(s)
Humans , Adhesives , Bicuspid , Ceramics , Plasma , ToothABSTRACT
Conociendo las propiedades medicinales de la especie vegetal Psychotria ipecacuanha (Brot.) Stokes, su crítico estado de conservación, así como las dificultades que presenta para la propagación efectiva, el presente estudio tuvo como objetivo evaluar su potencial de propagación por los sistemas de regeneración in vitro, organogénesis y embriogénesis somática. Para este propósito, capas delgadas de células (CDCs) de tallos y de hojas, así como segmentos foliares fueron sometidos a diferentes tratamientos con reguladores de crecimiento y condiciones de luz. Además se estableció el efecto de diferentes longitudes de onda vía diodos emisores de luz (LEDs), sobre la regeneración en estos explantes y nudos provenientes de plantas in vitro. Los resultados obtenidos mostraron que los segmentos de hoja y las CDCs de tallo sembrados en el medio de cultivo MS suplementado con las combinaciones de los reguladores de crecimiento IBA + BAP e IBA + TDZ formaron embriones somáticos y brotes. Los cortes histológicos realizados corroboraron estos dos tipos de origen. Se encontró que bajo la condición lumínica 16/8, se alcanzaron los mejores resultados de inducción de brotes y embriones. En cuanto al efecto de las diferentes longitudes de onda de luz, se encontró que las correspondientes al rojo, verde y blanca, favorecieron el crecimiento y desarrollo de brotes y la inducción de embriones somáticos. El desarrollo de los brotes a partir de los nudos no presentó diferencias estadísticas entre los tratamientos con LEDs, por lo que se recomienda el uso de la luz blanca continua y con fotoperiodo durante el proceso de multiplicación y desarrollo de éstos.
Knowing the medicinal properties of the plant specie Psychotria ipecacuanha (Brot.) Stokes, its critical condition and the difficulties for its effective propagation, the present study aimed to assess the potential of propagation of P. ipecacuanha by in vitro systems of regeneration, organogenesis and somatic embryogenesis. For this purpose, thin cell layers (TCL) of stems and leaves, as well as leaf segments were subjected to different treatments of plant growth regulators and light conditions. Furthermore, the effect of different wavelengths via light emitting diodes (LED's), was established for the regeneration in these explants and nodal explants from in vitro plants. The results showed that leaf segments and stem TCL, cultured in MS medium supplemented with the combinations of growth regulators IBA + BAP and IBA + TDZ, formed somatic embryos and shoots. The histological sections supported the two types of source. It was found that the best results in shoot induction and embryos were achieved under the light condition 16/8-h light/ dark. Regarding the effect of different wavelengths, it was found that those corresponding to red, green, and white supported the growth and shoot development as well as somatic embryos induction. The shoots development from the nodal explants did not show statistical differences between LEDs treatments, so the use of a continuous white light and photoperiod is recommended during their multiplication and development.
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As microalgas são candidatas promissoras para a produção em larga escala de biocombustíveis devido a sua alta eficiência fotossintética. No entanto, os custos relativamente altos de produção por baixas produtividades em lipídios têm sido um dos principais obstáculos que impedem sua produção comercial. Portanto, é necessário focar a pesquisa no aumento da biomassa e na produtividade em lipídios, através do desenvolvimento de biorreatores e técnicas de cultivo inovadoras. Numa primeira fase, este estudo mostra a otimização dos regimes de adição de nutrientes no cultivo de Neochloris oleoabundans em fotobiorreatores tubulares, determinando que a melhor metodologia de adição de CO2 é adicionando-o de forma intermitente e automatizada, enquanto que o melhor processo de alimentação de nitrogênio é por meio de um processo em batelada alimentada tomando como uma referência a produtividade diária de biomassa. Na segunda etapa, foi testada a influência de agentes estressores adicionados ao cultivo sob carência de nitrogênio, tais como tiossulfato de sódio como agente redutor e cloreto de sódio e glicerina como agentes de choque osmótico, buscando um acúmulo de lipídios na biomassa. Os resultados mostraram que o tiossulfato de sódio em 1,2 mM e o cloreto de sódio em 2,2 mM aumentaram o total de lipídios em 21% e 25%, respectivamente. Finalmente, foram testados diferentes regimes de luz, com um esquema 12:12, sendo 12 horas de luz fluorescente e 12 horas com um sistema distinto: escuro, diodos emissores de luz (LED) vermelha e LED branca. Os melhores resultados foram obtidos com LED branca, com um acúmulo de lipídios de até 27% da biomassa seca e uma concentração final de células de 2335mg/L, estabelecendo assim um método de iluminação econômica com alta produtividade (145mg / L dia)
Microalgae are promising candidates for large-scale global biofuel production because of their high photosynthetic efficiency. However, relatively high production costs due to low lipid productivity have been one of the major obstacles impeding their commercial production. Therefore, it is necessary to accurate the research into an increase in biomass and oil productivity, by means of novel bioreactors' design and cultivation techniques. On a first stage, this study shows the optimization of nutrients' addition regimes in Neochloris oleoabundans cultivation in tubular photobioreactors, finding that the best CO2 addition methodology is an automatized intermittent adding and the best feeding process for nitrogen is a fed-batch process taking as a reference the daily biomass productivity. On the second step, it was tested the influence of stressing agents added to the culture under nitrogen starvation, such as sodium thiosulphate for reducing environment and sodium chloride and glycerol for osmotic shock, aiming lipid accumulation in the biomass. The results showed that sodium thiosulphate at 1,2mM and sodium chloride at 2,2mM raised the total lipids up to 21% and 25% respectively. Finally, there were tested different light regimes, with a scheme 12:12, being 12 hours of fluorescent light and 12 hours of a singular system: dark, red light-emitting-diodes (LED) and white LED. The best results were obtained with white LED, with an accumulation up to 27% of dry biomass and a final cell concentration up to 2335mg/L, establishing an economic illumination method with high productivity
Subject(s)
Stress, Mechanical , Biomass , Microalgae/growth & development , Lipids/pharmacology , Osmotic Pressure , Thiosulfates/pharmacology , Photobioreactors/classificationABSTRACT
This study was conducted to identify a suitable color of light for development of the fruit body in Hypsizygus marmoreus. To accomplish this, samples were irradiated with blue (475 nm), green (525 nm), yellow (590 nm), or red (660 nm) light emitting diodes (LEDs) to induce the formation of fruiting bodies after mycelia growth. The diameter and thickness of the pileus and length of stipes in samples subjected to blue LED treatment were similar to those of subjected to fluorescent light (control), and the lengths of the stipes were highest in response to treatment with the red LED and darkness. The commercial yields of plants subjected to blue and green LED treatment were similar to those of the control. In conclusion, cultivation of H. marmoreus coupled with exposure to blue LED is useful for inducing high quality fruit bodies as well as higher levels of ergosterol, DPPH radical scavenging activity, total polyphenol content and reducing power.
Subject(s)
Agaricales , Darkness , Enzyme Multiplied Immunoassay Technique , Ergosterol , Fruit , LightABSTRACT
BACKGROUND: The use of light technology in dermatology has grown rapidly over the last decade, with many developments in its use for the treatment of a wide variety of skin conditions from non-melanoma skin cancers to facial resurfacing for photo-damaged skin. Light-emitting diodes (LEDs) have attracted much attention in medical fields. OBJECTIVE: (1) To assess the optimal distance of 630 nm LEDs (OmniLux(R), (Phototherapeutics Ltd, the UK)) and 830 nm LEDs (Healite(R) (Lutronic, Korea)) for maximum power as determined by a power meter and (2) to apply theory to practical use. METHODS: Two separate hinged planar light emitting diode arrays were studied: 1) the Omnilux Revive(TM) (Phototherapeutics Ltd, the UK), which delivers non-coherent red light at a wavelength of 633+/-3 nm and 2) the Lutronic Healite (Korea), which delivers non-coherent light at a wavelength of 830+/-5 nm. An X93 power meter (Gigahertz-Optik, Germany) was placed against a black background in order to reduce the amount of reflected light. We measured the LED powers over a range of 3~25 cm in 1 cm increments. RESULTS: On the irradiation side of the LED, power increases according to the mass effect of the radiation angle. However, at a certain distance, the power decline effect predominated over the amassment effect. In this respect, the LED light was estimated to be emitted in a reverse V shape. The proper irradiation distance for use in medical fields can thus be determined. CONCLUSION: The proper irradiation distance of LED will be useful and the proper use of LED under the subjects' shape will be done in many medical fields.
Subject(s)
Dermatology , Enzyme Multiplied Immunoassay Technique , Light , Skin , Skin NeoplasmsABSTRACT
PURPOSE: To explore the effects of stimulus duration, stimulus intensity, and background luminance on the amplitude and waveform of the ON- and OFF- responses of photopic ERG and to provide standard parameters of ON- and OFF- responses for normal Korean populations. METHODS: Twenty normal subjects (20 eyes) were enrolled to record photopic ON-and OFF-responses using a contact lens electrode with built-in LEDs and an LED-driver. The influence of stimulus duration on wave amplitudes was studied at flash durations that varied from 5 to 200 ms. The influence of stimulus intensity was studied with 0.4, 0.7, 1.1, 1.4, 1.7, 1.9, 2.0, and 2.1 log cd/m2. In addition, the influence of background luminance was studied with 20, 30, 40, and 50 cd/m2. RESULTS: Among 20 normal subjects, the d-waves in 16 subjects were isolated from b-waves with more than 50 ms of stimulus duration. The d-wave was observed for a 30-ms stimulus duration in 3 subjects and for a 100-ms duration in 1 subject. The amplitudes of the b-and d-waves increased as stimulus intensity was increased. The amplitudes of b-and d-waves decreased as background luminance was increased. CONCLUSIONS: Our results suggest that the clinical use of ON-and OFF-response recording can be obtained with stimulus parameters from 100 to 150 ms in duration and a 1.7-2.1 log cd/m2 intensity under 30-40 cd/m2 background luminance.