Espesor macular medido con tomografía de coherencia óptica en ojos pseudoafáquicos con implante amarillo vs. transparente / Macular thickness measured by optical coherence tomography in pseudoaphakic eyes with clear vs yellow implant

OBJETIVO: Evaluar mediante tomografía de coherencia óptica (OCT) las variaciones de espesor macular producidas a lo largo del tiempo en ojos pseudoafáquicos implantados con una lente intraocular (LIO) transparente en comparación con sus respectivos ojos contralarerales implantados con LIO amarilla. MÉTODOS: El espesor macular de 36 ojos de 18 sujetos fue evaluado mediante OCT. Los sujetos presentaban edades superiores a 65 años y habían sido intervenidos de cataratas en ambos ojos en 2 cirugías independientes. La principal característica de los individuos es que llevaban implantada una LIO con diferente absorción en cada ojo: transparente (absorbente de la radiación ultravioleta) y amarilla (con filtro adicional absorbente de las radiaciones violeta-azul del espectro visible). El espesor macular se evaluó en 2 sesiones separadas en el tiempo por un intervalo de tiempo de 5 años, mediante el sistema Stratus-OCT (protocolo fast macular thickness). Se analizaron estadísticamente las diferencias en la evolución del espesor macular entre ojos con diferente tipo de LIO. RESULTADOS: Tras 5 años de seguimiento, se observó que los ojos implantados con LIO transparente manifestaban una reducción del espesor macular estadísticamente significativa, superior a la esperada por el aumento de la edad. Sin embargo, los ojos implantados con LIOs amarillas mantuvieron su espesor macular estable. La disminución del espesor macular promedio en ojos implantados con LIO transparente fue de 5 ± 8 μm (p = 0,02) y la reducción del espesor foveal fue de 10 ± 17 μm (p = 0,02). CONCLUSIONES: Los cambios de espesor macular producidos en ojos implantados con una LIO amarilla difieren de los cambios manifestados en ojos con LIO transparente. Estas observaciones apuntan a un posible efecto protector de las LIOs amarillas contra los efectos dañinos de la luz en sujetos pseudoafáquicos. Sin embargo, estudios con un mayor tamaño muestral y mayor tiempo de seguimiento son necesarios para confirmar que la protección inducida por este tipo de LIO es clínicamente significativa

OBJECTIVE: To study the use of optical coherence tomography (OCT), for measuring the macular thickness variations produced over time in elderly pseudophakic subjects implanted with a clear intraocular lens (IOL) in one eye, and a yellow IOL in the other eye. METHODS: Macular thickness measurements were obtained in the 36 eyes of 18 subjects over 65 years, with cataracts surgically removed from both eyes and implanted with different absorbance (clear and yellow) IOLs in 2 separate surgeries. Stratus-OCT was used to determine the macular thickness in 2 sessions with 5 years of difference. RESULTS: After 5 years of follow-up, the eyes implanted with clear IOLs revealed a significant decrease in macular thickness. However, in eyes implanted with yellow IOLs the macular thickness remained stable. The mean overall decrease in macular thickness in eyes implanted with clear IOLs was 5 ± 8 μm (P=0.02), and foveal thickness reduction was 10 ± 17 μm (P=0.02). CONCLUSIONS: The macular thickness changes produced in eyes implanted with a yellow IOL differ from those with a clear IOL. These observation point to a possible protective effect of yellow IOL against the harmful effects of light in elderly pseudophakic subjects. However, studies with a longer follow-up are still needed to confirm that the protection provided by this IOL model is clinically significant

[Macular thickness measured by optical coherence tomography in pseudoaphakic eyes with clear vs yellow implant]. / Espesor macular medido con tomografía de coherencia óptica en ojos pseudoafáquicos con implante amarillo vs. transparente.

OBJECTIVE: To study the use of optical coherence tomography (OCT), for measuring the macular thickness variations produced over time in elderly pseudophakic subjects implanted with a clear intraocular lens (IOL) in one eye, and a yellow IOL in the other eye. METHODS: Macular thickness measurements were obtained in the 36 eyes of 18 subjects over 65 years, with cataracts surgically removed from both eyes and implanted with different absorbance (clear and yellow) IOLs in 2 separate surgeries. Stratus-OCT was used to determine the macular thickness in 2 sessions with 5 years of difference. RESULTS: After 5 years of follow-up, the eyes implanted with clear IOLs revealed a significant decrease in macular thickness. However, in eyes implanted with yellow IOLs the macular thickness remained stable. The mean overall decrease in macular thickness in eyes implanted with clear IOLs was 5 ± 8 µm (P=.02), and foveal thickness reduction was 10 ± 17 µm (P=.02). CONCLUSIONS: The macular thickness changes produced in eyes implanted with a yellow IOL differ from those with a clear IOL. These observation point to a possible protective effect of yellow IOL against the harmful effects of light in elderly pseudophakic subjects. However, studies with a longer follow-up are still needed to confirm that the protection provided by this IOL model is clinically significant.

Light regulates the expression of the BDNF/TrkB system in the adult zebrafish retina.

The retina of the adult zebrafish express brain-derived neurotrophic factor (BDNF) and its signaling receptor TrkB. This functional system is involved in the biology of the vertebrate retina and its expression is regulated by light. This study was designed to investigate the effects of cyclic (12 h light/12 h darkness) or continuous (24 h) exposure during 10 days to white light, white-blue light, and blue light, as well as of darkness, on the expression of BDNF and TrkB in the retina. BDNF and TrkB were assessed in the retina of adult zebrafish using quantitative real-time polymerase chain reaction and immunohistochemistry. Exposure to white, white-blue, and blue light causes a decrease of BDNF mRNA and of BDNF immunostaining, independently of the pattern of light exposition. Conversely, in the same experimental conditions, the expression of TrkB mRNA was upregulated and TrkB immunostaining increased. Exposition to darkness diminished BDNF and TrkB mRNAs, and abolished the immunostaining for BDNF but not modified that for TrkB. These results demonstrate the regulation of BDNF and TrkB by light in the retina of adult zebrafish and might contribute to explain some aspects of the complex pathophysiology of light-induced retinopathies.

Expression of TRPV4 in the zebrafish retina during development.

The transient receptor potential (TRP) channels are involved in sensing mechanical/physical stimuli such as temperature, light, pressure, as well as chemical stimuli. Some TRP channels are present in the vertebrate retina, and the occurrence of the multifunctional channel TRP vanilloid 4 (TRPV4) has been reported in adult zebrafish. Here, we investigate the expression and distribution of TRPV4 in the retina of zebrafish during development using polymerase chain reaction (PCR), Western blot, and immunohistochemistry from 3 days post fertilization (dpf) until 100 dpf. TRPV4 was detected at the mRNA and protein levels in the eye of zebrafish at all ages sampled. Immunohistochemistry revealed the presence of TRPV4 in a population of the retinal cells identified as amacrine cells on the basis of their morphology and localization within the retina, as well as the co-localization of TRPV4 with calretinin. TRPV4 was first (3 dpf) found in the soma of cells localized in the inner nuclear and ganglion cell layers, and thereafter (10 dpf) also in the inner plexiform layer. The adult pattern of TRPV4 expression was achieved by 40 dpf the expression being restricted to the soma of some cells in the inner nuclear layer and ganglion cell layers. These data demonstrate the occurrence and developmental changes in the expression and localization of TRPV4 in the retina of zebrafish, and suggest a role of TRPV4 in the visual processing.

Role of metalloproteases in retinal degeneration induced by violet and blue light.

INTRODUCTION: An essential role for metalloproteases (MMPs) has been described in blood vessel neoformation and the removal of cell debris. MMPs also play a key role in degenerative processes and in tumors. The participation of these enzymes in light-induced phototoxic processes is supported by both experimental and clinical data. Given that patients with age-related macular degeneration often show deposits, or drusen, these deposits could be the consequence of deficient MMP production by the pigment epithelium. OBJECTIVE: To gain insight into the regulation of metalloproteases in the pathogenia of retinal degeneration induced by light. MATERIALS AND METHODS: We examined the eyes of experimental rabbits exposed for 2 years to circadian cycles of white light, blue light and white light lacking short wavelengths. For the trial the animals had been implanted with a transparent intraocular lens (IOL) and a yellow AcrySof((R)) IOL, one in each eye. After sacrificing the animals, the retinal layer was dissected from the eye and processed for gene expression analyses in which we examined the behavior of MMP-2, MMP-3 and MMP-9. RESULTS: MMP-2 expression was unaffected by the light received and type of IOL. However, animals exposed to white light devoid of short wavelengths or those fitted with a yellow IOL showed 2.9- and 3.6-fold increases in MMP-3 expression, respectively compared to controls. MMP-9 expression levels were also 3.1 times higher following exposure to blue light and 4.6 times higher following exposure to white light lacking short wavelengths or 4.2 times higher in eyes implanted with a yellow IOL. CONCLUSION: Exposure to long periods of light irrespective of its characteristics leads to the increased expression of some MMPs. This alteration could indicate damage to the extracellular matrix and have detrimental effects on the retina.