AIM: To evaluate and compare the diagnostic capabilities of peripapillary retinal nerve fiber layer(p-RNFL) parameters of Spectralis optical coherence tomography(OCT) versus Stratus OCT to detect glaucoma in pati...AIM: To evaluate and compare the diagnostic capabilities of peripapillary retinal nerve fiber layer(p-RNFL) parameters of Spectralis optical coherence tomography(OCT) versus Stratus OCT to detect glaucoma in patients with high myopia. METHODS: This is a retrospective, cross-sectional study. Sixty highly myopic eyes of 60 patients were enrolled, with 30 eyes in the glaucoma group and 30 eyes in the control group. All eyes received peripapillary imaging of the optic disc using Stratus and Spectralis OCT. Areas under the receiver operating characteristic curve(AUROC) and the sensitivity at specificity of 〉80% and 〉95% for p-RNFL parameters obtained using the two devices to diagnose glaucoma were analysed and compared. RESULTS: In Spectralis OCT, p-RNFL thickness parameters with the largest AUROC were the temporal-inferior sector(0.974) and the inferior quadrant(0.951), whereas in Stratus OCT, the best parameters were the 7-o'clock sector(0.918) and the inferior quadrant(0.918). Compared to the Stratus OCT parameters, the Spectralis OCT parameters demonstrated generally higher AUROC; however, the difference was not statistically significant. CONCLUSION: The best p-RNFL parameters for diagnosing glaucoma in patients with high myopia were the temporal-inferior sector on Spectralis OCT and the 7-o'clock sector on Stratus OCT. There were no significant differences between the AUROCs for Spectralis OCT and Stratus OCT, which suggest that the glaucoma diagnostic capabilities of these two devices in patients with high myopia are similar.展开更多
Optical networks are expected to cater for the future Internet due to the high speed and capacity that they offer. Caching in the core network has proven to reduce power usage for various video services in current opt...Optical networks are expected to cater for the future Internet due to the high speed and capacity that they offer. Caching in the core network has proven to reduce power usage for various video services in current optical networks. This paper investigates whether video caching will still remain power efficient in future optical networks. The study compares the power consumption of caching in a current IP over WDM core network to a future network. The study considers a number of features to exemplify future networks. Future optical networks are considered where: (1) network devices consume less power, (2) network devices have sleep-mode capabilities, (3) IP over WDM implements lightpath bypass, and (4) the demand for video content significantly increases and high definition video dominates. Results show that video caching in future optical networks saves up to 42% of power consumption even when the power consumption of transport reduces. These results suggest that video caching is expected to remain a green option in video services in the future Internet.展开更多
Great advances in retinal ganglion cells survival(RGCs),optic nerve preservation and regeneration have been made in the past 15years.Nowadays,we know that RGCs are capable of regenerating the full length of the opti...Great advances in retinal ganglion cells survival(RGCs),optic nerve preservation and regeneration have been made in the past 15years.Nowadays,we know that RGCs are capable of regenerating the full length of the optic nerve,cross the chiasm,enter the brain and reinnervate visual targets.展开更多
基金Supported by Kaohsiung Chang Gung Memorial Hospital,Kaohsiung,Taiwan,China(No.CMRPG8C0541)
文摘AIM: To evaluate and compare the diagnostic capabilities of peripapillary retinal nerve fiber layer(p-RNFL) parameters of Spectralis optical coherence tomography(OCT) versus Stratus OCT to detect glaucoma in patients with high myopia. METHODS: This is a retrospective, cross-sectional study. Sixty highly myopic eyes of 60 patients were enrolled, with 30 eyes in the glaucoma group and 30 eyes in the control group. All eyes received peripapillary imaging of the optic disc using Stratus and Spectralis OCT. Areas under the receiver operating characteristic curve(AUROC) and the sensitivity at specificity of 〉80% and 〉95% for p-RNFL parameters obtained using the two devices to diagnose glaucoma were analysed and compared. RESULTS: In Spectralis OCT, p-RNFL thickness parameters with the largest AUROC were the temporal-inferior sector(0.974) and the inferior quadrant(0.951), whereas in Stratus OCT, the best parameters were the 7-o'clock sector(0.918) and the inferior quadrant(0.918). Compared to the Stratus OCT parameters, the Spectralis OCT parameters demonstrated generally higher AUROC; however, the difference was not statistically significant. CONCLUSION: The best p-RNFL parameters for diagnosing glaucoma in patients with high myopia were the temporal-inferior sector on Spectralis OCT and the 7-o'clock sector on Stratus OCT. There were no significant differences between the AUROCs for Spectralis OCT and Stratus OCT, which suggest that the glaucoma diagnostic capabilities of these two devices in patients with high myopia are similar.
文摘Optical networks are expected to cater for the future Internet due to the high speed and capacity that they offer. Caching in the core network has proven to reduce power usage for various video services in current optical networks. This paper investigates whether video caching will still remain power efficient in future optical networks. The study compares the power consumption of caching in a current IP over WDM core network to a future network. The study considers a number of features to exemplify future networks. Future optical networks are considered where: (1) network devices consume less power, (2) network devices have sleep-mode capabilities, (3) IP over WDM implements lightpath bypass, and (4) the demand for video content significantly increases and high definition video dominates. Results show that video caching in future optical networks saves up to 42% of power consumption even when the power consumption of transport reduces. These results suggest that video caching is expected to remain a green option in video services in the future Internet.
文摘Great advances in retinal ganglion cells survival(RGCs),optic nerve preservation and regeneration have been made in the past 15years.Nowadays,we know that RGCs are capable of regenerating the full length of the optic nerve,cross the chiasm,enter the brain and reinnervate visual targets.
