Effects of IRA and UV alone or in combination on skin photoaging in mice / 西安交通大学学报(医学版)

Objective: To detect the expression of MMP-13 in the skin of mice treated by near-infrared (IRA) and ultraviolet (UV) so as to observe their effects on skin photoaging and their interrelation and explore molecular mechanisms in IRA-induced skin photoaging. Methods: Male ICR mice were randomly divided into five groups: control group (without ray exposure), IRA group, UV group, IRA/UV group, and UV/IRA group. The mice in the latter four groups had their dorsal skin exposed to different radiated ray respectively. The levels of MMP-13 protein and mRNA in the exposed skin were detected by HE, immunohistochemical method, Western blot and real-time PCR. Results: Both skin lesions by visual inspection and H&E staining results showed that mice in the other four groups had skin photoaging in the exposed skin area compared with the control group. The levels of MMP-13 protein and mRNA in the exposed skin in IRA/UV and UV/IRA groups were significantly higher than those in the control mice (P<0.05). In addition, mice in IRA/UV group showed higher levels of MMP-13 protein and mRNA than those in UV/IRA group (P<0.05). Conclusion: ① IRA causes skin photoaging in mice. ② UV and IRA interact with each other, up-regulate the expression of MMP-13, and promote each other in the process of photoaging. ③ The effects of IRA and UV in combination on skin photoaging are closely related to order of exposure. Taken together, avoiding IRA exposure and the expression of MMP-13 play an important role in preventing skin wrinkle formation and treatment of photoaging in mice.

Intraindividual Comparison of Visual Outcomes between Blue Light-filtering and Ultraviolet Light-filtering Intraocular Lens

PURPOSE: To compare the clinical results of short-term visual acuity and quality of vision after implantation of a yellow-tinted blue light-filtering intraocular lens (IOL) (Acrysof IQ® SN60WF) and an clear ultraviolet (UV) light filtering IOL (enVista™ MX60) in the same patient. METHODS: 44 patients with bilateral cataract received an SN60WF in one eye and an MX60 in the other eye. All eyes were evaluated for refraction power and uncorrected visual acuity (UCVA) at preoperative and 1, 3 months postoperatively. At postoperative 3 months, corrected visual acuity, quality of vision (OQAS II®), contrast sensitivity (CGT 2000®) and visual field (Humphrey Field Analyzer®), and subjective patients' response to the degree of brightness were evaluated. Furthermore, glistening degree, intraocular stability, and posterior capsular opacification were examined. RESULTS: There were no significant differences in average refractive power or UCVA at 1 and 3 months (p > 0.05) between the two groups. At 3 months after cataract surgery, the quality of vision according to OQAS II®, the contrast sensitivity according to CGT 2000® with the glare either on or off, and visual field; showed no difference between the two groups (p > 0.05). Both IOLs had no glistening and posterior capsular opacity. The patients' response to the degree of brightness shows that MX60 (48.3%) has a higher degree of satisfaction. CONCLUSIONS: Yellow-tinted blue light-filtering IOL and clear UV light-filtering IOL had no difference in short-term visual acuity and quality of vision. Subjective brightness perception, however, was better with clear UV light-filtering IOL.

Determination of minimal erythema dose of normal skin to ultraviolet rays / 中华医学美学美容杂志

Objective To investigate the minimal erythema does (MED) of normal skin to UV in Guangzhou city,and to observe its relationship to sex,age,skin type,seasons and the years lived in Guangzhou.Methods 621 healthy subjects were exposed to Solar Simulator (GS2004) and the MED was measured and observed by two professional technicians after (24±2) hours.Results The average MED value of all subjects was (1170.2±333.2) mJ/cm2.In male and female group,the average MED values were (1132.8-339.4) mJ/cm2 and (1182.1 ± 330.7) mJ/cm2,respectively,and there was no significant difference between male and female (P=0.20).The MED value in subjects aged from 30 to 50 (1014.7 ± 359.7) mJ/cm2 was significantly lower than those aged from 20 to 29 (1222.9±304.3) mJ/cm2 and over 50 years (1179.0±374.3) mJ/cm2 (P＜0.01).The MED value in skin type Ⅱ (673.53±228.3) mJ/cm2 was significantly lower than those in type Ⅲ (1224.3±254.2) mJ/cm2 and Ⅳ(1363.1±278.5) mJ/cm2(P＜0.01).There was significant difference of the MED value between different seasons (P＜0.01).The MED value in spring (969.2±355.8) mJ/cm2 was lowest,and followed by summer (969.2± 355.8) mJ/cm2.However,there was no significant difference between autumn and winter (P＞0.05).The MED value in subjects lived in Guangzhou from 5 to 10 years was significantly lower than those whose residence time was from 1 to 4 years and over 10 years,respectively.Conclusions The MED value of the subjects in Guangzhou is quite different from other cities of China,and related to age,skin types,seasons and the years lived in Guangzhou city,while there is no correlation between MED value and gender difference.

Inactivation Effect of Infectious Virus by UV irradiation at Water Environment

The effective inactivation of microorganisms in drinking water by Ultraviolet (UV) irradiation is regarded as a new low-cost water treatment method shoeing high removal rate of relatively stable infectious virus particles including poliovirus. In the present study, we examined virus inactivation by UV in various water environments. Samples were collected from finished water and surface water, and tested for turbidity. UV dose of 18, 22, 30, 36 and 40 milli-Joule (mJ)/cm2 were used by combination of 2 mW/cm2 UV intensity and time of 9, 11, 15, 18 and 20 second. Depths of water were fixed at 0.37 cm and 8 cm, and virus titers were shown by plaque forming unit (PFU). Poliovirus was inactivated to 99.0% by 18 mJ/cm2 of UV dose in the condition of 0.08 Nephelometry Turbidity Unit (NTU) and 8 cm depth of water. Poliovirus at 30 mJ/cm2 of UV dose under the same condition was inactivated to 99.7%. Furthermore, Poliovirus at 56.60 NTU and 8 cm depth of water was inactivated to 92.0% and 98.5% by 18 mJ/cm2 and 30 mJ/cm2 of UV dose, respectively. The degrees of virus inactivation were dependent upon the UV dose, the turbidit, y and the depth of water. In conclusion, introduction of UV disinfections can be considered in drinking water purification systems in case reasonable engineering support is possible.

Inactivation Effect of Infectious Virus by UV irradiation at Water Environment

The effective inactivation of microorganisms in drinking water by Ultraviolet (UV) irradiation is regarded as a new low-cost water treatment method shoeing high removal rate of relatively stable infectious virus particles including poliovirus. In the present study, we examined virus inactivation by UV in various water environments. Samples were collected from finished water and surface water, and tested for turbidity. UV dose of 18, 22, 30, 36 and 40 milli-Joule (mJ)/cm2 were used by combination of 2 mW/cm2 UV intensity and time of 9, 11, 15, 18 and 20 second. Depths of water were fixed at 0.37 cm and 8 cm, and virus titers were shown by plaque forming unit (PFU). Poliovirus was inactivated to 99.0% by 18 mJ/cm2 of UV dose in the condition of 0.08 Nephelometry Turbidity Unit (NTU) and 8 cm depth of water. Poliovirus at 30 mJ/cm2 of UV dose under the same condition was inactivated to 99.7%. Furthermore, Poliovirus at 56.60 NTU and 8 cm depth of water was inactivated to 92.0% and 98.5% by 18 mJ/cm2 and 30 mJ/cm2 of UV dose, respectively. The degrees of virus inactivation were dependent upon the UV dose, the turbidit, y and the depth of water. In conclusion, introduction of UV disinfections can be considered in drinking water purification systems in case reasonable engineering support is possible.