Compared to other refractive surgeries, the implantable collamer lens(ICL)implantation procedure has become one of the most popular surgical options in refractive surgery. ICL surgery offers advantages such as reversibility, high-definition visual outcomes, and preservation of the corneal anatomical structure. The V4c model, which features a central port, is currently the most widely used in clinical practice and eliminates the need for peripheral iridotomy during the perioperative period. Although excellent uncorrected visual acuity can be achieved postoperatively, some patients may experience visual disturbances in the early postoperative period, such as halo and glare, which may affect visual comfort particularly under low-light conditions. This article reviews visual quality metrics after ICL V4c implantation, including higher-order aberrations(HOA), modulation transfer function(MTF), and contrast sensitivity(CS), along with influencing factors, and discusses potential relative deficits in postoperative visual quality and their underlying mechanisms.

There are differences in the images of the same visual object projected onto the retinas of the two eyes.Stereopsis is the perceptual ability of the brain to discern three-dimensional depth from these two-dimensional images with binocular disparities,enabling humans to accurately perceive the relative distance between objects and assess their relative depth in space.Panum's fusional area(PFA)encompasses the depth range,including the horopter where the visual object lies and the areas in front of and behind it,within which fused single vision can be achieved.Visual function within the PFA is closely related to the formation of depth perception.The monocular visual direction,the depth of the binocular horopter position,and the measurement methods and models for the theoretical horopter and empirical horopter are all closely asso-ciated with the characteristics of depth perception within the PFA range.This holds significant importance for studying the construction process of stereopsis.

There are differences in the images of the same visual object projected onto the retinas of the two eyes.Stereopsis is the perceptual ability of the brain to discern three-dimensional depth from these two-dimensional images with binocular disparities,enabling humans to accurately perceive the relative distance between objects and assess their relative depth in space.Panum's fusional area(PFA)encompasses the depth range,including the horopter where the visual object lies and the areas in front of and behind it,within which fused single vision can be achieved.Visual function within the PFA is closely related to the formation of depth perception.The monocular visual direction,the depth of the binocular horopter position,and the measurement methods and models for the theoretical horopter and empirical horopter are all closely asso-ciated with the characteristics of depth perception within the PFA range.This holds significant importance for studying the construction process of stereopsis.

OBJECTIVE To explore the therapeutic effect of human umbilical cord-derived mesenchymal stem cells(hUC-MSCs)in mouse model of allergic lung inflammation.METHODS hUC-MSCs were isolated and cultured from umbilical cord of healthy neonates.The expression of MSC cell surface markers were assessed by flow cytometry in the fifth generation of hUC-MSCs.Mice were sensitized by intraperitoneal injection of ovalbumin and challenged via inhalation of aerosolized ovalbumin to establish an allergic airway inflammation model.The same dose of normal saline was used in the control group.After 14 days of nebulization,lung tissues and bronchoalveolar lavage fluid(BALF)were collected from the mice.Hematoxylin and eosin staining and Luminex multiplex assay were performed to assess the levels of allergic inflammation.Lung tissues were minced,homogenized,and digested into single-cell suspensions for cell culture.hUC-MSCs or human nasal epithelial cells were co-cultured with mouse lung cells at a ratio of 1:5 or 1:10(cell number ratio).After 18 hours,the supernatants were collected,and Luminex multiplex assay was performed to assess the expression of inflammatory cytokines interleukin-5(IL-5)and IL-6.RESULTS Cultured hUC-MSCs showed an elongated spindle-shaped morphology.The positive markers CD105,CD73,and CD90 showed positive rates of>95%respectively,while the negative markers CD45,CD34,and CD11b exhibited positive rates of<2%respectively.Compared with the controls,the allergic mice showed significant infiltration of eosinophils in the peribronchial regions of lung tissues,and increased expression levels of IL-5(P<0.01)and IL-6(P<0.05)in BALF.Compared with the control group,mouse lung cells co-cultured with hUC-MSCs significantly decreased the levels of IL-5 and IL-6 in the supernatant(both P<0.05 in 1∶5 group and 1∶10 group).CONCLUSION Co-culture with hUC-MSCs can significantly ameliorate allergic inflammation in lung tissue of mouse model,indicating the therapeutic potential of hUC-MSCs in airway allergic inflammation.