1.Changes in near vision and stereopsis after orthokeratology
Yan, KE ; Jing, SIMA ; Hao-Jiang, YANG
International Eye Science 2014;(12):2158-2161
AlM:To provide a proper assessment of the clinical use of orthokeratology by observing and analyzing the ocular biometric changes of the eyes and the stereopsis of the myopia.
METHODS:Sixty eyes from 30 myopia ( from 8 to 17 years old) were fitted with orthokeratology. Stereopsis, visual acuity, near visual acuity, central corneal thickness, anterior chamber depth, average anterior corneal refractive power ( K value ) , and intraocular pressure were measured before the orthokeratology treatment and 3mo after it. Refraction was expressed as spherical equivalent ( SE) , and the subjects were divided into 3 groups according to refraction: low myopia group (SE<-3.00D), moderate myopia group (-3. 00D≤SE<-6. 00D), and high myopia group (SE≥-6. 00D).
RESULTS:All subjects had significant improvements in visual acuity and near visual acuity 3mo after the orthokeratology treatment (P<0. 01). ln the comparisons of any pair of the groups, there was no significant difference in the near visual acuity ( P>0. 05 ). Three months after the orthokeratology treatment, Naked eye near stereoacuity values of all subjects were decreased (P<0. 01). There was no significant difference in the comparisons of the differences of stereopsis between any pair of the groups ( P> 0. 05 ). There was significant correlation in stereopsis and anisometropia ( Pearson coefficient r = 0. 778, P < 0. 01 ). And with greater anisometropia, the stereopsis was higher. All subjects had significantly lower K values than before 3mo after the orthokeratology treatment ( P< 0. 01 ). There was no significant difference in central corneal thickness, anterior chamber depth, and intraocular pressure (P>0. 05).
CONCLUSlON:Orthokeratology could lower K value in a short time and change the corneal curvature to correct myopia, to improve visual acuity and near visual acuity. lt also has an influence on improving stereopsis. There are no obviously changes in patients' central corneal thickness, anterior chamber depth or intraocular pressure after the orthokeratology treatment, making it a safe and effective treatment for adolescent.
3.Clinical research of intraoperative image-guidance in endoscopic nasocular operation
Xiao-Yan, DOU ; Jiang, GUO ; Yong-Tian, LU ; Jing, SIMA
International Eye Science 2010;10(8):1467-1468
AIM:To evaluate the availability and our experience of intraoperative image-guidance in endoscopic nasocular operation.METHODS:Seven cases of endoscopic nasal surgery with intraoperative image-guidance were retropectively reviewed,including 3 cases of optic nerve injury;3 cases of foreign object of optic behind the eyeball;1 case of retrobulbar tumor(angeioma).RESULTS:The preoperative preparatory time would take 15 minutes,including coordination,head holder localization,conventional instrument registration.In our cases,the localization accuracy between 3-D image landmarks of navigation system and actual anatomical landmarks was less than 1.3mm.The optic nerve and other anatomical points could be orientated accurately in intraoperative procedures.No complication occurred.CONCLUSION:Nasal endoscope combined with imageguidance systems provides accurate anatomical localization of anterior skull base with enlarged operation field.It is possible for surgeons to observe important anatomical structures during endoscopic surgery.It could increase the effectiveness and decrease surgical complications,especially in complicated cases.
5.Mechanism of angiostatin induced reduction of vascular leakage in retina and iris of rats with retinopathy of prematurity
Jing, SIMA ; Jian-Xing, MA ; Jiang, GUO ; Si-Si, LUO ; Hao-Jiang, YANG
International Eye Science 2008;8(12):3264-3368
·AIM: To study the effect of an intravitreal injection of angiostatin on vascular leakage in the retina and iris of oxygen-induced retinopathy of prematurity (ROP).·METHODS: Brown Norway rats at postnatal day 7 (P7) were exposed to hyperoxia (750mL/L O2 )for 5 days (P7-12) and then returned to normoxia to induce retinopathy. Angiostatin was reconstituted in sterile Phosphate Buffered Saline(PBS) and diluted to desired different concentrations. Angiostatin solution was injected into the vitreous of the right eye of the ROP rats at P14 and the age-matched normal rats through pars plana using a glass capillary, and the left eye received the same volume of sterile PBS as the control. Vascular permeability was quantified at 1, 2 and 3 days after the injection by measuring albumin leakage from blood vessels into the retina and iris using the Evans blue method and normalized by total protein concentrations. The expression of vascular endothelial growth factor (VEGF) in retina was evaluated using the Western Blot analysis and immuno-histochemistry 24 hours following the injection.·RESULTS: ROP rats showed significant increases of vascular permeability in the retina and iris (P<0.01). Angio-statin reduces vascular permeability in a dose-dependent manner in the retina of ROP rats. The reduction showed a time course trend. [Angiostatin injection reduced retinal vascular permeability by approximately 1.5 and 2-fold at P15 (P<0.05) and P16 (P<0.01), respectively.] Angiostatin injection significantly reduced VEGF levels in the retina of ROP rats but did not affect retinal VEGF levels in normal rats.·CONCLUSION: Angiostatin significantly decreases pa-thological vascular permeability in the retina and iris of ROP rats but not in normal rats. Angiostatin down-regulates VEGF expression in retina of ROP rats. These results suggest that angiostatin may have a therapeutic potential in the treatment of ROP and other diseases with vascular leakage.