ABSTRACT
With the aging of population, cerebral small vessel disease has attracted more and more attention. A growing body of literature has confirmed that retinal vascular changes can be used as a potential marker for the prediction of cerebral small vessel disease. The retina is recognized as a window into cerebrovascular and systemic vascular conditions. Combining traditional fundus photograph and fundus fluorescein angiography with optical coherence tomography angiography, the retinal vascular system of patients with cerebral small vessel disease can be comprehensively analyzed. This paper summarizes and analyzes the application of retinal angiography technology in different image types of cerebral small vessel disease and makes a review, in order to provide reference for the early diagnosis and prevention of cerebral small vessel disease.
ABSTRACT
Objective:To observe the clinical effect of four-point fixation in patients with posterior chamber intraocular lens dislocation.Methods:A retrospective case series study was adopted.Sixteen patients (16 eyes) with posterior chamber intraocular lens dislocation who underwent suture suspension techniques with four-point fixation in Changzhou No.2 people's Hospital from January 2015 to January 2018 were enrolled.Postoperative effects were observed during follow-up, ranging from 6 to 13 months.The preoperative and 6-month postoperative uncorrected visual acuity (UCVA), best corrected visual acuity (BCVA), corneal endothelium cell count and astigmatism were measured and the differences were compared, and the relationships between total astigmatism and corneal astigmatism or intraocular lens induced astigmatism were analyzed, and the postoperative position of intraocular lens and complications were observed.This study adhered to the Declaration of Helsinki.The study protocol was approved by an Ethics Committee of Changzhou No.2 People's Hospital (No.2015-C-012-01).Written informed consent was obtained from each patient before surgery.Results:The mean preoperative UCVA (LogMAR) and BCVA (LogMAR) were 1.09±0.24 and 0.48±0.20, respectively, which were significantly improved to 0.30±0.12 and 0.26±0.13 at 6 months after operation, respectively.And the differences were statistically significant ( t=11.782, 3.795; both at P<0.01).The preoperative and 6-month postoperative corneal endothelium cell count were (2 270±360)/mm 2 and (2 032±327)/mm 2, respectively, and the difference was not significant ( t=1.921, P=0.074).The 6-month postoperative mean total astigmatism, corneal astigmatism and intraocular lens induced astigmatism were (-1.47±0.82)D, (-1.34±0.61)D and (-0.22±0.35)D, respectively.There was a highly positive correlation between total astigmatism and corneal astigmatism ( r=0.885, P<0.05), but there was no significant correlation between total astigmatism and intraocular lens induced astigmatism ( r=-0.432, P=0.095).No dislocation, deviation or torsion of intraocular lens were observed during the follow-up.Varying degree of symptoms of iridocyclitis were observed during early stage after operation, which disappeared after treatment.There were two cases of high intraocular pressure, which were normal after treatment.No retinal detachment, choroidal detachment, expulsive suprachoroidal hemorrhage, endophthalmitis, corneal endothelial decompensation or other complications occurred during and after operation. Conclusions:There is a stable position of intraocular lens, good visual acuity and few complications after four-point fixation with suture and suspension, which is a feasible method to treat dislocated intraocular lens.
ABSTRACT
A human fundus transverse microscopic imaging system based on a MEMS deformable membrane mirror was developed. A 37 element small MEMS deformable membrane mirror was used as wave front corrector in this system. Wavefront errors were measured by a Hartman-Shack wave front sensor which contains 127 micro lens lets. After the wavefront error of human eye had been corrected by the deformable membrane mirror under the control of a computer, the imaging illumination light was triggered by a electronic shutter to illuminate the retina, the images were captured by a CCD camera. It has been showed in model eye's test that the system could measure and correct the eye's wavefront aberration efficiently. The fundus image achieved the diffraction limit after aberration correction. It was showed in clinic that except a few patients with turbid eye, most patients could finish the process of measuring and correcting wavefront aberration and then taking fundus image. The examination process could be finished safely, quickly and reliably.