ObjectiveTo observe the positional relationship between the central fixation point of the retina and the fovea in normal adults.MethodsA retrospective clinical study. From August 2019 to January 2020, 100 eyes of 100 normal adults who underwent physical examination at the Fourth People's Hospital of Shenyang were included in the study. All patients underwent BCVA, diopter, microfield, OCT examination, and axial length (AL) measurement. There were 42 males and 58 females with the average age was 46.4±14.7 years. The average diopter was -1.02±1.99 D, the average AL was 23.22±0.47 mm, the average foveal avascular zone (FAZ) area was 0.38±0.13 mm2. The MP-3 microperimetry was used for central fixation examination. After the examination, high-definition fundus images were automatically taken and the central fixation point of the retina were automatically calculated by the equipment. The Nidek Overlay functional multi-mode imaging platform was used to superimpose the images containing the central fixation point of the retina and the macular fovea, the positional relationship between the two was observed, and the distance between the two was measured. Pearson correlation analysis was performed on the distance between the fixation point of the center of the retina and the center of the fovea, age, diopter, and FAZ area of the macula.ResultsThe fixation point of the retinal center of all tested eyes was within the range of the macular fovea, which did not coincide with the center of the macular fovea. Among 100 eyes, the fixation point of the center of the retina were 53, 23, 15, and 9 eyes at the nose, lower, temporal, and upper sides, respectively. The average distance between the fixation point of the center of the retina and the center of the fovea was 158.31±71.56 μm. The distance between the fixation point of the retinal center and the center of the macular fovea and age (r=0.140), diopter (r=-0.009), FAZ area ( r=0.038) were not correlated (P=0.165, 0.932, 0.707) in correlation analysis.ConclusionThe central fixation point of normal adult retina is more common on the fovea nasal side.
ObjectiveTo evaluate visual field changes in early mild Parkinson's disease. Methods A total of 66 eyes of 33 cases with early mild Parkinson's disease and 72 eyes of 36 age-matched normal individuals were enrolled into the study. Humphrey Field Analyzer II was applied for central visual field test. The visual field indices of mean deviation (MD) and pattern standard deviation (PSD) were analyzed to evaluate the location and the characteristics of visual field defect in this study. ResultsVisual field indices MD (-3.4±2.5) dB was significantly changed in patients with PD when compared to the controls (-0.6±1.7) dB. PSD (4.3±2.6) was significantly higher in patients with PD than that in the control group (2.1±1.8) dB. Glaucoma hemifield test (GHT) assessment was within normal limits in the controls. Of the 33 patients (66 eyes) in PD, GHT showed outside normal limits in 31 eyes, borderline in 8 eyes, and within normal limits in 27 eyes. 31 eyes outside normal limits appeared glaucomatous visual field defects, in which 16 with nasal step and 5 with arcuate defect. ConclusionsVisual field indices including MD and PSD in early mild patients with PD were significantly worse than that in the controls group. GHT abnormalities could be found in early mild PD patients with visual field defects, including pericentral scotoma and nasal step, which mimicked glaucomatous changes.
Objective To observe the microperimetry performance of macular function in pathologic myopia patients. Methods The clinical data of 90 patients (142 eyes) with pathologic myopia were retrospectively analyzed. All patients were asked in details about history, and take examinations of best corrected visual acuity (BCVA), refractive dioptre, eye axis, fluorescent fundus angiography (FFA), indirect ophthalmoscopy and optical coherence tomography (OCT). According to the test results, patients were divided into non-pathological macular group (20 patients, 24 eyes) and pathological macular group (70 patients, 118 eyes). Retinal imaging and macular microperimetry were measure by MP-1 Microperimeter.The mean retinal sensitivities (MS) and fixation stability in the central 10deg;, fixation rate and fixation position in the central 2deg; and 4deg;were determined.Results The MS of pathological and non-pathological macular group were(16.39plusmn;2.12), (10.80plusmn;4.53) dB respectively, the difference was statistically significant(F=15.044,t=-9.314;P=0.000). Among 24 eyes of non-pathological macular group, fixation was stable in 19 eyes (79.17%), relative unstable in five eyes (20.83%); among 118 eyes of pathological macular group, fixation was stable in 45 eyes (38.14%), relative unstable in 52 eyes (44.07%), unstable in 21 eyes (17.79%), the difference was statistically significant(chi;2=13.56, P=0.000). The differences of 2 deg;and 4 deg;fixation rate between those two groups are statistically significant (F=5.773, 13.230; t=-4.110,-5.465;P=0.000) . Among 24 eyes of non-pathological macular group, center fixation occurred in 23 eyes (95.83%), weak center fixation occurred in one eye (4.17%); among 118 eyes of pathological macular group, fixation center occurred in 81 eyes (68.64%), weak center fixation occurred in 16 eyes (13.56%),eccentric fixation occurred in 21 eyes (17.80%), the difference was statistically significant (F=9.618,t=-5.773;P=0.000).Conclusion Pathological myopia patients with pathological macular changes have decreased retinal sensitivity, decreased fixation stability and eccentric fixation points.
ObjectiveTo observe the changes in visual field defect before and after treatment in patients with acute solitary occipital lobe cerebral infarction.MethodsFrom January 2017 to May 2019, 59 patients with hemianopsia who were diagnosed as acute occipital lobe cerebral infarction in Henan Provincial People's Hospital were selected. There were 35 males (59.3%) and 24 females (40.7%); aged from 50 to 72 years, with an average age of 62.86 ± 6.10 years. There were 23 patients of right occipital cerebral infarction and 36 patients of left occipital cerebral infarction. Lesions involved 41 patients in the striated area, 8 patients involved the occipital pole, and 23 patients involved visual radiation. All patients underwent standard medical treatment. All patients underwent visual field examination before treatment, and modified rankin scale (mRS) was used to evaluate the level of visual disability after cerebral infarction. At 1, 3, and 6 months after treatment, 54 patients underwent at least one visual field examination in outpatient or inpatient follow-up visits, and 5 patients were lost to follow-up; 49 patients received repeated mRS scores. The visual field defect and mRS score of patients before and after treatment were compared and analyzed. The improvement of visual field defect in the horizontal direction exceeding 10°or the vertical direction exceeding 15°was defined as improvement, otherwise it was defined as no improvement. According to the type of visual field defect, the patients were divided into two groups: complete homonymous hemianopia and incomplete homonymous hemianopia. The cumulative visual field improvement rate of the two groups of patients was calculated. An mRS score of 0 to 2 was defined as a good prognosis, and >2 was defined as a poor prognosis.ResultsBefore treatment, of the 59 patients, 47 were complete homonymous hemianopsia and 12 were incomplete. Of the 47 patients with complete homonymous hemianopia, 26 patients had hemianopia on the right side of both eyes, 21 patients had hemianopia on the left side of both eyes; 32 patients with macular avoidance (72.3%). Among the 12 patients of incomplete homonymous hemianopia, 10 patients of quadrant blindness included 6 patients of upper quadrant and 4 patients of lower quadrant; 2 patients of partial isotropic hemianopia on one side. Of the 54 patients reviewed after treatment, the visual field improved at the last follow-up of 25 patients (46.3%), and there was no improvement in 29 patients (53.7%). The cumulative visual field improvement rate of 47 patients with complete hemianopia hemianopia before treatment was 37.2% (16/43). The cumulative visual field improvement rate of 11 patients with incomplete isotropic hemianopia before treatment was 81.8% (9/11). There was a statistically significant difference in cumulative visual field improvement between the two groups of patients (χ2 = 7.011, P<0.05). Before treatment, 59 patients had mRS scores of 1 to 2 points in 15 patients (25.4%), and 44 patients with 2 points or more (74.6%). Of the 49 patients reviewed after treatment, 28 (57.1%) had a good prognosis and 21 (42.9%) had a poor prognosis.ConclusionsThe visual field defect of patients with homonymous hemianopsia after acute occipital infarction may be improved after treatment. The improvement mostly occurs within 1 m after treatment, and patients with incomplete homonymous hemianopsia have more significant improvements than those with complete homonymous hemianopsia.
Objective To observe the clinical features and visual function of recurrent neuromyelitis optica (NMO). Methods Thirty-four patients with NMO were enrolled in this retrospective case series study. The patients included two males and 32 females. The average first onset age was (35.03plusmn;14.56) years old and the average recurrent rate were (4.24plusmn;2.45) times. The recurrent rate of optic neuritis (ON) ranged from two to 12 times. The recurrent rate of ON was two times in 15 eyes of 10 patients, ge;three times in 37 eyes of 24 patients. Vision acuity, direct ophthalmoscope, fundus pre-set lens examination, visual field and visual evoked potential (VEP) were evaluated. Clinical features were observed. The abnormal rate of optic nerve including optic edema and atrophy; abnormal rate of visual field including decreasing retinal sensitivity, central and paracentral scotoma, ring scotoma, half field defects, tunnel visual field, visual field centrality constriction; abnormal rate of VEP including Prolonged latent phase and/or decreasing amplitude of P100 wave from patients of first episode or recurrence was analyzed. Serum NMO-IgG was detected from 28 patients by indirect immunofluorescence technique to observe its positive rate. Results All patients were characterized by repeated episodes of ON and myelitis. The main clinical feature of ON was visual loss, and the main clinical features of myelitis included sensory disability, dyskinesia and vesicorectal disorder. Blindness rate was 41.67% after the first attack of ON, 33.33% after two relapses, and 64.86% after ge; three relapses. The difference of blindness rate between first attack and two episodes was not significant (chi;2=0.270,P=0.603). However, the blindness rate in patients having ge; three episodes was significantly higher than those having two episodes (chi;2=4.300,P=0.038). With recurrence rate increasing, the abnormal rate of the optic nerve (chi;2=6.750,P=0.034)and VEP(chi;2=6.990,P=0.030)increased. But the abnormal rate of visual field did not increase along with recurrent rate (chi;2=0.660,P=0.718). Seropositive rate of NMO-IgG did not differ significantly between patients with first attack ON and that with recurrent ON (chi;2=1.510,P=0.470). But the seropositive patients had significantly higher bilateral blindness rate than seronegative patients (chi;2=5.063,P=0.027). Conclusions NMO are characterized by recurrent ON and myelitis. Visual loss, sensory disability, dyskinesia and vesicorectal disorder are the main clinical features. With recurrence rate increasing, the blindness rate, abnormalities the optic nerve and the abnormity rate of VEP increase. Seropositive recurrent NMO patients have higher bilateral blindness rate than seronegative patients.
Objective To investigate the distribution properties of multifocal pattern visual evoked potential across visual field. Methods Multifocal pattern visual evoked potentials(VEP) of 14 normals were measured with VERIS ScienceTM4.0The visual stimuli were dart board 60 with patterns which consisted of 60 patches arranged in dart board configuration spanning a 26deg; vis ual field. The temporal modulation of each patch was controlled by a special type of pseudorandom sequence called binary m-sequence. The electrodes were placed at equal distances 2 cm inferior to and 2 cm superior to and straddling the inion. The first slice of the second order kernel for each stimulus patch was analysed. The 60 patches were grouped into several sectors. The summed responses of these sectors were analysed and compared. Results Compared with that of the lower hemifield , the polarity of the multifocal VEP of the upper hemifield was reverse, and the latency delayed, the response density decreased. With the eccentricity increased, the response density of the multifocal VEP decreased. The properties of the multifocal VEP of the horizontal sectors were different from that of the vertical sectors. Conclusion VEP of many locations within visual field could be recorded simultaneously in a short time with the method of mutifocal VEP. The multifocal VEP showed different properties in different sectors within visual field. (Chin J Ocul Fundus Dis, 2001,17:280-283)
Objective To investigate the correlation of microperimetric parameters, best-corrected visual acuity (BCVA) and central retinal thickness (CRT) in diabetic macular edema (DME) eyes. Methods It is a prospective, no controlled, open study. Twenty-four consecutive patients (40 eyes) with DME were included. There were 10 males (18 eyes),14 females (22 eyes); aged from 41 to 79 years, with the mean age of (56.84±8.96) years. All the patients were type 2 diabetes, the average duration of diabetes was 8 years. BCVA was evaluated using the international Snellen E vision test chart, and then recorded as logarithm of the minimum angle of resolution (logMAR). CRT was measured by Cirrus HD-OCT4000. MAIA microperimetric parameters were evaluated, including average threshold (AT) of retinal sensitivity, macular integrity index (MI), fixating points within a circle of 1° (P1) and 2° of radius (P2), bivariate contour ellipse area (BCEA) considering 63% and 95% of fixating points (A63,A95), and horizontal and vertical axes of that ellipse (H63,H95,V63,V95). Pearson correlation analysis was performed to evaluate the association between these variables. The independent factor influenced the type of fixation was analyzed by multiple linear regression analysis. Results Strong correlations of logMAR BCVA with CRT (r=0.58,P=0.000), V63 (r=0.44,P=0.004), V95 (r=0.41,P=0.008), MI (r=0.36,P=0.024), AT (r=?0.61,P=0.000), P1 (r=?0.41,P=0.009), P2 (r=?0.38,P=0.015) were found. AT was correlations with P1 (r=0.53,P=0.000), P2 (r=0.51,P=0.001), A63 (r=?0.39,P=0.012), A95 (r=?0.40,P=0.012), V63 (r=?0.53,P=0.000), V95 (r=?0.46,P=0.003), MI (r=?0.50,P=0.001). There was no correlation between AT and CRT (r=?0.21,P=0.190). Forty eyes were included in this study, 8 eyes (20%) had stable fixation,14 eyes (35%) had relatively unstable fixation,18 eyes (45%) had unstable fixation. Multiple linear regression analysis showed that fixation classification was independently affected by P1. Conclusions In DME eyes, logMAR BCVA was positively correlated with CRT, negatively correlated with AT, P1 and P2. There is no correlation between AT and CRT. The fixation classification was independently affected by P1.
Objective To study the visual field defects and its correlation factors in nonarteritic anterior ischemic optic neuropathy (NAION). Methods One hundred and thirty-nine patients of NAION with complete visual field examination results were included in this study. There were 65 males (46.7%)and 74 females (53.3%),with an average age of (56.2plusmn;10.8) years. All the patients had undergone the examinations of visual acuity,refraction,refractive media, slit lamp ophthalmoscope, color fundus photography, visual field, blood pressure, blood routine test and blood biochemistry test. Fundus fluorescein angiography (FFA) was carried out in 125 patients. The visual field characteristics and its correlation factors were statistically analyzed, and the FFA and visual field results of 77 eyes were comparatively analyzed. Results The visual field examination showed typical inferior defect in 48 eyes (34.5%), arcuate scotoma in 24 eyes (17.3%), atypical arcuate scotoma in 24 eyes (17.3%), defuse defect in 20 eyes (14.4%), superior defect in 10 eyes (7.2%), superior defect with inferior arcuate scotoma in five eyes (3.6%), inferior defect with superior arcuate scotoma in eight eyes (5.8%). The mean defect (MD)value ranged from -3.0 to -32.0,with an average of -17.9plusmn;7.9. Among 77 eyes with FFA data, the FFA and visual field defect area were highly consistent seven eyes (9.1%), consistent in 26 eyes (33.8%), some kind of consistent in 39 eyes (50.6%), completely inconsistent in five eyes (6.5%). Multiple lineal regression analysis showed that mean red cell volume (MCV) (beta;=0.203,t=2.005) and cholesterol level (CHOL) (beta;=0230,t=2.244) were correlation factors of MD (P<0.05). Conclusion The visual field defect of NAION shows a variety of patterns which may be mainly influenced by MCV and CHOL.
Microperimetry is a procedure to assess retinal sensitivity while fundus is examined directly. It is a psychophysical method which is rapid, safe and non-invasive. It combines analysis of function and morphology and has an eye tracking system that can improve the fixation stability of patient with eccentric fixation and fixation instable. Microperimetry is supplement to visual function, perimetry, and other visual function parameters. As deepening of research, its clinical application value in ocular fundus diseases including age-related macular degeneration, diabetic retinopathy, retinitis pigmentosa, Stargardt's disease, macular hole, rhegmatogenous retinal detachment and central serous chorioretinopathy needs to be further explored.
When macular diseases involves the fovea, patients' central vision is significantly reduced. A central dark spot appears in the visual field, and their visual function indicators, such as reading speed and fixation stability, are significantly impaired, which seriously affects the patients' quality of life. The human body's response to the damage of the fovea region is a spontaneous adaptation strategy adopted by the brain. The brain will select the paracentral region as the pseudo fovea to serve as the fixation site of the eye, however, the development of patient's own residual vision is not maximized by this adaptation behavior. In recent years, through continuous research, it has been discovered that the automatic eye position recognition and automatic eye tracking system in the microperimeter can accurately detect specific retinal sites, combined with the biofeedback training mode, and can combine fundus examination with biofeedback training. It can help patients with age-related macular degeneration, pathological myopia macular degeneration, Stargardt's disease, macular hole and other macular diseases to choose the best retinal site as an eye movement benchmark, maximize the patient's residual vision and improve the patient's visual function.