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1 acular dysfunction can be assessed using the multifocal electroretinogram.
2 esponse to pharmacological treatment through multifocal-electroretinogram.
3 etinogram amplitudes and implicit times, and multifocal electroretinogram amplitude distribution.
4 ss (CMT) by macular OCT, macular function by multifocal electroretinogram, and macular vascular densi
5                                              Multifocal electroretinogram can also help in early scre
6 ether neuroretinal function, measured by the multifocal electroretinogram, differs between males and
7                                              Multifocal electroretinogram (ERG) and full-field ERG te
8                                              Multifocal electroretinogram (ERG) and full-field ERG te
9                                              Multifocal electroretinogram (ERG) or VEP can provide an
10 showed severe central macular dysfunction on multifocal electroretinogram (ERG).
11                                Cone-mediated multifocal electroretinograms (M-ERGs), cone system thre
12  visual acuity (BCVA), foveal threshold, and multifocal electroretinogram (mfERG) amplitude and timin
13  glaucomatous visual field deficits; (4) The Multifocal Electroretinogram (mfERG) and the Multifocal
14 ggested that late components of the standard multifocal electroretinogram (mfERG) are preferentially
15                                          The multifocal electroretinogram (mfERG) can provide objecti
16 the relationship between DE development and: multifocal electroretinogram (mfERG) implicit time (IT)
17                            Local first-order multifocal electroretinogram (mfERG) implicit time (K1-I
18                                              Multifocal electroretinogram (mfERG) provides evidence o
19  To evaluate and compare three commonly used multifocal electroretinogram (mfERG) stimuli, as well as
20 ded clinical parameters of surgical success, multifocal electroretinogram (mfERG), and histopathologi
21  subjects without clinical retinopathy using multifocal electroretinogram (mfERG).
22  Review of charts, 10-2 visual fields (VFs), multifocal electroretinograms (mfERG), and spectral-doma
23 y (SD-OCT), functional recovery evidenced by multifocal-electroretinogram (mfERG) and microperimetry
24                                              Multifocal electroretinograms (mfERGs) and psychophysica
25                                              Multifocal electroretinograms (MfERGs) showed functional
26                                              Multifocal electroretinograms (mfERGs) were obtained fro
27                        Photopic and scotopic multifocal electroretinograms (mfERGs) were recorded.
28 es in retinal response dynamics derived from multifocal electroretinograms (mfERGs).
29 thresholds (visual fields) and cone-mediated multifocal electroretinograms (mfERGs).
30                                              Multifocal electroretinogram response did not improve, y
31 d the release of vitreo-macular traction and multifocal electroretinogram responses showed a signific
32                                   Slow-flash multifocal electroretinograms (sf-mfERGs) were recorded
33  Amplitudes of neurophysiological responses (multifocal electroretinogram) were decreased in all ecce
34 cit times and N1-P1 amplitudes from photopic multifocal electroretinograms within the central 45 degr