scholarly journals 875 Use of Oriented Priors Through Magnetic Tractography (MAGNET) In Deliniation Of Meyer's Loop and Correlation with Visual Field Deficit In Temporal Lobe Epilepsy (TLE) Surgery: A Pilot Study

2021 ◽  
Vol 108 (Supplement_2) ◽  
Author(s):  
S Bhatia ◽  
D Shastin ◽  
C Tax ◽  
G Parker ◽  
S Shwartz ◽  
...  
Keyword(s):  
Visual Field ◽  
Diffusion Mri ◽  
Visual Field Defects ◽  
Visual Deficit ◽  
Visual Field Deficit ◽  
Complex Anatomy ◽  
Neurosurgical Planning ◽  
Visual Field Deficits ◽  
Meyer’S Loop ◽  
T2 Mri

Abstract Introduction Pre-operative white matter tract reconstruction of the Meyer’s loop (ML) of the optic radiation using diffusion MRI (tractography) can be used to prevent post-operative visual-field deficit. Due to its complex anatomy, precise reconstruction of the ML is challenging and often underestimated. Previous work has suggested that an innovative tractography technique using oriented priors called MAGNET better approximates reconstruction to reported histological prosections. This proof-of-context study validates the MAGNET methodology in predicting visual-field deficits in patients undergoing TLE surgery. Method Diffusion MRI datasets were used to reconstruct pre-operative ML using MAGNET in five patients. These were overlaid on post-operative T2-MRI series demonstrating the surgically resected area to measure overlap between resection and reconstructed ML. A correlation with post-operative visual-field defects was established. Results There was no evidence of visual field deficit in the cases where there was no overlap between the reconstructed ML and the resected region. In the cases with overlap with reconstructed ML and resection, there was visual deficit found. There was no correlation between proportion of resected ML and visual deficit. Conclusions This pilot demonstrates that MAGNET accurately reconstructs ML in pre-surgical TLE cases compared to standard tractography techniques and can be used to augment neurosurgical planning and resection.

VISUAL FIELD DEFECTS IN SELECTIVE AMYGDALOHIPPOCAMPECTOMY FOR HIPPOCAMPAL SCLEROSIS

Neurosurgery ◽  
2008 ◽  
Vol 63 (3) ◽  
pp. 507-515 ◽  
Author(s):  
S. Naz Yeni ◽  
Necmettin Tanriover ◽  
Özlem Uyanik ◽  
Mustafa Onur Ulu ◽  
Çiğdem Özkara ◽  
...  
Keyword(s):  
Visual Field ◽  
Temporal Lobe Epilepsy ◽  
Temporal Lobe ◽  
Epilepsy Surgery ◽  
Hippocampal Sclerosis ◽  
Visual Field Defects ◽  
Selective Amygdalohippocampectomy ◽  
Temporal Horn ◽  
Visual Field Deficits ◽  
Meyer’S Loop

ABSTRACT OBJECTIVE Meyer's loop, the most vulnerable part of the optic radiations during approaches to the temporomedial region, extends to the tip of the temporal horn and is often encountered in epilepsy surgery. The risk of damaging Meyer's loop during transsylvian selective amygdalohippocampectomy peaks while accessing the temporal horn through its roof by opening the inferior limiting sulcus of the insula. In this prospective study, we sought to evaluate and identify the incidence of visual field deficits in a homogeneous group of patients who had temporal lobe epilepsy with hippocampal sclerosis and who underwent transsylvian selective amygdalohippocampectomy. METHODS We studied 30 patients who were referred for epilepsy surgery for intractable complex partial and/or secondary generalized seizures and evaluated according to a noninvasive protocol. All patients underwent selective amygdalohippocampectomy for temporal lobe epilepsy with hippocampal sclerosis using the standard transsylvian approach. Visual field deficits were examined preoperatively in 30 patients, by either a confrontation method (n = 18) or standard Goldmann perimetry (n = 12) and postoperatively in all patients using standard Humphrey digital perimetry. RESULTS Visual field examination was normal in all patients before surgery. Humphrey perimetric measurement revealed visual field deficits in 11 patients (36.6%) after surgery. CONCLUSION We have shown that there is a considerable risk of having visual field deficits after standard transsylvian selective amygdalohippocampectomy owing to the interruption of the anterior bundle of the optic radiation fibers, which most likely occurs while opening the temporal horn through the inferior limiting sulcus of the insula.

Visual and sensorimotor cortices mapping during awake resection of lesion on the right periatrium: a case report on brainwaves and their peculiar patterns

2014 ◽  
Vol 2 (1-4) ◽  
Author(s):  
Zamzuri Idris ◽  
Ch’ng Chee How ◽  
Jafri Malin Abdullah
Keyword(s):  
Visual Field ◽  
Brain Mapping ◽  
New Technologies ◽  
Visual Stimulation ◽  
Brain Atlas ◽  
Brain Functions ◽  
Eloquent Areas ◽  
Neurosurgical Planning ◽  
Visual Field Deficits ◽  
Visual Evoked

AbstractAdvances in neurosurgery have allowed for more sophisticated mapping of various eloquent neural structures including the visual cortex. Applications of various modalities of new technologies allow accurate brain mapping for neurosurgical planning and preservation of functions in patients with lesions involving the eloquent cortex. The authors demonstrate the use of various new technologies for accurate presurgical planning, preservation of brain functions, and depiction of patterns of cortical brainwaves, which relate to motor networks and continuous visual stimuli.A patient with a right periatrial lesion involving the optic radiation with no visual field deficits was operated under an awake state and under continuous contralateral electrocorticography and visual monitoring. Presurgically, extra-operative brain mapping for visual-, sensory-, and motor-evoked magnetic fields were completed using magnetoencephalography (MEG). The dipole areas were identified, and the images were fused with a 116-region cortical brain atlas. The ideal trajectory was planned based on these images and diffusion tensor imaging (tractography). The trans-sulcal approachA good agreement for eloquent areas was identified based on extra-operative MEG and intra-operative neurostimulation mappings. The patient had no new neurological or visual-field deficits after the surgery. Certain patterns of brainwaves for motor cortex and visual stimulation were obtained: (a) spikes at the contralateral sensorimotor area when the motor strip was stimulated and (b) up-down and dense-loose continuous visual-evoked brainwaves at the occipital pole toward flashing checkerboard visual stimulation.A combination of extra- and intra-operative brain mappings should ideally be done in patients harboring lesions near eloquent areas. The continuous visual-evoked potential monitoring, using a grid electrode and flashing checkerboard and contralateral sensorimotor responses, observed in our case is interesting and needs further studies.

scholarly journals Defining Meyer's loop-temporal lobe resections, visual field deficits and diffusion tensor tractography

Brain ◽  
2009 ◽  
Vol 132 (6) ◽  
pp. 1656-1668 ◽  
Author(s):  
M. Yogarajah ◽  
N. K. Focke ◽  
S. Bonelli ◽  
M. Cercignani ◽  
J. Acheson ◽  
...  
Keyword(s):  
Visual Field ◽  
Temporal Lobe ◽  
Diffusion Tensor ◽  
Diffusion Tensor Tractography ◽  
Visual Field Deficits ◽  
Meyer’S Loop ◽  
And Diffusion

Visual field constriction in children with shunt-treated hydrocephalus

2010 ◽  
Vol 6 (5) ◽  
pp. 481-485 ◽  
Author(s):  
Diana Rudolph ◽  
Ina Sterker ◽  
Gerd Graefe ◽  
Holger Till ◽  
Anett Ulrich ◽  
...  
Keyword(s):  
Visual Field ◽  
Visual Field Defects ◽  
Special Focus ◽  
Ophthalmological Examination ◽  
Visual Field Examination ◽  
Kinetic Perimetry ◽  
Visual Field Deficits ◽  
Normal Visual Field ◽  
Field Defects ◽  
Visual Field Constriction

Object Many ophthalmological abnormalities are described in conjunction with hydrocephalus. The results of visual field diagnosis remain a matter of further discussion. The aim of this study was to investigate visual field deficits in children with shunt-treated hydrocephalus. Methods All children over 6 years of age treated for hydrocephalus at the authors' institute between December 2007 and December 2008 were included in the study. The children underwent an ophthalmological investigation for strabismus and binocular function, ophthalmoscopy, visual acuity, and refraction. The special focus was the visual field diagnosis, which the authors established in all children with cognitive conditions. The investigation was made by using the Goldmann visual field examination (kinetic perimetry). Children with and without visual field defects were compared concerning age at the time of ophthalmological examination, genesis of hydrocephalus, and frontooccipital horn ratio measured on current CT or MR images. Results Complete investigations were undertaken in 56 children (24 girls and 32 boys, mean age 15.1 years). The following orthoptic pathological entities were diagnosed: 29 children have a strabismus in 29 cases, 17 of these have an exotropia, 12 an esotropia, 4 children a hypotropia, 2 a hypertropia and 3 children a heterophoria. A nystagmus was found in 10 children. The ocular fundus investigation showed 13 children with an optic nerve atrophy. A visual field diagnosis was possible in 44 of the 56 patients and was incomplete in 12 patients with cognitive deficits or inadequate compliance. In 24 of 42 children there was a concentric visual field constriction between 10° and 50° out of the center. Children with visual field deficits were older than those with a normal visual field (p = 0.051). Nine of 10 children with postmenigitic hydrocephalus had a visual field defect (p = 0.025). In children with visual field defects the frontooccipital horn ratio was significantly higher (p = 0.013). Conclusions The results suggest that children with shunt-treated hydrocephalus have a higher risk of having ophthalmological abnormalities. Visual field deficits are often a problem in these patients. A diagnostic visual field examination can complete the ophthalmological monitoring in patients with hydrocephalus, especially in patients with large ventricles. Children with postmeningitic hydrocephalus should be ophthalmologically monitored more frequently and intensively.

scholarly journals Central Visual Field Defects in Patients with Distinct Glaucomatous Optic Disc Phenotypes

2021 ◽  
Vol 223 ◽  
pp. 229-240
Author(s):  
Eren Ekici ◽  
Sasan Moghimi ◽  
Huiyuan Hou ◽  
James Proudfoot ◽  
Linda M. Zangwill ◽  
...  
Keyword(s):  
Visual Field ◽  
Optic Disc ◽  
Visual Field Defects ◽  
Central Visual Field ◽  
Field Defects
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