Plasticity and Stability of the Visual System in Human Achiasma

The absence of the optic chiasm is an extraordinary and extreme abnormality in the nervous system. The abnormality produces highly atypical functional responses in the cortex, including overlapping hemifield representations and bilateral population receptive fields in both striate and extrastriate visual cortex. Even in the presence of these large functional abnormalities, the effect on visual perception and daily life is not easily detected. Here, we demonstrate that in two achiasmic humans the gross topography of the geniculostriate and occipital callosal connections remains largely unaltered. We conclude that visual function is preserved by reorganization of intracortical connections instead of large-scale reorganizations of the visual cortex. Thus, developmental mechanisms of local wiring within cortical maps compensate for the improper gross wiring to preserve function in human achiasma.

[1]  Guillermo Sapiro,et al.  Creating connected representations of cortical gray matter for functional MRI visualization , 1997, IEEE Transactions on Medical Imaging.

[2]  G. Glover,et al.  Self‐navigated spiral fMRI: Interleaved versus single‐shot , 1998, Magnetic resonance in medicine.

[3]  D. Heeger,et al.  Topographic maps of visual spatial attention in human parietal cortex. , 2005, Journal of neurophysiology.

[4]  Carlo Pierpaoli,et al.  Estimating intensity variance due to noise in registered images: Applications to diffusion tensor MRI , 2005, NeuroImage.

[5]  P Apkarian,et al.  A Unique Achiasmatic Anomaly Detected in Non‐albinos with Misrouted Retinal‐fugal Projections , 1994, The European journal of neuroscience.

[6]  G. Glover,et al.  Retinotopic organization in human visual cortex and the spatial precision of functional MRI. , 1997, Cerebral cortex.

[7]  Adrian T. Lee,et al.  fMRI of human visual cortex , 1994, Nature.

[8]  M. Feller,et al.  Mechanisms underlying development of visual maps and receptive fields. , 2008, Annual review of neuroscience.

[9]  R W Guillery,et al.  Abnormal central visual pathways in the brain of an albino green monkey (Cercopithecus aethiops) , 1984, The Journal of comparative neurology.

[10]  Michael B Hoffmann,et al.  Perceptual relevance of abnormal visual field representations: static visual field perimetry in human albinism , 2007, British Journal of Ophthalmology.

[11]  B. Wandell,et al.  Cortical Maps and White Matter Tracts following Long Period of Visual Deprivation and Retinal Image Restoration , 2010, Neuron.

[12]  Steen Moeller,et al.  T 1 weighted brain images at 7 Tesla unbiased for Proton Density, T 2 ⁎ contrast and RF coil receive B 1 sensitivity with simultaneous vessel visualization , 2009, NeuroImage.

[13]  M. Hoffmann,et al.  Self-organisation in the human visual system—Visuo-motor processing with congenitally abnormal V1 input , 2010, Neuropsychologia.

[14]  H Spekreijse,et al.  A decisive electrophysiological test for human albinism. , 1983, Electroencephalography and clinical neurophysiology.

[15]  Karl J. Friston,et al.  Rigid Body Registration , 2003 .

[16]  Tömme Noesselt,et al.  Endoscopic eye tracking system for fMRI , 2007, Journal of Neuroscience Methods.

[17]  Hao Huang,et al.  DTI tractography based parcellation of white matter: Application to the mid-sagittal morphology of corpus callosum , 2005, NeuroImage.

[18]  L. Bour,et al.  Non-decussating retinal-fugal fibre syndrome. An inborn achiasmatic malformation associated with visuotopic misrouting, visual evoked potential ipsilateral asymmetry and nystagmus. , 1995, Brain : a journal of neurology.

[19]  D G Pelli,et al.  The VideoToolbox software for visual psychophysics: transforming numbers into movies. , 1997, Spatial vision.

[20]  Herbert Jägle,et al.  Reorganization of human cortical maps caused by inherited photoreceptor abnormalities , 2002, Nature Neuroscience.

[21]  J W Belliveau,et al.  Borders of multiple visual areas in humans revealed by functional magnetic resonance imaging. , 1995, Science.

[22]  Mary M. Conte,et al.  Visual function and brain organization in non-decussating retinal-fugal fibre syndrome. , 2000, Cerebral cortex.

[23]  Anthony J. Sherbondy,et al.  Identifying the human optic radiation using diffusion imaging and fiber tractography. , 2008, Journal of vision.

[24]  Michael B Hoffmann,et al.  Organization of the Visual Cortex in Human Albinism , 2003, The Journal of Neuroscience.

[25]  P. Basser,et al.  Comprehensive approach for correction of motion and distortion in diffusion‐weighted MRI , 2004, Magnetic resonance in medicine.

[26]  M Zaitsev,et al.  Point spread function mapping with parallel imaging techniques and high acceleration factors: Fast, robust, and flexible method for echo‐planar imaging distortion correction , 2004, Magnetic resonance in medicine.

[27]  B. Wandell,et al.  Visual field maps, population receptive field sizes, and visual field coverage in the human MT+ complex. , 2009, Journal of neurophysiology.

[28]  Christopher D. Chambers,et al.  Cortical plasticity in the face of congenitally altered input into V1 , 2012, Cortex.

[29]  P. Basser Inferring microstructural features and the physiological state of tissues from diffusion‐weighted images , 1995, NMR in biomedicine.

[30]  F. Chavane,et al.  Imaging cortical correlates of illusion in early visual cortex , 2004, Nature.

[31]  Karl J. Friston,et al.  Generative and recognition models for neuroanatomy , 2004, NeuroImage.

[32]  D H Brainard,et al.  The Psychophysics Toolbox. , 1997, Spatial vision.

[33]  R. W. Guillery,et al.  Neural abnormalities of albinos , 1986, Trends in Neurosciences.

[34]  Carol A. Mason,et al.  Retinal axon growth at the optic chiasm: to cross or not to cross. , 2008, Annual review of neuroscience.

[35]  Philipp Berens,et al.  CircStat: AMATLABToolbox for Circular Statistics , 2009, Journal of Statistical Software.

[36]  Guy Marchal,et al.  Multimodality image registration by maximization of mutual information , 1997, IEEE Transactions on Medical Imaging.

[37]  Brian A. Wandell,et al.  Population receptive field estimates in human visual cortex , 2008, NeuroImage.

[38]  Serge O Dumoulin,et al.  Congenital achiasma and see-saw nystagmus in VACTERL syndrome. , 2010, Journal of neuro-ophthalmology : the official journal of the North American Neuro-Ophthalmology Society.

[39]  D J Heeger,et al.  Robust multiresolution alignment of MRI brain volumes , 2000, Magnetic resonance in medicine.

[40]  J. Victor,et al.  Population encoding of spatial frequency, orientation, and color in macaque V1. , 1994, Journal of neurophysiology.

[41]  P. Basser,et al.  Microstructural and physiological features of tissues elucidated by quantitative-diffusion-tensor MRI. , 1996, Journal of magnetic resonance. Series B.

[42]  E. DeYoe,et al.  Mapping striate and extrastriate visual areas in human cerebral cortex. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[43]  B. Wandell,et al.  Mapping Hv4 and Ventral Occipital Cortex: the Venous Eclipse , 2022 .

[44]  Oliver Speck,et al.  Retinotopic mapping of the human visual cortex at a magnetic field strength of 7T , 2009, Clinical Neurophysiology.

[45]  S. Dumoulin,et al.  The Relationship between Cortical Magnification Factor and Population Receptive Field Size in Human Visual Cortex: Constancies in Cortical Architecture , 2011, The Journal of Neuroscience.

[46]  Lars Muckli,et al.  Bilateral visual field maps in a patient with only one hemisphere , 2009, Proceedings of the National Academy of Sciences.

[47]  Nao Ninomiya,et al.  The 10th anniversary of journal of visualization , 2007, J. Vis..

[48]  B. Wandell,et al.  Visualization and Measurement of the Cortical Surface , 2000, Journal of Cognitive Neuroscience.

[49]  Robert W. Williams,et al.  Target recognition and visual maps in the thalamus of achiasmatic dogs , 1994, Nature.

[50]  G H Glover,et al.  Simple analytic spiral K‐space algorithm , 1999, Magnetic resonance in medicine.

[51]  Brian A Wandell,et al.  Temporal-callosal pathway diffusivity predicts phonological skills in children , 2007, Proceedings of the National Academy of Sciences.

[52]  B. Wandell,et al.  Visual Field Maps in Human Cortex , 2007, Neuron.

[53]  Anthony J. Sherbondy,et al.  ConTrack: finding the most likely pathways between brain regions using diffusion tractography. , 2008, Journal of vision.