References
- Périer O. Altérations trans-synaptiques des corps genouillés externes humains dans la cécité unilatérale. Rev Belge Path Med Exper 1956; 25: 318–328
- Fukuda Y, Hsia C F. Bilateral changes in soma size of geniculate relay cells and corticogeniculate cells after neonatal monocular enucleation in rats. Brain Res 1984; 301: 13–23
- Ruben R J, Rapin I. Plasticity of the developing auditory system. Ann Otol 1980; 89: 303–311
- Born D E, Rubel E W. Afferent influences on brain stem auditory nuclei of the chicken: neuron number and size following cochlea removal. J Comp Neurol 1985; 231: 435–445
- Parks T N, Jackson H. A developmental gradient of dendritic loss in the avian cochlear nucleus occurring independently of primary afferents. J Comp Neurol 1984; 227: 459–466
- Powell T PS, Erulkar S D. Transneuronal cell degeneration in the auditory relay nuclei of the cat. J Anat 1962; 96: 249–268
- Ross M D. The auditory pathways of the epileptic waltzing mouse. II. Partially deaf mice. J Comp Neurol 1965; 125: 141–164
- Périer O, Alegria J, Buyse M, D'Alimonte G, Gilson D, Serniclaes W. Consequences of auditory deprivation in animals and humans. Acta Otolaryngol (Stockh) 1984, Suppl 411: 60–70
- Vrensen G, De Groot D. The effect of dark rearing and its recovery on synaptic terminals in the visual cortex of rabbits. A quantitative electron microscopic study. Brain Res 1974; 78: 263–278
- Muller L, Pattiselanno A, Vrensen G. The postnatal development of the presynaptic grid in the visual cortex of rabbits and the effect of dark-rearing. Brain Res 1981; 205: 39–48
- Gyllenstein L, Malmfors T, Norrlin M L. Growth alteration in the auditory cortex of visually deprived mice. J Comp Neurol 1965; 126: 463–470
- Webster D B, Webster M. Neonatal sound deprivation affects brain stem auditory nuclei. Arch Otolaryngol 1977; 103: 392–396
- Webster D B. Late onset of auditory deprivation does not affect brainstem auditory neuron some size. Hearing Res 1983; 12: 145–147
- Vrensen G, De Groot D. The effect of monocular deprivation on synaptic terminals in the visual cortex of rabbits. A quantitative electron microscopic study. Brain Res 1975; 93: 15–24
- Winfield D A. The postnatal development of synapses in the different laminae of the visual cortex in the normal kitten and in kittens with eyelid suture. Developmental Brain Res 1983; 9: 155–169
- Coleman J R, O'Connor P. Effects of monaural and binaural sound deprivation on cell development in the anteroventral cochlear nucleus of rats. Exp Neurol 1979; 64: 553–566
- Coleman J R, Blatchley B J, Williams J E. Development of the dorsal and ventral cochlear nuclei in rat and effects of acoustic deprivation. Developmental Brain Res 1982; 4: 119–123
- Feng A S, Rogowski B A. Effects of monaural and binaural occlusion on the morphology of neurons in the medial superior olivary nucleus of the rat. Brain Res 1980; 189: 530–535
- Conlee J W, Parks T N. Late appearance and deprivation-sensitive growth of permanent dendrites in the avian cochlear nucleus (Nuc. magnocellularis). J Comp Neurol 1983; 217: 216–226
- Smith Z DJ, Gray L, Rubel E W. Afferent influences on Brainstem auditory nuclei of the chicken: N. laminaris dendritic length following monaural conductive hearing loss. J Comp Neurol 1983; 220: 199–205
- Mazziotta J C, Phelps M E. Human sensory stimulation and deprivation: Positron emission tomographic results and strategies. Ann Neurol 1984; Vol. 15(Suppl)50–60
- Walsh R N. Effects of environmental complexity and deprivation on brain anatomy and histology: a review. Intern J Neurosci 1981; 12: 33–51
- Wesa J M, Chang F LF, Greenough W T, West R W. Synaptic contact curvature: effects of differential rearing on rat occipital cortex. Developmental Brain Res 1982; 4: 253–257
- Greenough W T, West R W, De Voogd T J. Subsynaptic plate perforations: changes with age and experience in the rat. Science 1978; 202: 1096–1098
- Greenough W T, Volkmar F R, Juraska J M. Effects of rearing complexity on dendritic branching in frontolateral and temporal cortex of the rat. Exper Neurol 1973; 41: 371–378
- Bock G R, Horner K, Steel K P. Electrical stimulation of the auditory system in animals profoundly dead from birth. Acta Otolaryngol (Stockh) 1985, Suppl 421: 108–113
- Deol M S, Kocher W. A new gene for deafness in the mouse. Heredity 1958; 12: 463–466
- Hinojosa R, Marion M. Histopathology of profound sensorineural deafness. Ann NY Acad Sci 1983; 405: 459–484
- Pujol R, Shnerson A, Lenoir M, Deol M S. Early degeneration of sensory and ganglion cells in the inner ear of mice with uncomplicated genetic deafness (dn). Hearing Research 1983; 12: 57–63
- Rebillard G, Carlier E, Rebillard M, Pujol R. Enhancement of visual responses on the primary auditory cortex of the cat after an early destruction of cochlear receptors. Brain Res 1977; 129: 162–164
- Rebillard G, Rebillard M, Pujol R. Factors affecting the recording of visual evoked potentials from the deaf cat primary cortex. Brain Res 1980; 188: 252–254