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Age‐ and position‐dependent effects of monaural acoustic deprivation in nucleus magnocellularis of the chicken
Author(s) -
Conlee John W.,
Parks Thomas N.
Publication year - 1981
Publication title -
journal of comparative neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.855
H-Index - 209
eISSN - 1096-9861
pISSN - 0021-9967
DOI - 10.1002/cne.902020307
Subject(s) - monaural , biology , anatomy , nissl body , nucleus , hatching , quartile , audiology , neuroscience , medicine , zoology , staining , confidence interval , genetics
Abstract The effect of a moderately severe monaural conductive hearing loss on the development of neuronal size in the avian nucleus magnocellularis (NM) was investigated. NM is considered to be the homologue of the mammalian anteroventral cochlear nucleus and receives large calyceal synaptic endings from the cochlear nerve. Silicone plastic earplugs which produce a 40 dB broadband conductive hearing loss were placed in one external auditory canal of chick embryos on the 18th day of incubation. After hatching, all animals were housed in communal brooders and sacrificed at 4, 10, 25, and 60 days of age. Nissl‐stained sections from paraffin‐ and plastic‐embedded brains were used to sample neuronal cross‐sectional areas in NM on the deprived and nondeprived sides of the brain. These samples were obtained separately in each brain from three posterior‐to‐anterior percentage quartiles within NM. Statistical analyses of these data showed that the severity of deprivation‐induced cell size changes in NM varied as a function of both age and position. In the 4‐ and 10‐day groups, no significant deprived‐versus‐nondeprived differences in neuronal size were seen in any area of the nucleus. At 25 days after hatching, only the third posterior‐to‐anterior quartile (i.e., 50–74%) showed a significant difference; this difference was also significantly greater than those in the second and fourth quartiles at this age. By 60 days, all three sampled areas in NM showed highly significant differences (averaging 12%) in mean neuronal cross‐sectional area. Cell size values from the deprived and nondeprived sides of 60‐day‐old experimental animals were also compared with values from 60‐day‐old control subjects. Whereas the deprived NM cells were significantly smaller than controls, there was no evidence for a reliable hypertrophy in the nondeprived cells. Thus, the principal effect of the acoustic deprivation produced was to retard continued growth of the deprived neurons after 4 days of age.

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