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Afferent activity recorded during rotation from single fibres of the posterior nerve in the isolated frog labyrinth (1986)

Rossi, M. L. ; Martini, M.

Springer

Experimental brain research 62 (1986), S. 312-320

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ISSN: 1432-1106

Keywords: Isolated frog labyrinth ; Excitatory-inhibitory rotational stimuli ; First order canal neuron dynamics ; Non-linearities

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary EPSPs and spikes were recorded at rest and during rotation from single fibres of the posterior nerve in the isolated frog labyrinth. The spike discharge properties of 57 units were examined at rest and during repetitive acceleratory-velocity steps. Forty of these units were subjected to excitatory steps of 5–12 s duration and 45% displayed an evident discharge adaptation. In the non-adapting units, the excitatory response also deviated from that expected on the basis of the torsion-pendulum model and exhibited an exponential time-course in only 36% of the fibres examined. The time constant T2 of the response rising phase was significantly longer than that of the decay (2.5 s versus 1.7 s). When all the 57 units were considered, a linear behaviour was found in 67%. The average gain in these linear units was 1.9 ± 1.4 spikes · s−1/deg · s−2. Adaptive fibres exhibited a lower resting firing rate and a higher gain (3.8 spikes/s and 2.3 spikes · s−1/deg · s−2, respectively) when compared with the non-adapting ones (7.1 spikes/s and 1.5 spikes · s−1/deg · s−2). An undershoot was present in 57% of the units; it increased with acceleration and was not strictly related to adaptation. Fifteen of the 40 units tested with the 5–12 s duration excitatory steps survived repeated inhibitory accelerations of the same duration. In these units a marked response asymmetry was evident since their resting activity could be abolished by accelerations not larger than 10 deg/s2. In 40% of the units inhibited by acceleration the mean response was proportional to the stimulus logarithm, while the others saturated for weak stimulations. A consistent overshoot of the discharge was evident in most of the units (60%). Analysis of the EPSP emission rates demonstrates that even a 10–20% increase in their frequency during excitation results in a two-three fold increase in the corresponding spike frequency. Similarly, a decrease of 15–35% in their numbers during inhibition is sufficient to completely block the spike firing. These findings reveal the high sensitivity of the afferent synapse, spike discharge being modulated by slight modifications in the release of the excitatory transmitter.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238850

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Evaluation of neuronal loss, astrocytosis and abnormalities of cytoskeletal components of large motor neurons in the human anterior horn in aging (1998)

Cruz-Sánchez, F. F. ; Moral, A. ; Tolosa, E. ; [et al.]

Springer

Journal of neural transmission 105 (1998), S. 689-701

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ISSN: 1435-1463

Keywords: Keywords: Aging ; motor neuron ; cytoskeletal abnormalities ; amyotrophic lateral sclerosis.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary. In order to identify possible morphological changes which occur in the anterior horn of normal individuals during aging, 40 controls with no neurological disease were studied. Brain and spinal cord tissue was processed according to a brain banking protocol. Controls were grouped according to age in 10 year intervals. Serial sections (20 μm) of formalin fixed, paraffin-embedded tissue were obtained, from each cervical, thoracic and lumbar spinal cord segment. Every 5th section (until 2mm) was stained with haematoxylin and eosin and the numbers of motor neurons in the anterior horn counted at ×400 magnification. Descriptive statistical analysis was performed using the SPSS program. Parallel sections (5 μm) of the same spinal segments were immunostained with a panel of antibodies including glial fibrillary acidic protein (GFAP), tau, ubiquitin and two phosphorylated neurofilaments subunits. Significant neuronal loss with aging was found by regression line analysis where three equations were used to calculate the number of motor neurons by age in each spinal segment. In 24/40 cases spheroids were observed and they were more numerous in the lumbar segment. GFAP staining revealed a distinctive cellular pattern in the anterior horn of oldest cases. Large and intensely stained astrocytes were seen in the anterior horn of cases aged over 75 years. The number of astrocytes increased progressively with age up to 70 years. Some of the changes observed in the present study may be the result of a selective vulnerability of large motor neurons to aging which could play an important role in the progression of MND. Most of these changes may also have similar pathophysiological mechanisms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s007020050088

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