Acta oto-laryngologica
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Acta oto-laryngologica · Jan 1999
Chronic electrical stimulation of the auditory nerve using non-charge-balanced stimuli.
This study was designed to evaluate the pathophysiological response of the cochlea following long-term intracochlear electrical stimulation using a poorly charge-balanced stimulus regime, leading to direct current (DC) levels >0.1 microA. Four normal-hearing adult cats were bilaterally implanted with scala tympani electrode arrays and unilaterally stimulated for periods up to 2200 h. Stimuli consisted of 50 micros monophasic current pulses presented at 2000 pulses per second (pps) per channel, and resulted in DC levels of 0.4-2.8 microA. ⋯ Histopathological evaluation of the cochleae revealed a highly significant reduction in ganglion cell density in stimulated cochleae compared with their controls. Spiral ganglion cell loss was significantly correlated with the degree of inflammation, duration of electrical stimulation, and the level of DC. In conclusion, the present study highlights the potential for neural damage following stimulation using poorly charge-balanced stimuli.
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Acta oto-laryngologica · Sep 1998
Blood transfusion requirements in otolaryngology--head and neck surgery.
Blood requirements for Head and Neck surgical procedures have not been studied carefully. In order to set up an autotransfusion program, the blood loss and transfusion requirements should be known precisely. ⋯ The transfusion requirements of Head and Neck surgical procedures could be safely met by an autotransfusion protocol, given the average delay of 3 weeks between diagnosis and surgery.
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Systemic gentamicin can cause acute bilateral, simultaneous, symmetrical loss of vestibular function manifested by symptoms and signs of chronic vestibular insufficiency (ataxia and oscillopsia). We report 6 patients presenting with ataxia and oscillopsia, but without a history of vertigo, who had severe unilateral loss of vestibular function on caloric testing. The absence of vertigo in these patients could be explained by two possible mechanisms: either, the unilateral loss of vestibular function was subacute, occurring over several days so that compensation could occur, or bilateral vestibular loss occurred which was then followed by asymmetrical recovery of vestibular function. The second hypothesis is supported by the observation that vestibular hair cells can regenerate after aminoglycoside damage.
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Acta oto-laryngologica · Jan 1998
Programmed cell death in the developing epithelium of the mouse inner ear.
Programmed cell death is as essential to development as is proliferation. Thus, the objective of this study was to elucidate the spatiotemporal involvement of programmed cell death in the development of the inner ear epithelia. Programmed cell death is seen in situ as apoptosis. ⋯ Apoptosis occurred during the early stages of development of the inner ear and took place earlier in the organs of equilibrium than in the cochlea. These periods corresponded to those of active proliferation of epithelial cells in the inner ear. Since cell-cell interactions change after the removal of neighboring cells by apoptosis, apoptosis may influence cytodifferentiation.
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Acta oto-laryngologica · May 1997
Acute study on the neuronal excitability of the cochlear nuclei of the guinea pig following electrical stimulation.
To help deaf patients who cannot benefit from the cochlear implant due to interruption of the auditory nerve, a central auditory prosthesis has been developed to directly stimulate the cochlear nucleus in the brainstem. The electrode array lies on the surface of the cochlear nucleus and is designed to stimulate at 250 pulses/sec. To examine the safety of this prosthesis, guinea pig cochlear nuclei were stimulated acutely with bipolar surface electrodes using charge-balanced biphasic current pulses at rates of 250, 500 or 1,000 pulses/s and charge intensities of 1.8, 2.8, 3.5 or 7.1 microC/phase cm(-2). ⋯ However, a slight temporary reduction in the amplitude of the EABR waves was observed at 30-60 min during the course of acute stimulation using the highest charge density (7.1 microC/phase cm(-2)). This reduction showed a stronger correlation with the stimulus current, charge/phase and charge density than threshold. The present findings suggest that acute bipolar electrical stimulation with surface electrodes at rates up to 1,000 pulses/s and charge density up to 7.1 microC/phase cm(-2) is safe for neuronal excitability of the cochlear nucleus in guinea pig.