Osamu Noi scite author profile

To understand the characteristics of oxygen transport to the inner ear, the relationship between arterial O2 saturation and cochlear microcirculation was investigated under different respiratory condition in guinea pigs. To monitor arterial O2 saturation a pulse oxymeter instead of an arterial blood gas analyzer was used. When the arterial O2 saturation was measured in the foot pad by a pulse oxymeter under different respiratory conditions, the data showed a close correlation with the results of blood gas analysis. For the measurement of cochlear microcirculation, a pulse oxymeter was found to be a feasible respiratory monitor for animal experiments. With this apparatus our study demonstrated a slower reaction in the decrease of perilymphatic oxygen tension than of cochlear blood flow during stepwise induction of hypoventilation monitored by a pulse oxymeter. Under certain conditions of hyperventilation in which arterial O2 saturation and perilymphatic oxygen tension increased gradually, cochlear blood flow was found to decrease. This decrease of cochlear blood flow could be attributed to chemical controls which are regulated, as in the cerebral blood circulation, by the content of CO2 and H+ in the vascular bed in the cochlea.

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Relationship between cochlear blood flow and perilymphatic oxygen tension

Kawakami

Makimoto

Noi

et al. 1991

Eur Arch Otorhinolaryngol

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To clarify the characteristics of the blood circulation in the cochlea, we correlated cochlear blood flow and perilymphatic oxygen tension at various blood pressures. Cochlear blood flow was measured in guinea pigs by laser Doppler flowmetry, and perilymphatic oxygen tension by polarography. Blood pressure changes were induced by angiotensin II injection, trimetaphan camsylate injection and blood withdrawal. Cochlear blood flow generally paralleled systemic blood pressure, indicating a close correlation. In contrast, perilymphatic oxygen tension was slower to increase and decrease. However, when systemic blood pressure was lowered more gradually, perilymphatic oxygen tension did not show the same lag. These findings indicate that perilymphatic oxygen tension parallels systemic blood pressure when changes induced are slower and in a physiological range.

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Effects of Prostaglandins on Perilymphatic Oxygenation: Enhancement of Cochlear Autoregulation by Prostacyclin

Nagahara

Aoyama

Fukuse

et al. 1988

Acta Oto-Laryngologica

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Osamu Noi

Effects of nitric oxide synthase inhibitor on cochlear blood flow

Comparative effects of glycerol and Urografin on cochlear blood flow and serum osmolarity

Feasibility of Pulse Oxymetry to Measure Arterial O₂Saturation in Studies on Cochlear Blood Circulation

Relationship between cochlear blood flow and perilymphatic oxygen tension

Effects of Prostaglandins on Perilymphatic Oxygenation: Enhancement of Cochlear Autoregulation by Prostacyclin

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Osamu Noi

Effects of nitric oxide synthase inhibitor on cochlear blood flow

Comparative effects of glycerol and Urografin on cochlear blood flow and serum osmolarity

Feasibility of Pulse Oxymetry to Measure Arterial O2Saturation in Studies on Cochlear Blood Circulation

Relationship between cochlear blood flow and perilymphatic oxygen tension

Effects of Prostaglandins on Perilymphatic Oxygenation: Enhancement of Cochlear Autoregulation by Prostacyclin

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Feasibility of Pulse Oxymetry to Measure Arterial O₂Saturation in Studies on Cochlear Blood Circulation