正常嗅觉障碍和嗅觉障碍受试者嗅觉皮质的功能性光学血流动力学成像。

Eiji Kobayashi, Masayuki Karaki, Takashi Kusaka, Ryuichi Kobayashi, Susumu Itoh, Nozomu Mori
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引用次数: 11

摘要

结论:这些激活区可能与眶额皮质有关,与嗅觉皮质相对应。本研究表明,多通道近红外光谱(NIRS)可以通过嗅觉刺激来评估正常嗅觉障碍和嗅觉障碍受试者的大脑活动。目的:客观嗅觉检测并不常见。近红外光谱已经被用于研究大脑不同区域的功能激活,但我们想用多通道近红外光谱(MNIRS)来研究正常嗅觉障碍受试者和嗅觉障碍受试者大脑嗅觉活动的差异。对象和方法:本研究对8例正常嗅觉障碍患者和5例嗅觉障碍患者进行研究。我们采用了一个22通道近红外光谱装置,由8根入射光纤和7根探测光纤组成,每根光纤在额头上的光电间距为2.5 cm。用异戊酸作为气味刺激剂。我们测量了基线前血红蛋白浓度[oxyHb]、脱氧血红蛋白浓度[deoxyHb]和总血红蛋白浓度[totalHb]的变化。此外,我们将额叶皮层分为四个区域(右上、左上、右下、左下),并测量每个区域的活动。然后比较正常嗅觉障碍组和嗅觉障碍组各区域[oxyHb]、[deoxyHb]、[totalHb]的变化。结果:在所有正常嗅觉障碍的受试者中,异戊酸引起了显著的变化,特别是在额叶皮层的下部区域。然而,在所有的嗅觉障碍受试者中,异戊酸没有引起任何变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Functional optical hemodynamic imaging of the olfactory cortex in normosmia subjects and dysosmia subjects.

Conclusion: These activated areas may be related to the orbitofrontal cortex, corresponding to olfactory cortices. This study shows that multichannel near-infrared spectroscopy (NIRS) enables the evaluation of brain activity of normosmia subjects and dysosmia subjects by olfactory stimulation.

Objective: Objective olfactory testing is not common. NIRS has beenused before to study functional activations in various areas of the brain, but we wanted to investigate the difference in brain olfactory activity in normosmia subjects and dysosmia subjects using multi-channel NIRS (MNIRS).

Subjects and methods: This study was conducted on eight normosmia subjects and five dysosmia subjects. We employed a 22-channel near-infrared spectroscopy device with eight light incident fibers and seven light detector fibers, each with an inter-optode distance of 2.5 cm on the frontal head. Isovaleric acid was used as the odor stimulant. We measured the change in oxyhemoglobin concentrations [oxyHb], deoxyhemoglobin concentrations [deoxyHb], and total hemoglobin concentrations [totalHb] from pre-baseline values. Furthermore, we divided the frontal cortex into four areas (right upper, left upper, right lower, left lower) and measured the activity in each area. Then, the changes in [oxyHb], [deoxyHb], and [totalHb] of normosmia subjects and dysosmia subjects were compared in each area.

Results: In all normosmia subjects, isovaleric acid caused remarkable changes, especially in the lower areas of the frontal cortex. However, in all dysosmia subjects, isovaleric acid caused no changes.

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