Associations of Gray Matter Volume and Perceived Intensity of Bitter Taste: a Voxel-Based Morphometry Study

IF 1 4区医学 Q4 Neuroscience

Chemosensory Perception Pub Date : 2019-10-17 DOI:10.1007/s12078-019-09272-w

Andy Wai Kan Yeung

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Abstract

Two recent brain morphological studies reported inconsistent results on the neuroanatomical correlates of taste intensity rating among healthy populations. The current study re-visited this issue with a large and more homogeneous sample size. It was hypothesized that the orbitofrontal cortex, the sole region commonly reported by the two studies together with olfactory studies, had its gray matter volume (GMV) correlated to taste intensity rating.

The open data from the Human Connectome Project (HCP, S1200 release dataset) was used. Data from 213 subjects were analyzed. They were aged 22–25, completed 3-Tesla structural brain scan, and were asked to taste a bitter solution (0.001 M quinine) and rate the perceived intensity with a general Labelled Magnitude Scale. The age-adjusted taste intensity rating was used for the current analysis. Voxel-based morphometry (VBM) using CAT12 toolbox implemented in SPM12 was conducted with the default procedures and settings. Whole brain analysis was performed at a threshold of cluster p < 0.05, familywise error corrected (FWE), with a primary cluster-forming threshold of uncorrected voxel p < 0.001.

Voxel-wise GMV was significantly correlated to taste intensity rating in the right angular gyrus. OFC was insignificant even with a more liberal threshold of uncorrected voxel p < 0.001.

The current results were again different from previously published reports. This might be due to heterogeneous population, data processing, and analytical methods.

At the current stage, the morphometric finding from brain imaging is not yet a simple and reliable biomarker for assessing taste intensity perception.

Abstract Image

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灰质体积与苦味感知强度的关联:基于体素的形态学研究

最近的两项脑形态学研究报告了健康人群中味觉强度等级的神经解剖学相关性的不一致结果。目前的研究用更大、更均匀的样本量重新审视了这个问题。据推测，眼窝额叶皮层是这两项研究和嗅觉研究共同报道的唯一区域，其灰质体积(GMV)与味觉强度评级相关。使用来自人类连接体项目(HCP, S1200发布数据集)的开放数据。分析了213名受试者的数据。他们年龄在22-25岁之间，完成了3特斯拉的脑部结构扫描，并被要求品尝一种苦味溶液(0.001 M奎宁)，并用一般标记数量级量表对感知到的强度进行评分。目前的分析采用了年龄调整后的味道强度评级。使用SPM12中实现的CAT12工具箱进行基于体素的形态测量(VBM)，使用默认程序和设置。全脑分析在聚类p <的阈值处进行;0.05，家庭误差校正(FWE)，主要聚类形成阈值为未校正体素p <0.001.体素GMV与右角回味觉强度等级显著相关。即使使用更宽松的未校正体素p <阈值，OFC也不显著;0.001.目前的结果再次不同于以前发表的报告。这可能是由于异质人口、数据处理和分析方法造成的。在目前阶段，脑成像的形态计量学发现还不是评估味觉强度感知的简单可靠的生物标志物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemosensory Perception 农林科学-神经科学

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： Coverage in Chemosensory Perception includes animal work with implications for human phenomena and explores the following areas: Identification of chemicals producing sensory response; Identification of sensory response associated with chemicals; Human in vivo response to chemical stimuli; Human in vitro response to chemical stimuli; Neuroimaging of chemosensory function; Neurological processing of chemoreception; Chemoreception mechanisms; Psychophysics of chemoperception; Trigeminal function; Multisensory perception; Contextual effect on chemoperception; Behavioral response to chemical stimuli; Physiological factors affecting and contributing to chemoperception; Flavor and hedonics; Memory and chemoperception.