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Signal Changes in Hippocampal Subfields during Controlled Breathing Patterns by Using Functional MRI
박찬아,양승배,이경진,이영배,김행근,강창기 한국물리학회 2019 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.74 No.7
The purpose of this study was to investigate the functional properties of each hippocampal subfield and determine its association with decreased working memory due to abnormal breathing. Eleven healthy volunteers participated in this study and performed a breathing task in magnetic resonance imaging (MRI). To quantify the effects of various breathing patterns on the hippocampus, we segmented its subfields and then applied them to the functional MRI (fMRI) data to measure the signal change according to the respiration pattern. The results indicated that mouth breathing (mouth inhalation and exhalation) had the biggest effect on signal change. Of all subfields studied, the hippocampal head showed the greatest change. These findings imply that mouth breathing can significantly induce blood oxygenation level-dependent (BOLD) signal change in the hippocampus; especially, the hippocampal head is the most susceptible to breathing alterations, suggesting that it could be strongly associated with poor working memory in habitual mouth-breathers.
Sensing the Effects of Mouth Breathing by Using 3-Tesla MRI
박찬아,강창기 한국물리학회 2017 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.70 No.12
We investigated the effects of mouth breathing and typical nasal breathing on brain function by using blood-oxygenation-level-dependent (BOLD) functional magnetic resonance imaging (fMRI). The study had two parts: the first test was a simple contrast between mouth and nasal breathing, and the second test involved combined breathing modes, e.g., mouth inspiration and nasal expiration. Eleven healthy participants performed the combined breathing task while undergoing 3T fMRI. In the group-level analysis, contrast images acquired by using an individual participantlevel analysis were processed using the one-sample t test. We also conducted a region-of-interest analysis comparing signal intensity changes between the breathing modes; the region was selected using an automated anatomical labeling map. The results demonstrated that the BOLD signal in the hippocampus and brainstem was significantly decreased in mouth breathing relative to nasal breathing. On the other hand, both the precentral and postcentral gyri showed activation that was more significant in mouth breathing compared to nasal breathing. This study suggests that the BOLD activity patterns between mouth and nasal breathing may be induced differently, especially in the hippocampus, which could provide clues to explain the effects on brain cognitive function due to mouth breathing.