Effect of tongue-hold swallow on posterior pharyngeal wall using dynamic area detector computed tomography

Keiko Aihara; Yoko Inamoto; Daisuke Kanamori; Marlís González-Fernández; Seiko Shibata; Hitoshi Kagaya; Satoshi Hirano; Hiroko Kobayashi; Naoko Fujii; Eiichi Saitoh

doi:10.1111/joor.13246

Effect of tongue-hold swallow on posterior pharyngeal wall using dynamic area detector computed tomography

Keiko Aihara, Yoko Inamoto, Daisuke Kanamori, Marlís González-Fernández, Seiko Shibata, Hitoshi Kagaya, Satoshi Hirano, Hiroko Kobayashi, Naoko Fujii, Eiichi Saitoh

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Purpose: The purpose of this study was to elucidate the effects of the tongue-hold swallow (THS) on the pharyngeal wall by quantifying posterior pharyngeal wall (PPW) anterior bulge during the THS. In addition, the effect of tongue protrusion length on the extent of pharyngeal wall anterior bulge was analysed. Methods: Thirteen healthy subjects (6 males and 7 females, 23–43 years) underwent 320-row area detector CT during saliva swallow (SS) and THS at two tongue protrusion lengths (THS1 protrude the tongue as much as 1/3 of premeasured maximum tongue protrusion length (MTP-L) and THS2 protrude the tongue as much as 2/3 of MTP-L). To acquire images of the pharynx at rest, single-phase volume scanning was performed three times during usual breathing with no tongue protrusion (rest), protrusion of the tongue at 1/3 of MTP-L (rTHS1) and protrusion of the tongue at 2/3 of MTP-L (rTHS2). Length from cervical spine to PPW (PPW-AP) and the volume of pharyngeal cavity was measured and was compared between rest, rTHS1 and rTHS2 and between SS, THS1 and THS2. Correlation between MTP-L and PPW-AP was calculated in three conditions, SS, THS1 and THS2. Results: PPW-AP at rest, rTHS1 and rTHS2 was 2.9 ± 0.6 mm, 3.0 ± 0.5 mm and 3.0 ± 0.5 mm, respectively, showing no significant differences across swallows. PPW-AP at the maximum pharyngeal constriction was 8.1 ± 2.0 mm, 9.1 ± 2.4 mm and 8.7 ± 2.0 mm in SS, THS1 and THS2, respectively. Compared to SS, PPW-AP in THS1 was significantly larger (p = 0.04) and PPW-AP in THS2 was not significantly different (p = 0.09). Pharyngeal volume at rest, rTHS1 and rTHS2 was 16.4 ± 5.2 mm³, 18.4 ± 4.5 mm³ and 21.3 ± 6.2 mm³, respectively. It was significantly larger during rTHS2 compared with rest or rTHS1 (rTHS2-rest p = 0.007, rTHS2-rTHS1 p = 0.007). Pharyngeal volume was completely obliterated (zero volume) at maximum pharyngeal contraction in all except one subject. There was no correlation between MTP-L and PPW-AP in any of the three conditions (SS, THS1 and THS2). Discussion: This study demonstrated that the expanded pharyngeal cavity due to the tongue protrusion was completely obliterated by the increase in anterior motion of pharyngeal wall during THS. It also became clear that the degree of tongue protrusion did not linearly correlate with the movement of PPW during THS. There was no relationship between PPW motion and the MTP-L, suggesting that the effect of tongue protrusion is better determined in each subject by analysing the motion of PPW using imaging tools.

Original language	English (US)
Pages (from-to)	1235-1242
Number of pages	8
Journal	Journal of Oral Rehabilitation
Volume	48
Issue number	11
DOIs	https://doi.org/10.1111/joor.13246
State	Published - Nov 2021

Keywords

dysphagia
multidetector computed tomography
pharynx
swallowing
tongue
tongue-hold swallow

ASJC Scopus subject areas

General Dentistry

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10.1111/joor.13246

Cite this

@article{2364a603199d450ba4dbe5727aa691c9,

title = "Effect of tongue-hold swallow on posterior pharyngeal wall using dynamic area detector computed tomography",

abstract = "Purpose: The purpose of this study was to elucidate the effects of the tongue-hold swallow (THS) on the pharyngeal wall by quantifying posterior pharyngeal wall (PPW) anterior bulge during the THS. In addition, the effect of tongue protrusion length on the extent of pharyngeal wall anterior bulge was analysed. Methods: Thirteen healthy subjects (6 males and 7 females, 23–43 years) underwent 320-row area detector CT during saliva swallow (SS) and THS at two tongue protrusion lengths (THS1 protrude the tongue as much as 1/3 of premeasured maximum tongue protrusion length (MTP-L) and THS2 protrude the tongue as much as 2/3 of MTP-L). To acquire images of the pharynx at rest, single-phase volume scanning was performed three times during usual breathing with no tongue protrusion (rest), protrusion of the tongue at 1/3 of MTP-L (rTHS1) and protrusion of the tongue at 2/3 of MTP-L (rTHS2). Length from cervical spine to PPW (PPW-AP) and the volume of pharyngeal cavity was measured and was compared between rest, rTHS1 and rTHS2 and between SS, THS1 and THS2. Correlation between MTP-L and PPW-AP was calculated in three conditions, SS, THS1 and THS2. Results: PPW-AP at rest, rTHS1 and rTHS2 was 2.9 ± 0.6 mm, 3.0 ± 0.5 mm and 3.0 ± 0.5 mm, respectively, showing no significant differences across swallows. PPW-AP at the maximum pharyngeal constriction was 8.1 ± 2.0 mm, 9.1 ± 2.4 mm and 8.7 ± 2.0 mm in SS, THS1 and THS2, respectively. Compared to SS, PPW-AP in THS1 was significantly larger (p = 0.04) and PPW-AP in THS2 was not significantly different (p = 0.09). Pharyngeal volume at rest, rTHS1 and rTHS2 was 16.4 ± 5.2 mm3, 18.4 ± 4.5 mm3 and 21.3 ± 6.2 mm3, respectively. It was significantly larger during rTHS2 compared with rest or rTHS1 (rTHS2-rest p = 0.007, rTHS2-rTHS1 p = 0.007). Pharyngeal volume was completely obliterated (zero volume) at maximum pharyngeal contraction in all except one subject. There was no correlation between MTP-L and PPW-AP in any of the three conditions (SS, THS1 and THS2). Discussion: This study demonstrated that the expanded pharyngeal cavity due to the tongue protrusion was completely obliterated by the increase in anterior motion of pharyngeal wall during THS. It also became clear that the degree of tongue protrusion did not linearly correlate with the movement of PPW during THS. There was no relationship between PPW motion and the MTP-L, suggesting that the effect of tongue protrusion is better determined in each subject by analysing the motion of PPW using imaging tools.",

keywords = "dysphagia, multidetector computed tomography, pharynx, swallowing, tongue, tongue-hold swallow",

author = "Keiko Aihara and Yoko Inamoto and Daisuke Kanamori and Marl{\'i}s Gonz{\'a}lez-Fern{\'a}ndez and Seiko Shibata and Hitoshi Kagaya and Satoshi Hirano and Hiroko Kobayashi and Naoko Fujii and Eiichi Saitoh",

note = "Funding Information: This research was partially supported by JSPS KAKENHI (No. 20K23299). The authors sincerely thank the members of the Department of Radiology, Fujita Health University Hospital for their assistance and suggestions. Funding Information: This research was partially supported by JSPS KAKENHI (No. 20K23299). The authors sincerely thank the members of the Department of Radiology, Fujita Health University Hospital for their assistance and suggestions. Publisher Copyright: {\textcopyright} 2021 The Authors. Journal of Oral Rehabilitation published by John Wiley & Sons Ltd.",

year = "2021",

month = nov,

doi = "10.1111/joor.13246",

language = "English (US)",

volume = "48",

pages = "1235--1242",

journal = "Journal of Oral Rehabilitation",

issn = "0305-182X",

publisher = "Wiley-Blackwell",

number = "11",

}

TY - JOUR

T1 - Effect of tongue-hold swallow on posterior pharyngeal wall using dynamic area detector computed tomography

AU - Aihara, Keiko

AU - Inamoto, Yoko

AU - Kanamori, Daisuke

AU - González-Fernández, Marlís

AU - Shibata, Seiko

AU - Kagaya, Hitoshi

AU - Hirano, Satoshi

AU - Kobayashi, Hiroko

AU - Fujii, Naoko

AU - Saitoh, Eiichi

N1 - Funding Information: This research was partially supported by JSPS KAKENHI (No. 20K23299). The authors sincerely thank the members of the Department of Radiology, Fujita Health University Hospital for their assistance and suggestions. Funding Information: This research was partially supported by JSPS KAKENHI (No. 20K23299). The authors sincerely thank the members of the Department of Radiology, Fujita Health University Hospital for their assistance and suggestions. Publisher Copyright: © 2021 The Authors. Journal of Oral Rehabilitation published by John Wiley & Sons Ltd.

PY - 2021/11

Y1 - 2021/11

N2 - Purpose: The purpose of this study was to elucidate the effects of the tongue-hold swallow (THS) on the pharyngeal wall by quantifying posterior pharyngeal wall (PPW) anterior bulge during the THS. In addition, the effect of tongue protrusion length on the extent of pharyngeal wall anterior bulge was analysed. Methods: Thirteen healthy subjects (6 males and 7 females, 23–43 years) underwent 320-row area detector CT during saliva swallow (SS) and THS at two tongue protrusion lengths (THS1 protrude the tongue as much as 1/3 of premeasured maximum tongue protrusion length (MTP-L) and THS2 protrude the tongue as much as 2/3 of MTP-L). To acquire images of the pharynx at rest, single-phase volume scanning was performed three times during usual breathing with no tongue protrusion (rest), protrusion of the tongue at 1/3 of MTP-L (rTHS1) and protrusion of the tongue at 2/3 of MTP-L (rTHS2). Length from cervical spine to PPW (PPW-AP) and the volume of pharyngeal cavity was measured and was compared between rest, rTHS1 and rTHS2 and between SS, THS1 and THS2. Correlation between MTP-L and PPW-AP was calculated in three conditions, SS, THS1 and THS2. Results: PPW-AP at rest, rTHS1 and rTHS2 was 2.9 ± 0.6 mm, 3.0 ± 0.5 mm and 3.0 ± 0.5 mm, respectively, showing no significant differences across swallows. PPW-AP at the maximum pharyngeal constriction was 8.1 ± 2.0 mm, 9.1 ± 2.4 mm and 8.7 ± 2.0 mm in SS, THS1 and THS2, respectively. Compared to SS, PPW-AP in THS1 was significantly larger (p = 0.04) and PPW-AP in THS2 was not significantly different (p = 0.09). Pharyngeal volume at rest, rTHS1 and rTHS2 was 16.4 ± 5.2 mm3, 18.4 ± 4.5 mm3 and 21.3 ± 6.2 mm3, respectively. It was significantly larger during rTHS2 compared with rest or rTHS1 (rTHS2-rest p = 0.007, rTHS2-rTHS1 p = 0.007). Pharyngeal volume was completely obliterated (zero volume) at maximum pharyngeal contraction in all except one subject. There was no correlation between MTP-L and PPW-AP in any of the three conditions (SS, THS1 and THS2). Discussion: This study demonstrated that the expanded pharyngeal cavity due to the tongue protrusion was completely obliterated by the increase in anterior motion of pharyngeal wall during THS. It also became clear that the degree of tongue protrusion did not linearly correlate with the movement of PPW during THS. There was no relationship between PPW motion and the MTP-L, suggesting that the effect of tongue protrusion is better determined in each subject by analysing the motion of PPW using imaging tools.

AB - Purpose: The purpose of this study was to elucidate the effects of the tongue-hold swallow (THS) on the pharyngeal wall by quantifying posterior pharyngeal wall (PPW) anterior bulge during the THS. In addition, the effect of tongue protrusion length on the extent of pharyngeal wall anterior bulge was analysed. Methods: Thirteen healthy subjects (6 males and 7 females, 23–43 years) underwent 320-row area detector CT during saliva swallow (SS) and THS at two tongue protrusion lengths (THS1 protrude the tongue as much as 1/3 of premeasured maximum tongue protrusion length (MTP-L) and THS2 protrude the tongue as much as 2/3 of MTP-L). To acquire images of the pharynx at rest, single-phase volume scanning was performed three times during usual breathing with no tongue protrusion (rest), protrusion of the tongue at 1/3 of MTP-L (rTHS1) and protrusion of the tongue at 2/3 of MTP-L (rTHS2). Length from cervical spine to PPW (PPW-AP) and the volume of pharyngeal cavity was measured and was compared between rest, rTHS1 and rTHS2 and between SS, THS1 and THS2. Correlation between MTP-L and PPW-AP was calculated in three conditions, SS, THS1 and THS2. Results: PPW-AP at rest, rTHS1 and rTHS2 was 2.9 ± 0.6 mm, 3.0 ± 0.5 mm and 3.0 ± 0.5 mm, respectively, showing no significant differences across swallows. PPW-AP at the maximum pharyngeal constriction was 8.1 ± 2.0 mm, 9.1 ± 2.4 mm and 8.7 ± 2.0 mm in SS, THS1 and THS2, respectively. Compared to SS, PPW-AP in THS1 was significantly larger (p = 0.04) and PPW-AP in THS2 was not significantly different (p = 0.09). Pharyngeal volume at rest, rTHS1 and rTHS2 was 16.4 ± 5.2 mm3, 18.4 ± 4.5 mm3 and 21.3 ± 6.2 mm3, respectively. It was significantly larger during rTHS2 compared with rest or rTHS1 (rTHS2-rest p = 0.007, rTHS2-rTHS1 p = 0.007). Pharyngeal volume was completely obliterated (zero volume) at maximum pharyngeal contraction in all except one subject. There was no correlation between MTP-L and PPW-AP in any of the three conditions (SS, THS1 and THS2). Discussion: This study demonstrated that the expanded pharyngeal cavity due to the tongue protrusion was completely obliterated by the increase in anterior motion of pharyngeal wall during THS. It also became clear that the degree of tongue protrusion did not linearly correlate with the movement of PPW during THS. There was no relationship between PPW motion and the MTP-L, suggesting that the effect of tongue protrusion is better determined in each subject by analysing the motion of PPW using imaging tools.

KW - dysphagia

KW - multidetector computed tomography

KW - pharynx

KW - swallowing

KW - tongue

KW - tongue-hold swallow

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Effect of tongue-hold swallow on posterior pharyngeal wall using dynamic area detector computed tomography

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Keywords

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