Food transit duration is associated with the number of stage II transport cycles when eating solid food

Takashi Hiraoka; Jeffrey B. Palmer; Martin B. Brodsky; Mitsumasa Yoda; Haruhi Inokuchi; Akio Tsubahara

doi:10.1016/j.archoralbio.2017.05.013

journal article Sep 01, 2017

Food transit duration is associated with the number of stage II transport cycles when eating solid food

Takashi Hiraoka Jeffrey B. Palmer Martin B. Brodsky Mitsumasa Yoda Haruhi Inokuchi Akio Tsubahara

Archives of Oral Biology Vol. 81 pp. 186-191 · Elsevier BV

View at Publisher Save 10.1016/j.archoralbio.2017.05.013

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References

29

[1]

Daniels "The role of insular cortex in dysphagia" Dysphagia (1997) 10.1007/pl00009529

[2]

Dua "Coordination of deglutitive glottal function and pharyngeal bolus transit during normal eating" Gastroenterology (1997) 10.1016/s0016-5085(97)70221-x

[3]

Engelen "The influence of product and oral characteristics on swallowing" Archives of Oral Biology (2005) 10.1016/j.archoralbio.2005.01.004

[4]

Feinberg "Radiographic techniques and interpretation of abnormal swallowing in adults and elderly patients" Dysphagia (1993) 10.1007/bf01321779

[5]

The cortical topography of human swallowing musculature in health and disease

Shaheen Hamdy, Qasim Aziz, John C. Rothwell et al.

Nature Medicine 1996 10.1038/nm1196-1217

[6]

Hayashi "Biomechanics of human tongue movement during bolus compression and swallowing" Journal of Oral Science (2013) 10.2334/josnusd.55.191

[7]

Hiiemae "Natural bites, food consistency and feeding behavior in man" Archives of Oral Biology (1996) 10.1016/0003-9969(95)00112-3

[8]

Hiiemae "Food transport and bolus formation during complete feeding sequences on foods of different initial consistency" Dysphagia (1999) 10.1007/pl00009582

[9]

Hiiemae "Tongue movements in feeding" Critical Reviews in Oral Biology & Medicine (2003) 10.1177/154411130301400604

[10]

Inokuchi "Frequency of Stage II oral transport cycles in healthy human" Dysphagia (2014) 10.1007/s00455-014-9562-5

[11]

Brain Stem Control of Swallowing: Neuronal Network and Cellular Mechanisms

André Jean

Physiological Reviews 2001 10.1152/physrev.2001.81.2.929

[12]

Kahrilas "Upper esophageal sphincter function during deglutition" Gastroenterology (1988) 10.1016/0016-5085(88)90290-9

[13]

Cerebral cortical representation of reflexive and volitional swallowing in humans

Mark Kern, Safwan Jaradeh, Ronald C. Arndorfer et al.

American Journal of Physiology-Gastrointestinal an... 2001 10.1152/ajpgi.2001.280.3.g354

[14]

Linden "Bolus position at swallow onset in normal adults: Preliminary observation" Dysphagia (1989) 10.1007/bf02408037

[15]

Logemann (1998)

[16]

Malandraki "Neural activation of swallowing and swallowing-related tasks in healthy young adults: An attempt to separate the components of deglutition" Human Brain Mapping (2009) 10.1002/hbm.20743

[17]

Martin "Cerebral cortical processing of swallowing in older adults" Experimental Brain Research (2007) 10.1007/s00221-006-0592-6

[18]

Matsuo "Anatomy and physiology of feeding and swallowing: Normal and abnormal" Physical Medicine & Rehabilitation Clinics of North America (2008) 10.1016/j.pmr.2008.06.001

[19]

Mikushi "Stage I intraoral food transport: Effects of food consistency and initial bite size" Archives of Oral Biology (2014) 10.1016/j.archoralbio.2014.01.002

[20]

Mosier "Parallel cortical networks for volitional control of swallowing in humans" Experimental Brain Research (2001) 10.1007/s002210100813

[21]

Palmer "Integration of oral and pharyngeal bolus propulsion: A new model for the physiology of swallowing" Japanese Journal of Dysphagia Rehabilitation (1997)

[22]

Palmer "Bolus aggregation in the oropharynx does not depend on gravity" Archives of Physical Medicine & Rehabilitation (1998) 10.1016/s0003-9993(98)90046-6

[23]

Palmer "Volitional control of food transport and bolus formation during feeding" Physiology & Behavior (2007) 10.1016/j.physbeh.2007.01.018

[24]

Palmer "Coordination of mastication and swallowing" Dysphagia (1992) 10.1007/bf02493469

[25]

Peck "Cortical activation during swallowing rehabilitation maneuvers: A functional MRI study of healthy controls" Laryngoscope (2010) 10.1002/lary.21125

[26]

Saitoh "Chewing and food consistency: Effects on bolus transport and swallow initiation" Dysphagia (2007) 10.1007/s00455-006-9060-5

[27]

Steele "The influence of food texture and liquid consistency modification on swallowing physiology and function: A systematic review" Dysphagia (2015) 10.1007/s00455-014-9578-x

[28]

Taniguchi "Fluoroscopic evaluation of tongue and jaw movement during mastication in healthy humans" Dysphagia (2013) 10.1007/s00455-013-9453-1

[29]

Taniguchi "Correspondence between food consistency and suprahyoid muscle activity, tongue pressure, and bolus transit times during the oropharyngeal phase of swallowing" Journal of Applied Physiology (2008) 10.1152/japplphysiol.90485.2008

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References

Details

Published: Sep 01, 2017
Vol/Issue: 81
Pages: 186-191
License: View

Authors

Medical University of South Carolina and University of Pittsburgh

Cite This Article

Takashi Hiraoka, Jeffrey B. Palmer, Martin B. Brodsky, et al. (2017). Food transit duration is associated with the number of stage II transport cycles when eating solid food. Archives of Oral Biology, 81, 186-191. https://doi.org/10.1016/j.archoralbio.2017.05.013

Food transit duration is associated with the number of stage II transport cycles when eating solid food

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