The purpose of this study is to describe the motions of the tongue and jaw during feeding. Prior studies of mastication in man have focused on the motions of the teeth and jaws, but the role of the tongue in food transport and positioning and the oral stage of swallowing have been neglected. Motions of the jaw, tongue, and palate have characteristic patterns in macaque and lower mammals, which vary with the consistency of the food. Our preliminary studies show similar patterns in man. We will expand our current studies by determining the spatial and temporal relationships between tongue and jaw motion cycles, and how these motions are influenced by the initial food consistency and stage in sequence (from ingestion to terminal swallow). We will use videofluorography in the lateral and postero-anterior projections to study forty normal subjects eating soft and hard solid foods. Small radiopaque markers will be glued to the surface of the tongue to demonstrate its motions. Twenty subjects will have midline tongue markers and twenty will have triangulated markers. For half the subjects in each group, food will be combined with barium to reveal its movement relative to oral and pharyngeal structures. The progression of the bolus through the foodway and the overall movement patterns of the jaw, hyoid bone, and tongue will be evaluated by reviewing the videotapes in slow motion. Selected sequences will be digitized with image processing software and the Cartesian coordinates for the jaw, hyoid bone, and tongue, jaw reference points established. Computer graphics will be used to display motion of these structures over time. Data analysis will establish the spatial and temporal relationships of the jaw, tongue, and hyoid bone, and how these are influenced by both initial food consistency and stage (from ingestion to terminal swallow). Movements of the tongue in the coronal plane will be analyzed as a measure of tongue rotation during chewing. Descriptive and analytical statistics will be used to develop a multivariate model for tongue-jaw behavior and to examine current models for neural control of mastication and swallowing. This knowledge is essential to understanding the motor control for mastication and swallowing and will ultimately lead to progress in the evaluation and treatment of dysphagic individuals.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC002123-03
Application #
2700942
Study Section
Sensory Disorders and Language Study Section (CMS)
Project Start
1996-05-01
Project End
1999-06-30
Budget Start
1998-05-01
Budget End
1999-06-30
Support Year
3
Fiscal Year
1998
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
045911138
City
Baltimore
State
MD
Country
United States
Zip Code
21218
Hiraoka, Takashi; Palmer, Jeffrey B; Brodsky, Martin B et al. (2017) Food transit duration is associated with the number of stage II transport cycles when eating solid food. Arch Oral Biol 81:186-191
Matsuo, Koichiro; Palmer, Jeffrey B (2016) Video fluoroscopic techniques for the study of Oral Food Processing. Curr Opin Food Sci 9:1-10
Inokuchi, Haruhi; González-Fernández, Marlís; Matsuo, Koichiro et al. (2016) Electromyography of Swallowing with Fine Wire Intramuscular Electrodes in Healthy Human: Amplitude Difference of Selected Hyoid Muscles. Dysphagia 31:33-40
Matsuo, Koichiro; Palmer, Jeffrey B (2015) Coordination of oro-pharyngeal food transport during chewing and respiratory phase. Physiol Behav 142:52-6
Inokuchi, Haruhi; Brodsky, Martin B; González-Fernández, Marlís et al. (2014) Frequency of stage II oral transport cycles in healthy human. Dysphagia 29:685-91
Mikushi, Shinya; Seki, Sosuke; Brodsky, Martin B et al. (2014) Stage I intraoral food transport: effects of food consistency and initial bolus size. Arch Oral Biol 59:379-85
Inokuchi, Haruhi; González-Fernández, Marlís; Matsuo, Koichiro et al. (2014) Electromyography of swallowing with fine wire intramuscular electrodes in healthy human: activation sequence of selected hyoid muscles. Dysphagia 29:713-21
Taniguchi, Hiroshige; Matsuo, Koichiro; Okazaki, Hideto et al. (2013) Fluoroscopic evaluation of tongue and jaw movements during mastication in healthy humans. Dysphagia 28:419-27
Matsuo, Koichiro; Palmer, Jeffrey B (2010) Kinematic linkage of the tongue, jaw, and hyoid during eating and speech. Arch Oral Biol 55:325-31
Matsuo, K; Metani, H; Mays, K A et al. (2010) Effects of respiration on soft palate movement in feeding. J Dent Res 89:1401-6

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