Influences of food hardness on the particle size distribution of food boluses

Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion. Swallowing is routine to most health individuals, but it could be highly hazardous to many elderly and dysphagia patients. In order to provide prop...

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Published in	Archives of oral biology Vol. 58; no. 3; pp. 293 - 298
Main Authors	Chen, Jianshe, Khandelwal, Niharika, Liu, Zhenyu, Funami, Takahiro
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.03.2013
Subjects	Advanced Basic Science Arachis Bolus particle size Bolus swallowing Cheese Daucus carota Deglutition - physiology Dentistry Food Food bolus Food hardness Food, Preserved Hardness Humans Image Processing, Computer-Assisted Mastication - physiology Nuts Particle Size Photography Prunus Food hardness Bolus swallowing Food bolus Bolus particle size
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ISSN	0003-9969 1879-1506 1879-1506
DOI	10.1016/j.archoralbio.2012.10.014

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Abstract	Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion. Swallowing is routine to most health individuals, but it could be highly hazardous to many elderly and dysphagia patients. In order to provide proper food for safe consumption by these disadvantaged populations, a fundamental understanding of how bolus swallowing is triggered and is based on what criteria is urgently needed. Main objective of this work was to understand the physical properties of food boluses, in particular the bolus particle size distribution in relation to the hardness of the food. Food samples were chewed in free style by subjects and boluses were expectorated when subjects felt they were ready to be swallowed. Altogether seven different types of food were used and 10 health subjects participated in this study. Bolus particles were carefully washed and spread out on a flat surface. Images of bolus particles were taken using a digital camera and analysed using Image Pro Plus software for particle size quantification. Food hardness was measured using a Texture Analyser by a puncture test. It was observed that bolus particle size decreased with the increase of food hardness. The correlation between the two properties can be described by a power-law relationship. This relationship was also found applicable to literature results reported by Peyron et al. and Jalabert-Malbos et al. Food hardness has a direct influence on its bolus particle size. The harder the food, the smaller the bolus particle size.
AbstractList	Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion. Swallowing is routine to most health individuals, but it could be highly hazardous to many elderly and dysphagia patients. In order to provide proper food for safe consumption by these disadvantaged populations, a fundamental understanding of how bolus swallowing is triggered and is based on what criteria is urgently needed. Main objective of this work was to understand the physical properties of food boluses, in particular the bolus particle size distribution in relation to the hardness of the food. Food samples were chewed in free style by subjects and boluses were expectorated when subjects felt they were ready to be swallowed. Altogether seven different types of food were used and 10 health subjects participated in this study. Bolus particles were carefully washed and spread out on a flat surface. Images of bolus particles were taken using a digital camera and analysed using Image Pro Plus software for particle size quantification. Food hardness was measured using a Texture Analyser by a puncture test. It was observed that bolus particle size decreased with the increase of food hardness. The correlation between the two properties can be described by a power-law relationship. This relationship was also found applicable to literature results reported by Peyron et al. and Jalabert-Malbos et al. Food hardness has a direct influence on its bolus particle size. The harder the food, the smaller the bolus particle size. Abstract Objectives Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion. Swallowing is routine to most health individuals, but it could be highly hazardous to many elderly and dysphagia patients. In order to provide proper food for safe consumption by these disadvantaged populations, a fundamental understanding of how bolus swallowing is triggered and is based on what criteria is urgently needed. Main objective of this work was to understand the physical properties of food boluses, in particular the bolus particle size distribution in relation to the hardness of the food. Methods Food samples were chewed in free style by subjects and boluses were expectorated when subjects felt they were ready to be swallowed. Altogether seven different types of food were used and 10 health subjects participated in this study. Bolus particles were carefully washed and spread out on a flat surface. Images of bolus particles were taken using a digital camera and analysed using Image Pro Plus software for particle size quantification. Food hardness was measured using a Texture Analyser by a puncture test. Results It was observed that bolus particle size decreased with the increase of food hardness. The correlation between the two properties can be described by a power-law relationship. This relationship was also found applicable to literature results reported by Peyron et al. and Jalabert-Malbos et al. Conclusions Food hardness has a direct influence on its bolus particle size. The harder the food, the smaller the bolus particle size. Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion. Swallowing is routine to most health individuals, but it could be highly hazardous to many elderly and dysphagia patients. In order to provide proper food for safe consumption by these disadvantaged populations, a fundamental understanding of how bolus swallowing is triggered and is based on what criteria is urgently needed. Main objective of this work was to understand the physical properties of food boluses, in particular the bolus particle size distribution in relation to the hardness of the food.OBJECTIVESBolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion. Swallowing is routine to most health individuals, but it could be highly hazardous to many elderly and dysphagia patients. In order to provide proper food for safe consumption by these disadvantaged populations, a fundamental understanding of how bolus swallowing is triggered and is based on what criteria is urgently needed. Main objective of this work was to understand the physical properties of food boluses, in particular the bolus particle size distribution in relation to the hardness of the food.Food samples were chewed in free style by subjects and boluses were expectorated when subjects felt they were ready to be swallowed. Altogether seven different types of food were used and 10 health subjects participated in this study. Bolus particles were carefully washed and spread out on a flat surface. Images of bolus particles were taken using a digital camera and analysed using Image Pro Plus software for particle size quantification. Food hardness was measured using a Texture Analyser by a puncture test.METHODSFood samples were chewed in free style by subjects and boluses were expectorated when subjects felt they were ready to be swallowed. Altogether seven different types of food were used and 10 health subjects participated in this study. Bolus particles were carefully washed and spread out on a flat surface. Images of bolus particles were taken using a digital camera and analysed using Image Pro Plus software for particle size quantification. Food hardness was measured using a Texture Analyser by a puncture test.It was observed that bolus particle size decreased with the increase of food hardness. The correlation between the two properties can be described by a power-law relationship. This relationship was also found applicable to literature results reported by Peyron et al. and Jalabert-Malbos et al.RESULTSIt was observed that bolus particle size decreased with the increase of food hardness. The correlation between the two properties can be described by a power-law relationship. This relationship was also found applicable to literature results reported by Peyron et al. and Jalabert-Malbos et al.Food hardness has a direct influence on its bolus particle size. The harder the food, the smaller the bolus particle size.CONCLUSIONSFood hardness has a direct influence on its bolus particle size. The harder the food, the smaller the bolus particle size.
Author	Funami, Takahiro Liu, Zhenyu Khandelwal, Niharika Chen, Jianshe
Author_xml	– sequence: 1 givenname: Jianshe surname: Chen fullname: Chen, Jianshe email: j.chen@food.leeds.ac.uk organization: School of Food Science and Nutrition, University of Leeds, Leeds LS2 9JT, UK – sequence: 2 givenname: Niharika surname: Khandelwal fullname: Khandelwal, Niharika organization: School of Food Science and Nutrition, University of Leeds, Leeds LS2 9JT, UK – sequence: 3 givenname: Zhenyu surname: Liu fullname: Liu, Zhenyu organization: School of Food Science and Nutrition, University of Leeds, Leeds LS2 9JT, UK – sequence: 4 givenname: Takahiro surname: Funami fullname: Funami, Takahiro organization: Sen-Ei Gen F.F.I. Inc, Sanwa-Cho, Toyonaka, Osaka 561-8588, Japan
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Keywords	Food hardness Bolus swallowing Food bolus Bolus particle size
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Snippet	Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for further digestion.... Abstract Objectives Bolus swallowing or deglutition is a vital oral action which transports orally processed food from the oral cavity to the stomach for...
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SubjectTerms	Advanced Basic Science Arachis Bolus particle size Bolus swallowing Cheese Daucus carota Deglutition - physiology Dentistry Food Food bolus Food hardness Food, Preserved Hardness Humans Image Processing, Computer-Assisted Mastication - physiology Nuts Particle Size Photography Prunus
Title	Influences of food hardness on the particle size distribution of food boluses
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