MASTICATION AND SWALLOWING: INFLUENCE OF FLUID ADDITION TO FOODS

Introduction: The production of sufficient saliva is indispensable for good chewing. Recent research has demonstrated that salivary flow rate has little influence on the swallowing threshold. Objectives: The hypothesis examined in the present study was that adding fluids to foods will influence chewing physiology. Materials and Methods: Twenty subjects chewed on melba toast, cake, carrot, peanut and Gouda cheese. They also chewed on these foods after addition of different volumes of water or α-amylase solution. Jaw muscle activity, number of chewing cycles until swallowing and chewing cycle duration were measured. Repeated measures analysis of variance was applied to test the null hypothesis that there would be no statistically significant difference among the results obtained for the various food types and fluids. Subsequently, contrasts were determined to study the levels of intra-subjects factors (food type and fluid volume). Linear regression was used to determine the changes in muscle activity and cycle duration as a function of the chewing cycles. Results: Fluid addition significantly decreased muscle activity and swallowing threshold for melba, cake and peanut (p<0.05). The effect of α-amylase in the solutions was similar to that of water (p>0.05). Doubling the volume of tap water had a greater effect. Conclusions: Fluid addition facilitated chewing of dry foods (melba, cake), but did not influence the chewing of fatty (cheese) and wet products (carrot). This study is relevant to improve patients’ life quality and the management of chewing and feeding disorders caused by hyposalivation.

[1]  A. Litman,et al.  Time sequence of the activity of the temporal and masseter muscles in healthy young human adults during habitual chewing of different test foods. , 1974, Archives of oral biology.

[2]  E. Dransfield,et al.  Influence of Bitter Taste on Mastication Pattern , 2005, Journal of dental research.

[3]  P. Lucas,et al.  An optimization model for mastication and swallowing in mammals , 1997, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[4]  P H Buschang,et al.  Normal masticatory performance in young adults and children. , 1996, Archives of oral biology.

[5]  L. Mioche,et al.  Texture analysis of beef cooked at various temperatures by mechanical measurements, sensory assessments and electromyography , 1995 .

[6]  D. Anderson,et al.  The possible relation between mastication and parotid secretion in the rabbit. , 1985, The Journal of physiology.

[7]  N. Fiehn,et al.  Streptococci and activities of sucrases and alpha-amylases in supragingival dental plaque and saliva in three caries activity groups. , 1986, Acta odontologica Scandinavica.

[8]  H. Hayasaki,et al.  The effects of bolus hardness on masticatory kinematics. , 2002, Journal of oral rehabilitation.

[9]  L. Tabak,et al.  Role of salivary mucins in the protection of the oral cavity. , 1982, Journal of oral pathology.

[10]  M. Hector Reflexes of Salivary Secretion , 1999 .

[11]  J. Ahlgren Mechanism of mastication , 1966 .

[12]  P. Lillford,et al.  THE PERCEPTION OF FOOD TEXTURE ‐ THE PHILOSOPHY OF THE BREAKDOWN PATH , 1988 .

[13]  F. Bosman,et al.  A comparison of the effects of added saliva, α-amylase and water on texture perception in semisolids , 2003, Physiology & Behavior.

[14]  P. Lucas,et al.  Swallow thresholds in human mastication. , 1995, Archives of oral biology.

[15]  R. Pangborn,et al.  Mastication and its influence on human salivary flow and alpha-amylase secretion , 1990, Physiology & Behavior.

[16]  L. Tabak,et al.  Artificial Salivas: Present and Future , 1987, Journal of dental research.

[17]  P. Bourdiol,et al.  Variations in human masseter and temporalis muscle activity related to food texture during free and side-imposed mastication. , 1999, Archives of oral biology.

[18]  C. Dawes,et al.  The effects of different foods and concentrations of citric acid on the flow rate of whole saliva in man. , 1988, Archives of oral biology.

[19]  J. Abbink,et al.  Swallowing threshold and masticatory performance in dentate adults , 2004, Physiology & Behavior.

[20]  W. A. van der Reijden,et al.  Shear rate dependent viscoelastic behavior of human glandular salivas. , 1993, Biorheology.

[21]  A. Bilt,et al.  Salivary secretion and chewing: stimulatory effects from artificial and natural foods. , 2004, Journal of applied oral science : revista FOB.

[22]  R. Pangborn,et al.  Salivary secretion in response to mastication of crisp bread , 1977 .

[23]  K. Kohyama,et al.  Effects of sample hardness on human chewing force: a model study using silicone rubber. , 2004, Archives of oral biology.

[24]  A. van der Bilt,et al.  Chewing behavior and salivary secretion. , 2004, European journal of oral sciences.

[25]  E. Dransfield,et al.  Variability of the masticatory process during chewing of elastic model foods. , 2000, European journal of oral sciences.

[26]  A. Pedersen,et al.  Saliva and gastrointestinal functions of taste, mastication, swallowing and digestion. , 2002, Oral diseases.

[27]  K. Hiiemae,et al.  Natural bites, food consistency and feeding behaviour in man. , 1996, Archives of oral biology.

[28]  J. R. Garrett,et al.  Neural Mechanisms of Salivary Gland Secretion , 1999 .

[29]  A. van der Bilt,et al.  The influence of product and oral characteristics on swallowing. , 2005, Archives of oral biology.