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Chewing

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A stump-tailed macaque using mastication to process tough plant matter

Chewing or mastication is the process by which food is crushed and ground by the teeth. It is the first step in the process of digestion, allowing a greater surface area for digestive enzymes to break down the foods.

During the mastication process, the food is positioned by the cheek and tongue between the teeth for grinding. The muscles of mastication move the jaws to bring the teeth into intermittent contact, repeatedly occluding and opening. As chewing continues, the food is made softer and warmer, and the enzymes in saliva begin to break down carbohydrates in the food. After chewing, the food (now called a bolus) is swallowed. It enters the esophagus and via peristalsis continues on to the stomach, where the next step of digestion occurs.[1] Increasing the number of chews per bite increases relevant gut hormones.[2] Studies suggest that chewing may decrease self-reported hunger and food intake.[2] Chewing gum has been around for many centuries; there is evidence that northern Europeans chewed birch bark tar 9,000 years ago.

Chewing, needing specialized teeth, is mostly a mammalian adaptation that appeared in early Synapsids, though some later herbivorous dinosaurs, since extinct, had developed chewing too. Nowadays, only mammals chew in the strict sense of the word, though some fishes have a somewhat similar behavior. Neither birds, nor amphibians or any living reptiles chew.

Premastication is sometimes performed by human parents for infants who are unable to do so for themselves. The food is masticated in the mouth of the parent into a bolus and then transferred to the infant for consumption[3] (some other animals also premasticate).

Cattle and some other animals, called ruminants, chew food more than once to extract more nutrients. After the first round of chewing, this food is called cud.

A piece of chewing gum after being trodden on.

Chewing motor program

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A water buffalo chewing cud

Chewing is primarily an unconscious (semi-autonomic) act, but can be mediated by higher conscious input. The motor program for mastication is a hypothesized central nervous system function by which the complex patterns governing mastication are created and controlled.

It is thought that feedback from proprioceptive nerves in teeth and the temporomandibular joints govern the creation of neural pathways, which in turn determine duration and force of individual muscle activation (and in some cases muscle fiber groups as in the masseter and temporalis).

This motor program continuously adapts to changes in food type or occlusion.[4] This adaptation is a learned skill that may sometimes require relearning to adapt to loss of teeth or to dental appliances such as dentures.

It is thought that conscious mediation is important in the limitation of parafunctional habits as most commonly, the motor program can be excessively engaged during periods of sleep and times of stress. It is also theorized that excessive input to the motor program from myofascial pain or occlusal imbalance can contribute to parafunctional habits.

Muscles

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Nutrition and health

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Chewing stimulates saliva production and increases sensory perception of the food being eaten, controlling when the food is swallowed.[5] Evidence from one study suggests that chewing almonds 25-40 times kept people fuller while also allowing them to get more nutrients out of the almonds. The researchers also suggest that this is likely to be the case in other foods.[6] A 2015 systemic review found evidence that chewing can decrease self-reported hunger and therefore food intake.[7] Eating food which does not require chewing, by choice or for medical reasons as tooth loss, is known as a soft diet. Such a diet may lead to inadequate nutrition due to a reduction in fruit and vegetable intake.[8]

Chewing also stimulates the hippocampus and is necessary to maintain its normal function.[9] Chewing stimulates hippocampal neurogenesis in both humans and mice.[10]

In other animals

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Chewing is largely an adaptation for mammalian herbivory. Carnivores generally chew very little or swallow their food whole or in chunks.[11] This act of gulping food (or medicine pills) without chewing has inspired the English idiom "wolfing it down".[12]

Other animals such as cows chew their food for long periods to allow for proper digestion in a process known as rumination. Rumination in cows has been shown by researchers to intensify during the night. They concluded that cows chewed more intently in the night time compared to the morning.[13]

Ornithopods, a group of dinosaurs including the Hadrosaurids ("duck-bills"), developed teeth analogous to mammalian molars and incisors during the Cretaceous period; this advanced, cow-like dentition allowed the creatures to obtain more nutrients from the tough plant life. This may have given them the advantage needed to compete with the formidable sauropods, who depended on their massive gastrointestinal tracts to digest food without grinding it.[14]

In machinery

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Masticator on the Zaca Fire

The process of chewing has, by analogy, been applied to machinery. The U.S. Forest Service uses a machine called a masticator (also called a forestry mulching machine) to "chew" through brush and timber in order to clear firelines in advance of a wildfire.[15]

See also

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Notes

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  1. ^ "Prehension, Mastication and Swallowing". Archived from the original on 2015-07-15. Retrieved 2012-05-24.
  2. ^ a b Miquel-Kergoat, Sophie; Azais-Braesco, Veronique; Burton-Freeman, Britt; Hetherington, Marion M. (2015-11-01). "Effects of chewing on appetite, food intake and gut hormones: A systematic review and meta-analysis". Physiology & Behavior. 151: 88–96. doi:10.1016/j.physbeh.2015.07.017. ISSN 1873-507X. PMID 26188140.
  3. ^ Holmes, Wendy (2007), "Influences on maternal and child nutrition in the highlands of the northern Lao PDR", Asia Pac J Clin Nutr, 16 (3): 537–545, PMID 17704036
  4. ^ Peyron, Marie-Agnès; Olivier Blanc; James P. Lund; Alain Woda (2004-03-09). "Influence of Age on Adaptability of Human Mastication". Journal of Neurophysiology. 92 (2): 773–779. doi:10.1152/jn.01122.2003. PMID 15277595. Retrieved 2008-07-02.
  5. ^ Peyron, Marie-Agnès; Gierczynski, Isabelle; Hartmann, Christoph; Loret, Chrystel; Dardevet, Dominique; Martin, Nathalie; Woda, Alain (27 June 2011). "Role of Physical Bolus Properties as Sensory Inputs in the Trigger of Swallowing". PLOS ONE. 6 (6): e21167. Bibcode:2011PLoSO...621167P. doi:10.1371/journal.pone.0021167. ISSN 1932-6203. PMC 3124480. PMID 21738616.
  6. ^ Cassady, Bridget A; Hollis, James H; Fulford, Angie D; Considine, Robert V; Mattes, Richard D (2009-03-01). "Mastication of almonds: effects of lipid bioaccessibility, appetite, and hormone response". The American Journal of Clinical Nutrition. 89 (3): 794–800. doi:10.3945/ajcn.2008.26669. ISSN 0002-9165. PMID 19144727.
  7. ^ Miquel-Kergoat, S.; Azais-Braesco, V.; Burton-Freeman, B.; Hetherington, M. M. (2015). "Effects of chewing on appetite, food intake and gut hormones: A systematic review and meta-analysis". Physiology & Behavior. 151: 88–96. doi:10.1016/j.physbeh.2015.07.017. PMID 26188140. S2CID 15350810.
  8. ^ N'Gom, Papa Ibrahima; Woda, Alain (June 2002). "Influence of impaired mastication on nutrition". The Journal of Prosthetic Dentistry. 87 (6): 667–673. doi:10.1067/mpr.2002.123229. PMID 12131890.
  9. ^ Chen, Huayue; Iinuma, Mitsuo; Onozuka, Minoru; Kubo, Kin-Ya (9 June 2015). "Chewing Maintains Hippocampus-Dependent Cognitive Function". International Journal of Medical Sciences. 12 (6): 502–509. doi:10.7150/ijms.11911. ISSN 1449-1907. PMC 4466515. PMID 26078711.
  10. ^ Smith, Natalie, Miquel-Kergoat, Sophie, and Thuret, Sandrine. 'The Impact of Mastication on Cognition: Evidence for Intervention and the Role of Adult Hippocampal Neurogenesis'. 1 Jan. 2015 : 115 – 123.
  11. ^ Hiiemae, K.M.; Crompton, A.W. (1985). "Mastication, Food Transport, and Swallowing". Functional Vertebrate Morphology. doi:10.4159/harvard.9780674184404.c14.
  12. ^ "Wiktionary".
  13. ^ Zebeli, Q.; Tafaj, M.; Weber, I.; Dijkstra, J.; Steingass, H.; Drochner, W. (April 2007). "Effects of Varying Dietary Forage Particle Size in Two Concentrate Levels on Chewing Activity, Ruminal Mat Characteristics, and Passage in Dairy Cows". Journal of Dairy Science. 90 (4): 1929–1942. doi:10.3168/jds.2006-354. PMID 17369233.
  14. ^ Sanders, P. Martin; Clauss, Marcus (10 October 2008). "Sauropod Gigantism". Science. 322 (5899): 200–201. doi:10.1126/science.1160904. PMID 18845734. S2CID 206514245.
  15. ^ Masticator shown and described at interagency Inciweb.org[permanent dead link]
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