Research Progress of Masticatory Simulator Based on the Principle of Oral Mastication

ZHANG Xiaofeng; CHEN Yong; CHEN Jianshe

doi:10.13386/j.issn1002-0306.2021070362

Volume 43 Issue 5

Feb. 2022

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Science and Technology of Food Industry > 2022 > 43(5): 1-12. > DOI: 10.13386/j.issn1002-0306.2021070362

ZHANG Xiaofeng, CHEN Yong, CHEN Jianshe. Research Progress of Masticatory Simulator Based on the Principle of Oral Mastication[J]. Science and Technology of Food Industry, 2022, 43(5): 1−12. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2021070362.

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Research Progress of Masticatory Simulator Based on the Principle of Oral Mastication

Laboratory of Food Oral Processing, School of Food and Biotechnology, Zhejiang Gongshang University, Hangzhou 310018, China

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Received Date: August 01, 2021
Available Online: December 27, 2021

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Abstract

Abstract

Masticatory simulator refers to a mechanical device that mimics the physiological structure of human oral cavity, chewing control and functions. A masticatory simulation device has advantages of not being affected by ethics, time, or environment, and is capable of providing direct experimental verification of the dynamics of food's oral breakdown, bolus reorganization, and the release of flavor compounds. This article mainly introduces oral physiology and its simulation methods, so as to provide effective scientific basis and reference factors for the construction of masticatory simulator. At the same time, based on the principle of oral chewing, this article introduces the design principle, ideas and instrument test methods of masticatory simulator equipment applied in various fields, and focuses on the preliminary classification of existing masticatory simulator devices based on the application of equipment. It is hoped to facilitate the selection and application of masticatory simulator for researchers in different research fields.
- masticatory simulator,
- oral physiology,
- mastication,
- food texture,
- flavor release,
- food oral processing

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[1]	陈建设, 王鑫淼. 食品口腔加工研究的发展与展望[J]. 中国食品学报,2018,18(9):1−7. [CHEN Jianshe, WANG Xinmiao. Development and prospect of food oral processing research[J]. Journal of Chinese Institute of Food Science and Technology,2018,18(9):1−7.
[2]	XU W L, BRONLUND J E, POTGIETER J, et al. Review of the human masticatory system and masticatory robotics[J]. Mechanism & Machine Theory,2008,43(11):1353−1375.
[3]	CHEN B, XU W, DHUPIA J, et al. Opportunities and challenges in developing a next generation masticatory robot[C]// 2017 24th International Conference on Mechatronics and Machine Vision in Practice (M2VIP). IEEE, 2017.
[4]	CHEN J. Food oral processing—A review[J]. Food Hydrocolloids,2009,23(1):1−25. doi: 10.1016/j.foodhyd.2007.11.013
[5]	HIIEMAE K. Mehanisms of food reduction, transport and deglutition: How the texture of food affects feeding behavior[J]. Journal of Texture Studies,2010,35(2):171−200.
[6]	AlSANEI W A, CHEN J. Studies of the oral capabilities in relation to bolus manipulations and the ease of initiating bolus flow[J]. Journal of Texture Studies,2014,45(1):1−12. doi: 10.1111/jtxs.12041
[7]	PANDA S, CHEN J, BENJAMIN O. Development of model mouth for food oral processing studies: Present challenges and scopes[J]. Innovative Food Science & Emerging Technologies,2020,66(1):102524.
[8]	CATE A T. Oral histology: Development, structure, and function[M]. Mosby, 2007.
[9]	STRAIT S G. Tooth use and the physical properties of food[J]. Evolutionary Anthropology: Issues, News, and Reviews, 1997, 5(6) : 199-211.
[10]	JA Kieser, MG Farland, HANNAH Jack, et al. The role of oral soft tissues in swallowing function: What can tongue pressure tell us?[J]. Australian Dental Journal, 2013, 59(1): 155-161.
[11]	KIESER J, BOLTER C, RANIGA N, et al. Tongue–palate interactions during swallowing[J]. Journal of Texture Studies,2011,42(2):95−102. doi: 10.1111/j.1745-4603.2010.00274.x
[12]	IMAI A, TANAKA M, TATSUTA M, et al. Ultrasonographic images of tongue movement during mastication[J]. Journal of Osaka Dental University,1995,29(2):61−69.
[13]	OKADA A, HONMA M, NOMURA S, et al. Oral behavior from food intake until terminal swallow[J]. Physiology & Behavior,2007,90(1):172−179.
[14]	MATSUO K, PALMER J B. Oral phase preparation and propulsion: Anatomy, physiology, rheology, mastication, and transport[M]. Springer New York, 2013.
[15]	KENNEDY D, KIESER J, BOLTER C, et al. Tongue pressure patterns during water swallowing[J]. Dysphagia,2010,25(1):11−19. doi: 10.1007/s00455-009-9223-2
[16]	BOEHLKE C, ZIERAU O, HANNIG C. Salivary amylase-The enzyme of unspecialized euryphagous animals[J]. Archives of Oral Biology,2015,60(8):1162−1176. doi: 10.1016/j.archoralbio.2015.05.008
[17]	LIU J, DUAN Y. Saliva: A potential media for disease diagnostics and monitoring[J]. Oral Oncology,2012,48(7):569−577. doi: 10.1016/j.oraloncology.2012.01.021
[18]	LEVINE M J, AGUIRRE A, HATTON M N, et al. Artificial salivas: Present and future[J]. Journal of Dental Research,1987,66(2_Suppl):693−8. doi: 10.1177/00220345870660S215
[19]	汪声明, 吴尧, 史新连, 等. 西维美林联合人工唾液治疗舍格伦综合征患者口腔黏膜病损的疗效[J]. 南昌大学学报(医学版),2021,61(2):59−63. [WANG Shuoming, WU Yao, SHI Xinlian, et al. Efficacy of sevimeline combined with artificial saliva in the treatment of oral mucosal lesions in patients with shegren syndrome[J]. Journal of Nanchang University (Medical Science),2021,61(2):59−63.
[20]	GAL J A, GALLO L M, PALLA S, et al. Analysis of human mandibular mechanics based on screw theory and in vivo data[J]. Journal of Biomechanics,2004,37(9):1405−1412. doi: 10.1016/j.jbiomech.2003.12.019
[21]	T Ogawa, M Ogawa, K Koyano. Different responses of masticatory movements after alternation of occlusal guidance related to individual movement pattern[J]. Oral Rehab, 28(2001): 830–841.
[22]	王建超, 梁锐英, 吴文慧. 咀嚼肌肌电图在口腔研究领域的应用[J]. 当代医学,2010,16(3):21−22. [WANG Jianchao, LIANG Ruiying, WU Wenhui. Application of masticatory muscle electromyography in oral research[J]. Contemporary Medicine,2010,16(3):21−22. doi: 10.3969/j.issn.1009-4393.2010.03.011
[23]	WANG X, ZHENG G, SU M, et al. Biting force and tongue muscle strength as useful indicators for eating and swallowing capability assessment among elderly patients[J]. Food Science and Human Wellness, 2019, 8(2): 149-155.
[24]	LUND J P. Mastication and its control by the brain stem[J]. Critical Reviews in Oral Biology & Medicine An Official Publication of the American Association of Oral Biologists,1991,2(1):33.
[25]	OLIVER Röhrle, PULLAN A J. Three-dimensional finite element modelling of muscle forces during mastication[J]. Journal of Biomechanics,2007,40(15):3363−3372. doi: 10.1016/j.jbiomech.2007.05.011
[26]	TAKANOBU H, TAKANISHI A, KATO I. Design of a mastication robot mechanism using a human skull model[C]// Intelligent Robots and Systems'93, IROS'93. Proceedings of the 1993 IEEE/RSJ International Conference on. IEEE, 1993: 203-208.
[27]	谢俊明. 仿生咀嚼机器人运动仿真及控制系统设计[D]. 成都: 电子科技大学, 2020. XIE Junming. Motion simulation and control system design of bionic chewing robot[D]. Chengdu: University of Electronic Science and Technology of China, 2020.
[28]	XU W L, LEWIS D, BRONLUND J E, et al. Mechanism, design and motion control of a linkage chewing device for food evaluation[J]. Mechanism & Machine Theory,2008,43(3):376−389.
[29]	刘同占. 仿下颌运动机器人设计及仿生性能研究[D]. 大连: 大连理工大学, 2012. LIU Tongzhan. Design and bionic performance of mandibular motion robot[D]. Dalian: Dalian University of Technology, 2012.
[30]	杜婧. 仿下颌运动机器人的样机设计和实验研究[D]. 大连: 大连理工大学, 2014. DU Jing. Prototype design and experimental research of mandibular motion robot [D]. Dalian: Dalian University of Technology, 2014.
[31]	宋佳. 仿下颌运动并联机器人的性能分析与参数优化[D]. 大连: 大连理工大学, 2013. SONG Jia. Performance analysis and parameter optimization of jaw like parallel robot [D]. Dalian: Dalian University of Technology, 2013.
[32]	温海营, 丛明, 王贵飞, 等. 冗余驱动仿下颌运动机器人工作空间分析及试验验证[J]. 机器人,2015(3):32−43. [WEN Haiying, CONG Ming, WANG Guifei, et al. Workspace analysis and experimental verification of redundant driven mandibular motion robot[J]. Robot,2015(3):32−43.
[33]	温海营. 含点接触高副的冗余驱动仿生咀嚼机器人研究[D]. 大连: 大连理工大学, 2016, 20−35. WEN Haiying. Research on redundant driven bionic chewing robot with point contact high pair [D]. Dalian: Dalian University of Technology, 2016, 20−35.
[34]	WODA A, MISHELLANY-DUTOUR A, BATIER L, et al. Development and validation of a mastication simulator[J]. Journal of Biomechanics,2010,43(9):1667−1673. doi: 10.1016/j.jbiomech.2010.03.002
[35]	PEYRON M A, SANTE-LHOUTELLIER V, DARDEVET D, et al. Addressing various challenges related to food bolus and nutrition with the AM~2 mastication simulator[J]. Food Hydrocolloids,2019,97(Dec.):105229.1−105229.11.
[36]	MISHELLANY-DUTOUR A, PEYRON M A, CROZE J, et al. Comparison of food boluses prepared in vivo and by the AM2 mastication simulator[J]. Food Quality & Preference,2011,22(4):326−331.
[37]	CHANG W L. Design of a mastication robot of lead screw and Scotch-Yoke actuation[J]. Dissertations & Theses-Gradworks, 2012.
[38]	LEE S J, KIM B K, CHUN Y G, et al. Design of mastication robot with life-sized linear actuator of human muscle and load cells for measuring force distribution on teeth[J]. Mechatronics,2018,51:127−136. doi: 10.1016/j.mechatronics.2017.11.013
[39]	MACKLEY M R, TOCK C, ANTHONY R, et al. The rheology and processing behavior of starch and gum-based dysphagia thickeners[J]. Journal of Rheology,2013,57(6):1533. doi: 10.1122/1.4820494
[40]	NOH Y, SEGAWA M, SATO K, et al. Development of a robot which can simulate swallowing of food boluses with various properties for the study of rehabilitation of swallowing disorders[C]// IEEE International Conference on Robotics & Automation. IEEE, 2011: 4676-4681.
[41]	STADING M, WAQAS M Q, HOLMBERG F, et al. A device that models human swallowing[J]. Dysphagia,2019,34(1):1−12. doi: 10.1007/s00455-018-09967-4
[42]	韩敬虎. 咀嚼吞咽一体化仿生机器人研究[D]. 无锡: 江南大学, 2016 HAN Jinghu. Research on integrated bionic robot for chewing and swallowing[D]. Wuxi: Jiangnan University, 2016.
[43]	刘俊辉, 张建勋, 宗永立. 食品香味释放[J]. 化学通报,2010,73(12):1099−1105. [LIU Junhui, ZHANG Jianxun, ZONG Yongli. Food flavor release[J]. Chemistry Bulletin,2010,73(12):1099−1105.
[44]	SALLES C, TARREGA A, MIELLE P, et al. Development of a chewing simulator for food breakdown and the analysis of in vitro flavor compound release in a mouth environment[J]. Journal of Food Engineering,2015,82(4):189−98.
[45]	KRISTIAWAN M, VALLE G D, AL Réguerre, et al. Artificial oral processing of extruded pea flour snacks[J]. Food Engineering Reviews,2020(2):1−15.
[46]	TARREGA A, YVEN C, SEMON E, et al. Effect of oral physiology parameters on in-mouth aroma compound release using lipoprotein matrices: An in vitro approach[J]. Foods,2019,8(3):106. doi: 10.3390/foods8030106
[47]	孙钟雷. 基于咀嚼模拟的食品质地评价研究[D]. 长春: 吉林大学, 2012 SUN Zhonglei. Evaluation of food texture based on chewing simulation[D]. Changchun: Jilin University, 2012.
[48]	HASHIMOTO T, SENDA M, SHIIBA T, et al. Development of the interactive receptionist system by the face robot[J]. SICE Annual Conference Program and Abstracts,2004:67.
[49]	FLORES E, FELS S, VATIKIOTIS-BATESON E. Chew on this: Design of a 6DOF anthropomorphic robotic jaw[C]// Robot and Human interactive Communication, 2007. RO-MAN 2007. The 16th IEEE International Symposium on. IEEE, 2007: 648-653.
[50]	TAKANOBU H, MARUYAMA T, TAKANISHI A, et al. Mouth opening and closing training with 6-DOF parallel robot[C]// Proceedings of the 2000 IEEE International Conference on Robotics and Automation, San Francisco, April 2000: 1384–1389.
[51]	TAKANOBU H, OHTSUKI K, TAKANISHI A, et al. Jaw training robot and its clinical results[C]// Proceedings of the 2003 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM 2003), 2003: 932–937.
[52]	OKINO A, INOUE T, TAKANOBU H, et al. A clinical jaw movement training robot for lateral movement training[C]// Proceedings of the 2003 IEEE International Conference on Robotics and Automation, Taipei, Taiwan, 14–19 September 2003: 244–249.
[53]	TAKANOBUL H, YAJIMA T, NAKAZAWA M, et al. Quantification of masticatory efficiency with a mastication robot[C]// Proceedings of the IEEE Internal Conference on Robotics and Automation, 1998: 1635–1640.
[54]	TAKANISHI A, TANASE T, KUMEI M, et al. Development of 3 DOF jaw robot WJ-2 as a human's mastication simulator[C]// Proceedings of Fifth International Conference on Advanced Robotics, Pisa, 1991: 277–282.