リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。

リケラボ 全国の大学リポジトリにある学位論文・教授論文を一括検索するならリケラボ論文検索大学・研究所にある論文を検索できる

リケラボ 全国の大学リポジトリにある学位論文・教授論文を一括検索するならリケラボ論文検索大学・研究所にある論文を検索できる

大学・研究所にある論文を検索できる 「Development and Evaluation of a Beverage that Forms Bubble-Containing Gel in the Stomach」の論文概要。リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。
リケラボ

コピーが完了しました

URLをコピーしました

論文の公開元へ論文の公開元へ
書き出し

Development and Evaluation of a Beverage that Forms Bubble-Containing Gel in the Stomach

堂本, 隆史 筑波大学 DOI:10.15068/00160471

2020.07.22

概要

In recent years, extension of healthy life expectancy (period in which daily life can be lived without being restricted due to health problems) has become a major issue. In Japan, the difference between average life expectancy and average healthy life expectancy is about 9 years for men and about 12 years for women, and the greater the difference between average life expectancy and average healthy life expectancy, the greater the need for home care and medical care becomes. Closing the gap between the two averages is important from the standpoint of individual well-being, curbing home care and medical expenses, and responding to the decline in the size of the working population and the shortage of care workers.

The Japanese government has launched “Health Japan 21” as a new national health promotion campaign in which the people can take the initiative. Based on the idea of extending healthy life expectancy and reducing health disparities, five basic directions and the goals for each direction were set by the Ministry of Health, Labor and Welfare of Japan (Ministry of Health, Labor and Welfare HP (i)). The goals include items related to obesity, e.g., “Prevention of lifestyle-related diseases” and “Eating habits, exercise, rest, drinking, smoking, improving lifestyle and the social environment related to oral health”, and furthermore, as a target value for the countermeasure against obesity, for example, a numerical value of “less than 28% of obese males (BMI 25 or more) in 20’s to 60’s” is set.

A person with a body mass index (BMI = (weight [kg])/(height [m])2 ) of 25 or more is regarded as “obese”. Fat distribution has recently come to be regarded as important, and visceral-fat-type obesity is a high-risk form of obesity that tends to be accompanied by health problems. Obesity is defined as a medical condition that requires weight loss when a person who has been diagnosed as obese has or is expected to have a health disorder caused by or related to obesity (Miyazaki et al., 2018).

Excessive visceral fat accumulation is a risk factor for lifestyle-related diseases such as hyperglycemia, dyslipidemia, and hypertension due to type 2 diabetes, and it is one of the elements of metabolic syndrome that develops by combining two or more of these diseases. Obesity causes these lifestyle-related diseases, and it exacerbates them. As a result, blood vessels may become brittle or damaged, causing arteriosclerosis and progressing to serious illnesses such as myocardial infarction and stroke. Thus, obesity needs to be prevented in order to extend the healthy life expectancy

In recent years, obesity has been found to cause the various other complications besides lifestyle-related diseases (The Japan Foundation for Aging and Health HP (ii)). Obesity imposes an excessive load on the hip and knee joints that causes osteoarthritis and low back pain. Obesity is a risk factor for breast cancer in postmenopausal women and is a negative prognostic factor for malignant disease. Obesity is also a risk factor for colorectal cancer, and it is a risk factor for a decline in activities of daily living in women.

In order to achieve the numerical targets of “Healthy Japan 21”, the Japanese government has implemented a variety of activities, including the introduction of a new concept of obesity and metabolic syndrome prevention, and efforts to easily adjust the amount of energy in meals. The national government, local governments, and private companies are working on legislation, establishing systems, raising awareness, and implementing measures. For example, local governments cooperate with employee cafeterias to support food environment development, such as the development of healthy menus and the transmission of health information. In addition, companies are recruiting participants in health seminars from among employees who have been advised to obtain specific health guidance (Ministry of Health, Labor and Welfare, Japan HP (iii)).

Thus, great efforts have been made nationwide, and an effective method of preventing obesity is desired.

論文の公開元へ

この論文で使われている画像

関連論文

関連論文をもっと見る

参考文献

Alvin, I., Nerys, M. A., Kaisa, O., Esa, A., Kirsti, T., (2016). Effect of polydextrose on subjective feelings of appetite during the satiation and satiety periods. Nutrients, 8, 1–19.

Asahi, H., Watanabe, M., Abe, T., Nishinari, N., Mori, S., Oikawa, K. (1986). Twentyfour-hour intragastric pH monitoring in peptic ulcer patients. Jpn. J. Gastroerol. Surg.,19, 887-892.

Brooks W. J. Rafting antacid formulation. US Patent No. 5,360,793 1994-11-1 (1994). Camilleri, M. (2015). Peripheral mechanisms in appetite regulation. Gastroenterology, 148, 1219–1233.

Chan, S. Y., Choo, W. S., Young, D. J., Loh, X. J. (2017). Pectin as a rheology modifier: Origin, structure, commercial production and rheology. Carbohydr. Polym., 161, 118–139.

Chavkin L. Dry, water-foamable pharmaceutical compositions. US Patent No. 4,613,497 1986-9-23 (1986).

Chen, W., Hira, T., Nakajima, S., Tmozawa, H., Tsubata, M., Yamaguchi, K., Hara, H. (2012). Suppressive effect on food intake of a potato extract (Potein) involving cholecystokinin release in rats. Biosci. Biotechnol. Biochem. 76, 1104–1109.

Clegg, M. E., Thondre, P. S. (2019). The influence of barley β-glucan on satiety, glycaemic response and energy expenditure. Proc. Nutr. Soc., 71, E72.

Dettmar P. W., Dickson A. P., Hampson C. F., Jolliffe G. I. Compositions for treatment of disorders of the oesophagus. US Patent No. 6,610,667 2003-8-26 (2003).

Domoto, T., Aqueous liquid beverage. Japanese Patent No. 6,183,355 2013-10-10 (2013 a).

Domoto, T., Aqueous liquid beverage. Japanese Patent No. 6,425,020 2013-10-10 (2013 b).

Domoto, T., Aqueous liquid beverage. Japanese Patent No. 6,441,674 2013-10-10 (2013 c).

Domoto, T., Kozu, H., Yamaji, M., Takei, T., Nishijima, K., Matsudo, K., Mizuma, Y., Saisho, K., Kobayashi, I., Ichikawa, S. (2018). Formulation and evaluation of a satiety-inducing carbonated beverage that forms a bubble-containing gel in the stomach. Food Sci. Technol. Res., 24, 435–442.

Domoto, T., Kozu, H., Nakamura, M, Kobayashi I., Ichikawa, S. (2019). Effects of the type of pectin and concentration of citric acid on digestive behavior of a bubble-containing gel : evaluation using a human gastric digestion simulator. Jpn. J. Food Eng., 20, 53–60.

Fraeye, I., Duvetter, T., Doungla, E., Loey, V. A., Hendrickx, M. (2010). Fine-tuning the properties of pectin-calcium gels by control of pectin fine structure, gel composition and environmental conditions. Trends Food Sci. Technol., 21, 219–228.

Gayst S., Maguire M. J. Pharmaceutical formulation of guar gum. US Patent No. 4,315,918 1982-2-16 (1982).

Guerra, A., Etienne-Mesmin, L., Livrelli, V., Denis, S., Blanquet-Diot, S., Alric, M. (2012). Relevance and challenges in modeling human gastric and small intestinal digestion. Trends Biotechnol., 30, 591–600.

Havelund, T; Aalykke, C. (1997). The Efficacy of a Pectin-Based Raft-Forming AntiReflux Agent in Endoscopy-Negative Reflux Disease. Scand. J. Gastroenterol., 32, 773–777.

Hoad, C. L., Rayment, P., Spiller, R. C., Marciani, L., Alonso, B. D. C., Traynor, C., Mela, D. J., Peters, H. P. F., Gowland, P. A. (2004). In vivo imaging of intragastric gelation and its effect on satiety in humans. J. Nutr., 134, 2293–2300.

Hobden, M. R., Guérin-deremaux, L., Rowland, I., Gibson, G. R., Kennedy, O. B. (2015). Potential anti-obesogenic properties of non-digestible carbohydrates: specific focus on resistant dextrin. Proc. Nutr. Soc., 74, 258–267.

Horner, K. M., Byrne, N. M., Cleghorn, G. J., Näslund, E., King, N. A. (2011). The effects of weight loss strategies on gastric emptying and appetite control. Obes. Rev., 12, 935–951.

Itoh, K., Kubo, W., Fujiwara, M., Watanabe, H., Miyazaki, S., Attwood, D. (2006). The influence of gastric acidity and taste masking agent on in situ gelling pectin formulations for oral sustained delivery of acetaminophen. Biol. Pharm. Bull., 29, 343–347.

Kapadia, C. J., Mane, V. B. (2007). Raft-Forming Agents: Antireflux Formulations. Drug Dev. Ind. Pharm., 33, 1350-1361

Kararli, T. T. (1995). Comparison of the gastrointestinal anatomy, physiology, and biochemistry of humans and commonly used Laboratory Animals. Biopharm. Drug Dispos., 16, 351–380.

Kawabata, A. (1985). Chemical and physical properties of pectic substances from fruits. J. Home Econ. Jpn., 36, 561-576

Kawasaki, N., Nakada, K., Hanyu, N., Somei, S., Takahashi, T., Nakao, M. (2002). Comparison of gastric emptying among different kind of food by RI method. J. Smooth Muscle Res., Jpn. Sect., 6, J99-J106

Kozu, H., Kobayashi, I., Nakajima, M., Uemura, K., Sato, S., Ichikawa, S. (2010). Analysis of flow phenomena in gastric contents induced by human gastric peristalsis using CFD. Food Biophys., 5, 330–336.

Kozu, H., Kobayashi, I., Nakajima, M., Neves, M. A., Uemura, K., Isoda, H., Ichikawa, S. (2017). Mixing characterization of liquid contents in human gastric digestion simulator equipped with gastric secretion and emptying. Biochem. Eng. J., 122, 85–90.

Kozu, H., Nakata, Y., Nakajima, M., Neves, M. A., Uemura, K., Sato, S., Kobayashi, I., Ichikawa, S. (2014). Development of a human gastric digestion simulator equipped with peristalsis function for the direct observation and analysis of the food digestion process. Food Sci. Technol. Res., 20, 225–233.

Lootens, D., Capel, F., Durand, D., Nicolai, T., Boulenguer, P., Langendorff, V. (2003). Influence of pH, Ca concentration, temperature and amidation on the gelation of low methoxyl pectin. Food Hydrocoll., 17, 237–244.

Maljaars, J., Romeyn, E. A., Haddeman, E., Peters, H. P. F., Masclee, A. A. M. (2009). Effect of fat saturation on satiety, hormone release, and food intake. Am. J. Clin. Nutr., 89, 1019–1024.

Malmud L. S., Charles N. D., Littlefield J. (1979). The mode of action of alginic acid compound in the reduction of gastroesophageal reflux. J. Nuc. Med., 20, 1023–1028

Marciani, L., Gowland, P. A., Spiller, R. C., Manoj, P., Moore, R. J., Young, P., FilleryTravis, A. J. (2001). Effect of meal viscosity and nutrients on satiety, intragastric dilution, and emptying assessed by MRI. Am. J. Physiol.: Gastrointest. Liver Physiol., 280, G1227–G1233.

Melnikov, S. M., Stoyanov, S. D., Kovacs, E. M. R., Arnaudov, L., De Groot, P., Schuring, E. A. H., Wiseman, S. A., Mela, D. J., Peters, H. P. F. (2014). Sustained hunger suppression from stable liquid food foams. Obesity, 22, 2131–2136.

Miyazaki, S. (2018). Guidelines for the management of obesity disease 2016. Nihon Naika Gakkai Zasshi, 107, 262-268

Murray, K., Placidi, E., Schuring, E. A. H., Hoad, C. L., Koppenol, W., Arnaudov, L. N., Blom, W. A. M., Pritchard, S. E., Stoyanov, S. D., Gowland, P. A., Spiller, R. C., Peters, H. P. F., Marciani, L. (2015). Aerated drinks increase gastric volume and reduce appetite as assessed by MRI: A randomized, balanced, crossover trial. Am. J. Clin. Nutr., 101, 270–278.

Ogawara,K. (2009). Optimization of intestinal drug absorption by drug delivery system (DDS) technology. Folia Pharmacol. Jpn., 133,266-269

Peters, H. P. F., Koppert, R. J., Boers, H. M., Ström, A., Melnikov, S. M., Haddeman, E., Schuring, E. A. H., Mela, D. J., Wiseman, S. A. (2011). Dose-dependent suppression of hunger by a specific alginate in a low-viscosity drink formulation. Obesity, 19, 1171–1176.

Peters, H. P. F., Koppenol, W. P., Schuring, E. A. H., Abrahamse, S. L., Mela, D. J. (2015). The effect of a low-energy food foam on appetite measures during a 1-day reducedenergy meal plan. Int. J. Obes., 39, 361–367.

Philip, W. T. (2010). Effect of Sibutramine on Cardiovascular Outcomes in Overweight and Obese Subjects. N. Engl. J. Med, 363, 905–917.

Prajapati, V. D., Jani, G. K., Khutliwala, T. A., Zala, B. S. (2013). Raft forming system – an upcoming approach of gastroretentive drug delivery system. J. Controlled Release, 168, 151–165.

Ricci, R., Bontempo, I., Corazziari, E., La Bella, A., Torsoli, A. (1993). Real time ultrasonography of the gastric antrum. Gut, 34, 173–176.

Rolls, B. J., Bell, E. A., Waugh, B. A. (2000). Increasing the volume of a food by incorporating air affects satiety in men. Am. J. Clin. Nutr., 72, 361–368.

Rolls, B. J. (2009). The relationship between dietary energy density and energy intake. Physiol. Behav., 97, 609–615.

Saber, A. A., Shoar, S., Almadani, M. W., Zundel, N., Alkuwari, M. J., Bashah, M. M., Rosenthal, R. J. (2017). Efficacy of first-time intragastric balloon in weight loss: a systematic review and meta-analysis of randomized controlled trials. Obes. Surg., 27, 1–11.

Strugala, V., Bassin, J., Swales, V. S., Lindow, S. W., Dettmar, P. W., Thomas, E. C. M. (2012). Assessment of the safety and efficacy of a raft-forming alginate reflux suppressant (Liquid Gaviscon) for the treatment of heartburn during pregnancy. Int.

Scholarly Res. Not., 2012, 1–6. Sun, W. M., Houghton, L. A., Read, N. W., Grundy, D. G., Johnson, A. G. (1988). Effect of meal temperature on gastric emptying of liquids in man. Gut, 29, 302–305. Ueno, H., Nakazato, M. (2015). Feeding Regulatory Substances and Obesity. Nihon Naika Gakkai Zasshi, 104, 717-722

Wakisaka, S., Nagai, H., Mura, E., Matsumoto, T., Moritani, T., Nagai, N. (2012). The effects of carbonated water upon gastric and cardiac activities and fullness in healthy young women. J. Nutr. Sci. Vitaminol., 58, 333–338.

Wanders, A. J., Mars, M., Borgonjen-van den Berg, K. J., de Graaf, C., Feskens, E. J. M. (2014). Satiety and energy intake after single and repeated exposure to gel-forming dietary fiber: post-ingestive effects. Int. J. Obes., 38, 794–800.

Wang, G. J., Tomasi, D., Backus, W., Wang, R., Telang, F., Geliebter, A., Korner, J., Bauman, A., Fowler, J. S., Thanos, P. K. , Volkow, N. D. (2008). Gastric distention activates satiety circuitry in the human brain. NeuroImage, 39, 1824–1831.

Williams, E. K., Chang, R. B., Strochlic, D. E., Umans, B. D., Lowell, B. B., Liberles, S. D. (2016). Sensory neurons that detect stretch and nutrients in the digestive system. Cell, 166, 209–221.

Yoshimatsu, H., Sakata, T. (2001). Behavior therapy of obesity. Nihon Naika Gakkai Zasshi, 90, 902-913

参考文献をもっと見る

全国の大学の
卒論・修論・学位論文

一発検索!

この論文の関連論文を見る