American Journal of Sports Science

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Examination Regarding Change of Differences in the Diet Effect with Age: Analysis Based on Wavelet Interpolation Model

Received: Oct. 05, 2020    Accepted: Oct. 20, 2020    Published: Oct. 26, 2020
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Abstract

During diets, people basically try to change their living habits to lose weight, such as restricting caloric intake and increasing energy consumption through exercise and activity. This could truly be considered a hostile act against corpulence in modern society. For many women in particular, the act of dieting is essentially wishful thinking in their daily lives, and selecting easy diet food would seem to be an obvious way to achieve this wish. However, while the diet effect must be clear when selecting better diet products, there have been no findings on diet effect that consider the effects of age. In this study, we used product evaluation, sex, age, height, body weight before use, body weight after use, duration of use, and other factors in data from the T. M. Community Co., Ltd. (TMC) review site “Diet Cafe,” which specializes in diet products. We analyzed the changes in the diet effect with age by applying the wavelet interpolation model to the change in body weight and the percentage change in body weight in subjects aged from the 10s to 60s. In addition, with the curves describing the amount and percentage of the change in body weight, we investigated the inflection point (critical point) in the diet effect with age by deriving velocity curves as differentials. The WIM was applied to the age-related changes in the size of the diet effect, and the identification of the age of 30 as a critical point in the diet effect from the behavior of the velocity curve may be considered a finding derived for the first time. The slowing of the velocity then becomes consistent about 10 years after the critical point, at around the age of 40, from which it may be proposed that the age of 40 is a true transition phase for women.

DOI 10.11648/j.ajss.20200804.12
Published in American Journal of Sports Science ( Volume 8, Issue 4, December 2020 )
Page(s) 89-94
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Diet Effect, Change with Age, Wavelet Interpolation Model, Critical Point

References
[1] Unno. H, “History of diet -corset not seen,” Shinshokan, Tokyo. 1998. (in Japanese).
[2] Stearns. P. N, “Fat History: Bodies and Beauty in the Modern West,” NYU Press, 2002.
[3] Sharpe. P. A, Granner. M. L, Conway J. M, Ainsworth. B. E, and Dobre. M, “Availability of weight-loss supplements: Results of an audit of retail outlets in a southeastern city,” J Am Diet Assoc, Vol. 106, pp. 2045-2051. 2006.
[4] Imai. T, Nakamura. M, Ando. F, and Shimokata. H, “Dietary supplement use by community-living population in Japan: data from the National Institute for Longevity Sciences Longitudinal Study of Aging (NILS-LSA),” J Epidemiol, 16 (6), pp. 249-260, 2006.
[5] Lenz. T. L, and Hamilton. W. R, “Supplemental products used for weight loss,” J Am Pharm Assoc, Vol. 44, pp. 59-67. 2003.
[6] Bailey. R. L, Gahche. J. J, Miller. P. E, Thomas. P. R, and Dwyer. J. T, “Why US adults use dietary supplements,” JAMA Intern Med, Vol. 173, pp. 355-61. 2013.
[7] Blanck. H. M, Serdula. M. K, Gillespie. C, Galuska. D. A, Sharpe, P. A, and Conway. J. M, et al. “Use of nonprescription dietary supplements for weight loss is common among Americans.” J Am Diet Assoc, Vol. 107, pp. 441-7, 2007.
[8] Fujii. K, and Yamamoto. Y, “The analysis of the growth velocity curve in height based upon the maturity rate,” Japan Journal of Physical Fitness and Sports Medicine, Vol. 44, pp. 431-438, 1996.
[9] Fujii. K, and Matsuura. Y, “Analysis of velocity curve derived from mean growth curve in physique of boys,” Japan Journal of Physical Education, Health and Sport Science, Vol. 41, pp. 247-260, 1996.
[10] Fujii. K, and Matsuura. Y, “Analysis of the growth velocity curve for height by the Wavelet Interpolation Method in children classified by maturity rate,” American Journal of Human Biology, Vol. 11, pp. 13-30, 1999.
[11] Fujii. K, “Scientific approach to growth and development -Physical information science of growth and development and health-,” Sankeisha, 2006. (in Japanese).
[12] Japan Food Newspaper, “Health-related food special feature,” https://news.nissyoku.co.jp/news/muraoka20200511071337074, 2020. (in Japanese).
[13] Kobayashi. E, Sato. Y, Umegaki. K, and Chiba. T, “Analysis of Safety Alerts Associated with Dietary Supplements from Japan and Overseas,” Shokuhin Eiseigaku Zasshi, Vol, 59 (2), pp. 93-98, 2018.
[14] Goto. J, Konno. H. Shida. J, Sugawara. K, Uchida. K. and Shibata. F, “Relationship between resting Oxygen uptake and Grip Strength,” Yamagata Journal of Health Sciences, Vol. 18, pp. 31-36. 2015.
[15] Snitker. S., and Macdonald. I, “Ravussin E and Astrup. A. “The sympathetic nervous system and obesity: role in aetiology and treatment,” Obes Rev 1, pp. 5-15, 2000.
[16] Tanaka. K and Nakata. Y, “It is possible to increase muscle mass and basal metabolic rate during weight loss?” Jpn J Phys Fitness Sports Med, Vol. 66 (3), pp. 209-212, 2017.
[17] Takahashi. E, Higuchi. M, Hosokawa. Y and Tabata. I, “Basal Metabolic Rate and Body Composition of Japanese Young Adult Females,” Jpn. J. Nutr. Diet, Vol. 65 (5), pp. 241-247, 2007.
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  • APA Style

    Katsunori Fujii, Tohru Ishigaki, Kohsuke Kasuya. (2020). Examination Regarding Change of Differences in the Diet Effect with Age: Analysis Based on Wavelet Interpolation Model. American Journal of Sports Science, 8(4), 89-94. https://doi.org/10.11648/j.ajss.20200804.12

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    ACS Style

    Katsunori Fujii; Tohru Ishigaki; Kohsuke Kasuya. Examination Regarding Change of Differences in the Diet Effect with Age: Analysis Based on Wavelet Interpolation Model. Am. J. Sports Sci. 2020, 8(4), 89-94. doi: 10.11648/j.ajss.20200804.12

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    AMA Style

    Katsunori Fujii, Tohru Ishigaki, Kohsuke Kasuya. Examination Regarding Change of Differences in the Diet Effect with Age: Analysis Based on Wavelet Interpolation Model. Am J Sports Sci. 2020;8(4):89-94. doi: 10.11648/j.ajss.20200804.12

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  • @article{10.11648/j.ajss.20200804.12,
      author = {Katsunori Fujii and Tohru Ishigaki and Kohsuke Kasuya},
      title = {Examination Regarding Change of Differences in the Diet Effect with Age: Analysis Based on Wavelet Interpolation Model},
      journal = {American Journal of Sports Science},
      volume = {8},
      number = {4},
      pages = {89-94},
      doi = {10.11648/j.ajss.20200804.12},
      url = {https://doi.org/10.11648/j.ajss.20200804.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ajss.20200804.12},
      abstract = {During diets, people basically try to change their living habits to lose weight, such as restricting caloric intake and increasing energy consumption through exercise and activity. This could truly be considered a hostile act against corpulence in modern society. For many women in particular, the act of dieting is essentially wishful thinking in their daily lives, and selecting easy diet food would seem to be an obvious way to achieve this wish. However, while the diet effect must be clear when selecting better diet products, there have been no findings on diet effect that consider the effects of age. In this study, we used product evaluation, sex, age, height, body weight before use, body weight after use, duration of use, and other factors in data from the T. M. Community Co., Ltd. (TMC) review site “Diet Cafe,” which specializes in diet products. We analyzed the changes in the diet effect with age by applying the wavelet interpolation model to the change in body weight and the percentage change in body weight in subjects aged from the 10s to 60s. In addition, with the curves describing the amount and percentage of the change in body weight, we investigated the inflection point (critical point) in the diet effect with age by deriving velocity curves as differentials. The WIM was applied to the age-related changes in the size of the diet effect, and the identification of the age of 30 as a critical point in the diet effect from the behavior of the velocity curve may be considered a finding derived for the first time. The slowing of the velocity then becomes consistent about 10 years after the critical point, at around the age of 40, from which it may be proposed that the age of 40 is a true transition phase for women.},
     year = {2020}
    }
    

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  • TY  - JOUR
    T1  - Examination Regarding Change of Differences in the Diet Effect with Age: Analysis Based on Wavelet Interpolation Model
    AU  - Katsunori Fujii
    AU  - Tohru Ishigaki
    AU  - Kohsuke Kasuya
    Y1  - 2020/10/26
    PY  - 2020
    N1  - https://doi.org/10.11648/j.ajss.20200804.12
    DO  - 10.11648/j.ajss.20200804.12
    T2  - American Journal of Sports Science
    JF  - American Journal of Sports Science
    JO  - American Journal of Sports Science
    SP  - 89
    EP  - 94
    PB  - Science Publishing Group
    SN  - 2330-8540
    UR  - https://doi.org/10.11648/j.ajss.20200804.12
    AB  - During diets, people basically try to change their living habits to lose weight, such as restricting caloric intake and increasing energy consumption through exercise and activity. This could truly be considered a hostile act against corpulence in modern society. For many women in particular, the act of dieting is essentially wishful thinking in their daily lives, and selecting easy diet food would seem to be an obvious way to achieve this wish. However, while the diet effect must be clear when selecting better diet products, there have been no findings on diet effect that consider the effects of age. In this study, we used product evaluation, sex, age, height, body weight before use, body weight after use, duration of use, and other factors in data from the T. M. Community Co., Ltd. (TMC) review site “Diet Cafe,” which specializes in diet products. We analyzed the changes in the diet effect with age by applying the wavelet interpolation model to the change in body weight and the percentage change in body weight in subjects aged from the 10s to 60s. In addition, with the curves describing the amount and percentage of the change in body weight, we investigated the inflection point (critical point) in the diet effect with age by deriving velocity curves as differentials. The WIM was applied to the age-related changes in the size of the diet effect, and the identification of the age of 30 as a critical point in the diet effect from the behavior of the velocity curve may be considered a finding derived for the first time. The slowing of the velocity then becomes consistent about 10 years after the critical point, at around the age of 40, from which it may be proposed that the age of 40 is a true transition phase for women.
    VL  - 8
    IS  - 4
    ER  - 

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Author Information
  • Graduate School of Business Administration and Computer Science, Aichi Institute of Technology, Toyota City, Japan

  • Department of Exercise and Health Science, Aichi University of the Arts, Nagakute City, Japan

  • Department of Exercise and Health Science, Aichi University of the Arts, Nagakute City, Japan

  • Section