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Re-Verification with Regard to Scammon’s Growth Curve Proposal of Fujimmon’s Growth Curve as a Tantative Idea

Received: 26 June 2017     Accepted: 3 August 2017     Published: 28 August 2017
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Abstract

The Scammon’s growth curve, even during the 80 years since, has been applied to a number of fields. However, one has to wonder if all human characteristics are included in this 4 pattern growth curve classification. Till now, the Scammon’s growth curve has yet to be subjected to scientific verification. In this study, this assessment was verified by applying a cross-correlation function in analyzing changes from collapsing one of the curves to examine their similarity. Because of that, cross correlation function can then be applied to the quantified curve by Wavelet Interpolation Method. The data utilized for analysis, cross-sectional growth data from age one to 20 was used for the four attributes classified by the Scammon growth curve. This data was comprised of brain weight (neural type), thymus (lymphoid type), testicle (genital type), and liver (general type). A cross correlation function is used to show the similarity between two waveforms, and the cross correlation function may be evaluated by convolving one function. In this study, a cross correlation function was assumed from the velocity curve values found from differentiation using the wavelet interpolation model (WIM) for Scammon’s growth types. There are unanticipated possibilities of similarity between brain weight and thymus, and testicle and liver. What can be newly proposed, therefore, is that growth curve types can be classified as neural, lymphoid, and general body types, with the genital type included in the general body type. The genital type, visceral type, and morphological type are included within the general body type.

Published in American Journal of Sports Science (Volume 5, Issue 3)
DOI 10.11648/j.ajss.20170503.11
Page(s) 14-20
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), 2017. Published by Science Publishing Group

Keywords

Similarity, Dissimilarity, Age at MPV (Maximum Peak Velocity), Wavelet Interpolation Model (WIM)

References
[1] Fujii, K. (2013). Scammon’s Growth Curve & Growth and Development, Japanese Journal of Sports and Health Science, 35, 53-62.
[2] Fujii, K, Ishigaki T, Sho M and Saito Y. (2008). Health science for life-span development -- scientific search to health over life-span -, KyorinShoin, Tokyo.
[3] A, Portmann. (Masataka Takagi; Transrating). (1961). Biologische Fragmente zu einer Lehre vom Menschen, Iwanamishinsyo, Tokyo.
[4] Fujii, K. (2013). Growth pattern of human and animal, Child & Growth and Development, 11 (2), 72-81.
[5] Scammon, R. E., The measurement of the body in childhood. In Harris, J, A., Jackson., C, M., Paterson, D, G. and Scammon, R, E. (Eds).(1930). The Measurement of Man, Univ. of Minnesota Press, Minneapolis.
[6] Takaishi, M. (2003). Growth and development & body of child, Child & Growth and Development, 1 (1) 9-12.
[7] Tanner, J. M. (1962). Growth at Adolescent, Blackwell Scientific Publication, Oxford.
[8] Tanner, J. M. (1978). Foetus into man, Open Books, London.
[9] Malina, R. M. and Bouchard, C. (1991). Growth, maturation, and physical activity, Human Kinetics Books, Illinois.
[10] Kimura, K. (1966). Growth for human, Medical Friend Company, Tokyo.
[11] Hoshi, H. (1988). Growth and aging of human, Terapare, Tokyo.
[12] Takaishi, M., Higuchi, M and Kojima, T. (1981). Growth and development of body – Approach to physical growth and development study. Taishukan, Tokyo.
[13] Fujii, K. (2006). A scientific approach to growth and development- Physical information science for growth and development & health-. Sankeisha, Nagoya.
[14] Fujii, K. and Yamamoto, Y. (1995). The analysis of the growth velocity curve in height based upon the maturity rate, Jpn J. Phys Fitness Sports Med, 44, 431-438.
[15] Fujii, K. and Matsuura, Y. (1996). An examination regarding the velocity curve derived from mean growth distance curve in male student’s physique, Japan J. Phys Educ. Hlth. Sport Sci, 41, 247-260.
[16] Fujii, K. and Kawanami, K. (1998). An analysis in regard to relationship between age at MPV of height and weight, and its sex difference, Japanese Journal of School Health, 40, 317-331.
[17] Fujii, K. and Matsuura, Y. (1999). Analysis of the growth velocity curve for height by the Wavelet Interpolation Method in children classified by maturity rate, Am. J. Hum. Biol, 11, 13-30.
[18] Matsuura, Y., Yokoyama, K., Takada, M., Iwase, T. and shimada, K. (2006). Frequency Information Analysis of Electrogastrography during Sleep in Healthy Women, Japanese Society for Medical and Biological Engineering, 44, 560-566.
[19] Yamada, H., Kato, T., Mikami, Y., Kaneko, K., Shiozaki, T. and Yokoi, T. (2006). Evaluation of Motor Conduction in Jumping Movement of Young Children, Tokai University, 18, 62-68.
[20] Fujii, K. (2015) Some problems of Scammon’s growth curve, Child & Growth and Development, 12 (4), 243-253.
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  • APA Style

    Katsunori Fujii. (2017). Re-Verification with Regard to Scammon’s Growth Curve Proposal of Fujimmon’s Growth Curve as a Tantative Idea. American Journal of Sports Science, 5(3), 14-20. https://doi.org/10.11648/j.ajss.20170503.11

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    ACS Style

    Katsunori Fujii. Re-Verification with Regard to Scammon’s Growth Curve Proposal of Fujimmon’s Growth Curve as a Tantative Idea. Am. J. Sports Sci. 2017, 5(3), 14-20. doi: 10.11648/j.ajss.20170503.11

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    AMA Style

    Katsunori Fujii. Re-Verification with Regard to Scammon’s Growth Curve Proposal of Fujimmon’s Growth Curve as a Tantative Idea. Am J Sports Sci. 2017;5(3):14-20. doi: 10.11648/j.ajss.20170503.11

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  • @article{10.11648/j.ajss.20170503.11,
      author = {Katsunori Fujii},
      title = {Re-Verification with Regard to Scammon’s Growth Curve Proposal of Fujimmon’s Growth Curve as a Tantative Idea},
      journal = {American Journal of Sports Science},
      volume = {5},
      number = {3},
      pages = {14-20},
      doi = {10.11648/j.ajss.20170503.11},
      url = {https://doi.org/10.11648/j.ajss.20170503.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajss.20170503.11},
      abstract = {The Scammon’s growth curve, even during the 80 years since, has been applied to a number of fields. However, one has to wonder if all human characteristics are included in this 4 pattern growth curve classification. Till now, the Scammon’s growth curve has yet to be subjected to scientific verification. In this study, this assessment was verified by applying a cross-correlation function in analyzing changes from collapsing one of the curves to examine their similarity. Because of that, cross correlation function can then be applied to the quantified curve by Wavelet Interpolation Method. The data utilized for analysis, cross-sectional growth data from age one to 20 was used for the four attributes classified by the Scammon growth curve. This data was comprised of brain weight (neural type), thymus (lymphoid type), testicle (genital type), and liver (general type). A cross correlation function is used to show the similarity between two waveforms, and the cross correlation function may be evaluated by convolving one function. In this study, a cross correlation function was assumed from the velocity curve values found from differentiation using the wavelet interpolation model (WIM) for Scammon’s growth types. There are unanticipated possibilities of similarity between brain weight and thymus, and testicle and liver. What can be newly proposed, therefore, is that growth curve types can be classified as neural, lymphoid, and general body types, with the genital type included in the general body type. The genital type, visceral type, and morphological type are included within the general body type.},
     year = {2017}
    }
    

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  • TY  - JOUR
    T1  - Re-Verification with Regard to Scammon’s Growth Curve Proposal of Fujimmon’s Growth Curve as a Tantative Idea
    AU  - Katsunori Fujii
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    N1  - https://doi.org/10.11648/j.ajss.20170503.11
    DO  - 10.11648/j.ajss.20170503.11
    T2  - American Journal of Sports Science
    JF  - American Journal of Sports Science
    JO  - American Journal of Sports Science
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    UR  - https://doi.org/10.11648/j.ajss.20170503.11
    AB  - The Scammon’s growth curve, even during the 80 years since, has been applied to a number of fields. However, one has to wonder if all human characteristics are included in this 4 pattern growth curve classification. Till now, the Scammon’s growth curve has yet to be subjected to scientific verification. In this study, this assessment was verified by applying a cross-correlation function in analyzing changes from collapsing one of the curves to examine their similarity. Because of that, cross correlation function can then be applied to the quantified curve by Wavelet Interpolation Method. The data utilized for analysis, cross-sectional growth data from age one to 20 was used for the four attributes classified by the Scammon growth curve. This data was comprised of brain weight (neural type), thymus (lymphoid type), testicle (genital type), and liver (general type). A cross correlation function is used to show the similarity between two waveforms, and the cross correlation function may be evaluated by convolving one function. In this study, a cross correlation function was assumed from the velocity curve values found from differentiation using the wavelet interpolation model (WIM) for Scammon’s growth types. There are unanticipated possibilities of similarity between brain weight and thymus, and testicle and liver. What can be newly proposed, therefore, is that growth curve types can be classified as neural, lymphoid, and general body types, with the genital type included in the general body type. The genital type, visceral type, and morphological type are included within the general body type.
    VL  - 5
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Author Information
  • Graduate School of Business Administration and Computer Science, Aichi Institute of Technology, Yachigusa, Yakusa-Chou, Toyota-City, Japan

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