Derleme
BibTex RIS Kaynak Göster
Yıl 2020, , 17 - 27, 26.06.2020
https://doi.org/10.38061/idunas.742366

Öz

Kaynakça

  • Evans, R., McNamee, M., Guy, O. (2017). Ethics, nanobiosensors and elite sport: The need for a new governance framework. Science and engineering ethics, 23(6), 1487-1505.
  • Baca, A., Kornfeind, P. (2006). Rapid feedback systems for elite sports training. IEEE Pervasive Computing, 5(4), 70-76.
  • Higson, S. P., Reddy, S. M., Vadgama, P. M. (1994). Enzyme and other biosensors: Evolution of a technology. Engineering Science & Education Journal, 3(1), 41-48.
  • Fraser, D. (1994). Glucose biosensors: the sweet smell of success. Medical Device Technology, 5, 44-44.
  • Mohanty, S. P., Kougianos, E. (2006). Biosensors: a tutorial review. Ieee Potentials, 25(2), 35-40.
  • Dijkstra, H. P., Pollock, N., Chakraverty, R., Alonso, J. M. (2014). Managing the health of the elite athlete: a new integrated performance health management and coaching model. British journal of sports medicine, 48(7), 523-531.
  • Atta, N. F., Galal, A., Ali, S. (2011). Nanobiosensors for health care. In Biosensors for Health, Environment and Biosecurity. IntechOpen.
  • Malik, P., Katyal, V., Malik, V., Asatkar, A., Inwati, G., Mukherjee, T. K. (2013). Nanobiosensors: concepts and variations. ISRN Nanomaterials, 2013.
  • Jia, W., Bandodkar, A. J., Valdés-Ramírez, G., Windmiller, J. R., Yang, Z., Ramírez, J., Wang, J. (2013). Electrochemical tattoo biosensors for real-time noninvasive lactate monitoring in human perspiration. Analytical chemistry, 85(14), 6553-6560.
  • Ray, T., Choi, J., Reeder, J., Lee, S. P., Aranyosi, A. J., Ghaffari, R., Rogers, J. A. (2019). Soft, skin-interfaced wearable systems for sports science and analytics. Current Opinion in Biomedical Engineering, 47-56
  • Hunter, L. (2011). Sport, technology and the body: The nature of performance; 255-257.
  • Miah, A. (2006). Rethinking enhancement in sport. Annals of the New York Academy of Sciences, 1093(1), 301-320.
  • Carr, C. L. (2008). Fairness and performance enhancement in sport. Journal of the Philosophy of Sport, 35(2), 193-207.
  • Meingast, M., Roosta, T., Sastry, S. (2006). Security and privacy issues with health care information technology. In 2006 International Conference of the IEEE Engineering in Medicine and Biology Society (pp. 5453-5458). IEEE.
  • Kegley, J. A. K. (2004). Challenges to informed consent. EMBO reports, 5(9), 832-836.
  • Kumar, P., Lee, H. J. (2012). Security issues in healthcare applications using wireless medical sensor networks: A survey. sensors, 12(1), 55-91.
  • MacGregor, O., Griffith, R., Ruggiu, D., McNamee, M. (2013). Anti-doping, purported rights to privacy and WADA’s whereabouts requirements: A legal analysis. FairPlay, Revista de Filosofia, Ética y Derecho del Deporte, 1(2), 13-38.
  • Kocakulak, N., Unal, I. (2019). Biochips for Physical Exercise Studies. Natural and Applied Sciences Journal, 2(1), 15-26.
  • Yi-Qiang, F. A. N., Feng, G. A. O., Mei, W. A. N. G., Zhuang, J., Gang, T. A. N. G., ZHANG, Y. J. (2017). Recent development of wearable microfluidics applied in body fluid testing and drug delivery. Chinese Journal of Analytical Chemistry, 45(3), 455-463.
  • Akçalı, K. (2016). The Investigation of the Usage of Smart Textile Products in Different Sport Branches. International Journal of Sport Culture and Science, 4(Special Issue 3), 689-703.

THE IMPORTANCE OF NANO BIOSENSORS AND ETHICAL ELEMENTS IN SPORTS PERFORMANCE ANALYSIS

Yıl 2020, , 17 - 27, 26.06.2020
https://doi.org/10.38061/idunas.742366

Öz

Performance analysis is an indispensable element for elite sports success. Coaches and teams are constantly striving for ways to improve and maximize their performance. Effective use of performance analysis enables tactical, decision making, better athletic confidence and improvement of reflective coaching technique. Performance analysis is required for coaches and athletes to ensure consistent success rates, especially at elite levels. Although performance analysis seems necessary in elite sports, we should recognize the benefits and disadvantages associated with the individual athlete and sports system that regulate their distribution for their use. These are a new technology, nanobiosensor, a concept that combines biomedical field with sports engineering and nanotechnology and ethically addresses future performance analysis in sports. In this study, this concept is discussed. This innovative technology has the potential to revolutionize sports and enables athletes to collect real-time biological data electronically. Affinity-based nanobiosensors have also been taken into consideration in sports medicine and doping control analysis because they are cheap and easy-to-use, yet selectively analytical devices. Allows the use of the same sensor for multiple analyzes. At the same time, nanobiosensors can contribute to filling an important information gap about complementary evidence from their “on-site” use and pre-selecting the risk population of individuals to be targeted for a complete antidoping test; In sports medicine, they can contribute to obtaining analytical knowledge of physiological relevance from measurement of specific parameters or markers before, during and after physical exercise. However, as with many technologies, this technology may have undesirable uses. These unwanted uses are; data ownership and privacy may affect data privacy and well-being of athletes. While the use of nanobiosensors in sports analysis in the future offers many potential benefits, there is also a concern that they can be abused. For this reason, it is essential for sports organizations to consider the development of a sound, ethically informed governance framework before their increased use. Thus, the value of sports and athletes will become more prominent. For this reason, it is very important for athletes and their regulators to develop measures to ethically integrate this technology into sports.

Kaynakça

  • Evans, R., McNamee, M., Guy, O. (2017). Ethics, nanobiosensors and elite sport: The need for a new governance framework. Science and engineering ethics, 23(6), 1487-1505.
  • Baca, A., Kornfeind, P. (2006). Rapid feedback systems for elite sports training. IEEE Pervasive Computing, 5(4), 70-76.
  • Higson, S. P., Reddy, S. M., Vadgama, P. M. (1994). Enzyme and other biosensors: Evolution of a technology. Engineering Science & Education Journal, 3(1), 41-48.
  • Fraser, D. (1994). Glucose biosensors: the sweet smell of success. Medical Device Technology, 5, 44-44.
  • Mohanty, S. P., Kougianos, E. (2006). Biosensors: a tutorial review. Ieee Potentials, 25(2), 35-40.
  • Dijkstra, H. P., Pollock, N., Chakraverty, R., Alonso, J. M. (2014). Managing the health of the elite athlete: a new integrated performance health management and coaching model. British journal of sports medicine, 48(7), 523-531.
  • Atta, N. F., Galal, A., Ali, S. (2011). Nanobiosensors for health care. In Biosensors for Health, Environment and Biosecurity. IntechOpen.
  • Malik, P., Katyal, V., Malik, V., Asatkar, A., Inwati, G., Mukherjee, T. K. (2013). Nanobiosensors: concepts and variations. ISRN Nanomaterials, 2013.
  • Jia, W., Bandodkar, A. J., Valdés-Ramírez, G., Windmiller, J. R., Yang, Z., Ramírez, J., Wang, J. (2013). Electrochemical tattoo biosensors for real-time noninvasive lactate monitoring in human perspiration. Analytical chemistry, 85(14), 6553-6560.
  • Ray, T., Choi, J., Reeder, J., Lee, S. P., Aranyosi, A. J., Ghaffari, R., Rogers, J. A. (2019). Soft, skin-interfaced wearable systems for sports science and analytics. Current Opinion in Biomedical Engineering, 47-56
  • Hunter, L. (2011). Sport, technology and the body: The nature of performance; 255-257.
  • Miah, A. (2006). Rethinking enhancement in sport. Annals of the New York Academy of Sciences, 1093(1), 301-320.
  • Carr, C. L. (2008). Fairness and performance enhancement in sport. Journal of the Philosophy of Sport, 35(2), 193-207.
  • Meingast, M., Roosta, T., Sastry, S. (2006). Security and privacy issues with health care information technology. In 2006 International Conference of the IEEE Engineering in Medicine and Biology Society (pp. 5453-5458). IEEE.
  • Kegley, J. A. K. (2004). Challenges to informed consent. EMBO reports, 5(9), 832-836.
  • Kumar, P., Lee, H. J. (2012). Security issues in healthcare applications using wireless medical sensor networks: A survey. sensors, 12(1), 55-91.
  • MacGregor, O., Griffith, R., Ruggiu, D., McNamee, M. (2013). Anti-doping, purported rights to privacy and WADA’s whereabouts requirements: A legal analysis. FairPlay, Revista de Filosofia, Ética y Derecho del Deporte, 1(2), 13-38.
  • Kocakulak, N., Unal, I. (2019). Biochips for Physical Exercise Studies. Natural and Applied Sciences Journal, 2(1), 15-26.
  • Yi-Qiang, F. A. N., Feng, G. A. O., Mei, W. A. N. G., Zhuang, J., Gang, T. A. N. G., ZHANG, Y. J. (2017). Recent development of wearable microfluidics applied in body fluid testing and drug delivery. Chinese Journal of Analytical Chemistry, 45(3), 455-463.
  • Akçalı, K. (2016). The Investigation of the Usage of Smart Textile Products in Different Sport Branches. International Journal of Sport Culture and Science, 4(Special Issue 3), 689-703.
Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Derlemeler
Yazarlar

Neşe Akpınar Kocakulak 0000-0001-5798-263X

Ali Sabahattin Saygın 0000-0002-9040-9816

Yayımlanma Tarihi 26 Haziran 2020
Kabul Tarihi 25 Haziran 2020
Yayımlandığı Sayı Yıl 2020

Kaynak Göster

APA Akpınar Kocakulak, N., & Saygın, A. S. (2020). THE IMPORTANCE OF NANO BIOSENSORS AND ETHICAL ELEMENTS IN SPORTS PERFORMANCE ANALYSIS. Natural and Applied Sciences Journal, 3(1), 17-27. https://doi.org/10.38061/idunas.742366