Alexander, J & Rhodes, D. (2021). Thermography for defining efficiency of cryotherapy modalities in sport. Comment on: Alexander, J., Selfe, J., Birdsall, D., Rhodes, D. The effects of three different cryotherapy modalities on skin surface temperature across squad positions in a population of male, rugby union players. Int J Sports Physical Therapy. 2020;15(2): 210-220. Temperature, 8 (2), 105-107. Zugriff am 06.05.2021 unter https://doi.org/10.1080/23328940.2020.1819517
APA-Zitierstil (7. Ausg.)Alexander, J., & Rhodes, D. (2021). Thermography for defining efficiency of cryotherapy modalities in sport. Comment on: Alexander, J., Selfe, J., Birdsall, D., Rhodes, D. The effects of three different cryotherapy modalities on skin surface temperature across squad positions in a population of male, rugby union players. Int J Sports Physical Therapy. 2020;15(2): 210-220. Temperature, 8(2), 105-107.
Chicago-Zitierstil (17. Ausg.)Alexander, J., und D. Rhodes. "Thermography for Defining Efficiency of Cryotherapy Modalities in Sport. Comment on: Alexander, J., Selfe, J., Birdsall, D., Rhodes, D. The Effects of Three Different Cryotherapy Modalities on Skin Surface Temperature Across Squad Positions in a Population of Male, Rugby Union Players. Int J Sports Physical Therapy. 2020;15(2): 210-220." Temperature 8, no. 2 (2021): 105-107.
MLA-Zitierstil (9. Ausg.)Alexander, J., und D. Rhodes. "Thermography for Defining Efficiency of Cryotherapy Modalities in Sport. Comment on: Alexander, J., Selfe, J., Birdsall, D., Rhodes, D. The Effects of Three Different Cryotherapy Modalities on Skin Surface Temperature Across Squad Positions in a Population of Male, Rugby Union Players. Int J Sports Physical Therapy. 2020;15(2): 210-220." Temperature, vol. 8, no. 2, 2021, pp. 105-107.