Evaluación de tecnología Regeneractiv® en calcetines durante la marcha nórdica
- Aparicio Aparicio, Inmaculada
- Giménez Gil, Jose Vicente
- Pérez Soriano, Pedro
- Martínez Nova, Alfonso
- Macián Romero, Cecili
- Llana Benlloch, Salvador
ISSN: 0214-0071, 2386-4095
Año de publicación: 2012
Número: 28
Páginas: 101-110
Tipo: Artículo
Otras publicaciones en: European Journal of Human Movement
Resumen
Durante la práctica de actividad física es posible que aparezcan lesiones o dolencias en determinadas zonas del cuerpo, como son los pies. Posiblemente, algunas de estas lesiones están relacionadas con molestias por la interacción del pie con el calzado/calcetín, así como por el estado de hidratación de la piel. En este sentido, el objetivo de este estudio ha sido determinar la capacidad del calcetín "Regenerativ ®" en la percepción del confort y aportación en el nivel de hidratación en el pie durante una actividad física, concretamente la marcha nórdica. Para valorar el confort percibido se utilizó un cuestionario de preguntas de respuesta única. Para la valoración de la hidratación, se empleó un medidor de hidratación cutánea Hydrosensor (Microcaya, S.L). Los resultados mostraron mejoras significativas en dos de las variables de confort analizadas: comodidad y adaptabilidad (~10%); y en los niveles de hidratación en las cabezas metatarsales del 1º y del 5º dedo (~9%).
Referencias bibliográficas
- Alcántara, E., Artacho, M.A., González, J.C., García, A.C. (2005). Aplication of product semantics to footwear design. International Journal of Industrial Ergonomics, 35: 713-725.
- Basal, G., Ilgaz, S. (2009). A functional fabric for pressure ulcer prevention. Textile Research Journal, 79 (16): 1415-1426.
- Borelli, C., Bielfeldt, S., Borelli, S., schaller, M. and Korting, H.C. (2011). Cream or foam in pedal skin care: towards the ideal vehicle for urea used against dry skin. International Journal of Cosmetic Science, 33: 37-43.
- Borkow, G., Zatcoff, R., Gabbay, J. (2009). Reducing the risk of skin pathologies in diabetics by using copper impregnated socks. Medical Hypotheses, 73: 883-886.
- Chiu, M., Wang, M.J. (2007). Professional footwear evaluation for clinical nurses. Applied Ergonomics, 38: 133-141.
- Dai, X., Li, Y., Zhang, M., Tak-Man, J. (2006). Effect of sock on biomechanical responses of foot during walking. Clinical Biomechanics, 21: 314-321.
- Fouda, M.M.G.; Witke, R.; Knittel, D.; Schollmeyer, E. (2009). Use a chitosan/polyamine biopolymers based cotton as a model system to prepare antimicrobial wound dressing. International Journal of Diabetes Mellitus. 1: 61-64.
- Gao, Y., Cranston, R. (2008). Recent advances in antimicrobial treatments of textiles. Textile Research Journal, 78 (1): 60-72.
- García, T., Melissa, J. (2008). Industrialización de los crustáceos para la obtención de Quitosano en ungüento con efecto cicatrizante. Revista de la Facultad de Ingenieria Industrial. Vol. 11(2): 24-32.
- Garrigue, E., Martini, J., Cousty-Pech, F., Rouquier, A., Degouy, A. (2011). Evaluation of the moisturizer Pédimed® in the foot care of diabetic patients. Diabetes & Metabolism, 37, 4: 330-335.
- Garrow, A., Van Schie, C. and Boulton A. (2005). Efficacy of multilayered hosiery in reducing in-shoe plantar foot pressure in high-risk patients with diabetes. Diabetes Care. 28, (8).
- Grouios, G. (2004). Corns and calluses in athletes’ feet: a cause for concern. The Foot, 14: 175- 184.
- Hagen, M.; Hööme, A., Umlauf, T. and Hennig, E. (2010) Effects of Different Shoe-Lacing Patterns on Dorsal Pressure Distribution During Running and Perceived Comfort. Research in Sports Medicine. 18:3, 176-187.
- Hurlow, J., Zimmaro, D. (In Press). Dry skin in older adults. Geriatric Nursing Kinchington, M., Ball, K., Naughton, G. (2011). Relation between lower limb comfort and performance in elite footballers. Physical Therapy in Sport, DOI: 10.1016/j.ptsp.2011.02.001
- Knapik, J.J., Reynolds, K.L., Duplantis, K.L., Jones, B.H. (1995). Friction blisters: pathophysiology, prevention and treatment. Sports Medicine, 20: 136-147
- Kong, P.W., Bagdon, M. (2010). Shoe preference based on subjective comfort for walking and running. Journal of American Podiatric Medicine Association, 100 (6): 456-462.
- Kumar, M.N.V.R. (2000). A review of chitin and chitosan Applications. Reactive & Functional Polymers, 46: 1-27.
- Li, W., Liu, X.D., Cai, Z.B., Zheng, J., Zhou, Z.R. (2011). Effect of prosthetic socks on the frictional properties of residual limb skin. Wear. 271: 28042811.
- Lim, S., Hudson, S. (2004). Application of a fiber-reactive chitosan derivative to cotton fabric as an antimicrobial textile finish. Carbohydrate Polymers, 56: 227-234.
- Mailler-Savage, E.A., Adams, B.B. (2006). Skin manifestations of running. Journal of American Academy of Dermatology, 55: 290-301.
- Malgrange, D. (2008). Physiopathology of the diabetic foot. La revue de médecine interne, 29: 231-237.
- McLellan, K., Petrofsky, J.S., Bains, G., Zimmerman, G., Prowse, M., Lee, S. (2008). The effect of skin moisture and subcutaneous fat thickness on the ability of the skin to dissipate heat in young and old subjects, with and without diabetis, at three environmental room temperatures. Medical Engineering & Physics, 31: 165-172.
- MI, F., Wu, Y.B., Shyu, S., Chao, A., Lai, J., Su, CH. (2003). Asymetric chitosan membranes prepared by dry /wet phase separation: a new type of wound dressing for controlled antibacterial release. Journal of Membrane Science, 212: 237-254.
- Mills, K., Blanch, P., Vicenzino, B. (In Press). Comfort and midfoot mobility rather than orthosis hardness or contouring influence their immediate effects on lower limb function in patients with anterior knee pain. Clinical Biomechanics, DOI: 10.1016/j.clinbiomech.2011.08.011
- Ong, S., Wu, J., Moochhala, S.M., Tan, M., Lu, J. (2008). Development of a chitosan-based wound dressing with improved hemostàtic and antimicrobial properties. Biomaterials, 29: 4323-4332.
- Papanas, N., Papazoglou, D., Papatheodorou, K., Maltezos, E. (2011). Evaluation of a new foam to increase skin hydration of the foot in type 2 diabetes: a pilot study. International Wound Journal, 10: 1742-1748.
- Pérez-Soriano, P; Llana-Belloch, S; Martínez-Nova, A; Morey-Klapsing, G; EncarnaciónMartínez, A (2011), Nordic walking practice might improve plantar pressure distribution. Research Quarterly for Exercise and Sport, 82 (4 ): 593-599.
- Pérez-Soriano, P; Llana, S. (2007). Instrumentation in sport biomechanics. Journal of Human Sport and Exercise, 2 (2);1-16. http://www.jhse.ua.es/?s=article_detail&id=11.
- Pillai, C.K.S., Paul, W., Sharma, C.P. (2009). Chitin and chitosan plymers: Chemistry, solubility and fiber formation. Progress in Polymer Science. 34: 641-678.
- Polliack, A.A., Scheinberg, S. (2006). A new Technology for reducing shear and friction forces on the skin: Implications for blister care in the wilderness setting. Wilderness and Environmental Medicine. 17: 109-119.
- Purvis, A., Tunstall, H. (2004). Effect of sock type on foot skin temperature and thermal demand during exercise. Ergonomics, 47 (15): 1657-1668.
- Reynolds, K., Darrigrand, D.V.M., Roberts, D., Knapik, J., Pollard, J., Duplantis, K. and Jones, B. (1995). Effects of an antiperspirant with emol·lients on foot-sweat accumulation and blister formation while walking in the heat. Journal of American Academy of Dermatology, 33: 626-630.
- Tizón, E., Dovale, M.N., Fernández, C., López, M., Mouteria, M., Penabad, S., Rodriguez, O., Vázquez, R. (2004). Atención de enfermería en la prevención y cuidados del pie diabético. Aten primaria, 34 (5): 263-71.
- Witana, C.P., Goonetilleke, R.S., Xiong, S., Au, E.Y.L. (2009). Effects of surface characteristics on the plantar shape of feet and subjects’ perceived sensations. Applied Ergonomics, 40: 267-279.