Wpływ poliestru na zdrowie człowieka

• Authors: Michał Zych , Wiesław Pilis

Title variants

EN

Polyester Impact on Human Health

• Languages of publication: PL

Abstracts

W prezentowanej pracy dokonano analizy piśmiennictwa dotyczącego wpływu poliestru na zdrowie człowieka. Poliester jest syntetyczną żywicą używaną w produkcji odzieży, guzików, bu-telek itp. i z powodu swej trwałości oraz niskich kosztów produkcji stał się jednym z bardziej sze-roko używanych związków syntetycznych. Jest dobrze wiadomym, że rodzaj surowca, z którego jest wykonany dany produkt, może mieć wpływ na organizm człowieka. Zatem celem prezentowanej pracy była ocena wpływu poliestru na biochemiczne i fizjologiczne parametry organizmu człowieka.

EN

In this paper an analysis of the literature on the impact of polyester on human health. Polyester is a synthetic resin used in the production of clothing, buttons, bottles, etc., and because of their durability and low cost of production has become one of the most widely used synthetic compounds. It is well known that the type of material it is made of a product can affect the human body. Thus the aim of the present study was to evaluate the impact of polyester on the biochemical and physiological characteristics of the human body.

Keywords

PL

poliester, włókna poliestrowe, zdrowie człowieka.

• Publisher: Wydawnictwo im. Stanisława Podobińskiego Akademii im. Jana Długosza w Częstochowie
• Journal: Prace Naukowe Akademii im. Jana Długosza w Częstochowie Kultura Fizyczna
• Year: 2013
• Volume: 12
• Issue: 2
• Pages: 161-171

Contributors

author

Michał Zych

• Instytut Kultury Fizycznej i Turystyki Akademii im. J. Długosza w Częstochowie.

author

Wiesław Pilis

• Instytut Kultury Fizycznej i Turystyki Akademii im. J. Długosza w Częstochowie.

References

• Aizenshtein E.M. (2009): Polyester fibres continue to dominate on the world textile raw materials balance sheet. Fibre Chemistry 41 (1), 1–8.
• Aizenshtein E.M. (2012): International exhibition of technical textiles and nonwovens in Frankfurt. Fibre Chemistry 43 (5), 388–394.
• Aizenshtein E.M. (2012): Production and use of chemical fibres in 2010. Fibre Chemistry 43(4), 395–405.
• Bogo J. (1999): Polyester Clothing, Paint Cans and Pest Control. The Environmental Magazine, 10: 64.
• Choe S.Y., Kim S.J., Hae-Gyoung K., Lee J.H., Choi Y., Lee H. (2003): Evaluation of estrogenicity of major heavy metals. Sci. Total Environ. 312(1), 15–21.
• Ciesielska I., Mokwiński M., Orłowska-Majdak M. (2008): Influence of different kind of clothing material on selected cardiovascular, respiratory and psychomotor parameters turning moderate physical exercise. Inter. J. of Occupational Med. And Envi. Health 22(3), 215–226.
• Fila M., Banach M., Zwoliński R. (2000): Ocena procesów gojenia po zastosowaniu materiałów syntetycznych pod postacią siatki poliestrowej, powlekanej poliuretanem tegmentum, wszczepianej w otrzewną u szczurów. Polimery Med. 30 (3/4), 89–98.
• Gavin T.P. (2003). Clothing and Thermoregulation During Exercise. Sports Medicine 33(13), 941–94.
• Gonzales B. R., Haqin V., Guillot R., Placet V., Groslambert A. (2011): Effects of polyester jerseys on psycho-physiological responses during exercise in a hot and moist environment. J. Strength Cond Res. 25(12), 3432–3438.
• Gorenšek M., SlugaF. (2004). Modifying the UV Blocking Effect of Polyester Fabric. Textile Res. J. 74(6), 469–474.
• Grzybowski J., Trafny E.A. (1999): Antimicrobial properties of copper-coated electroconductive polyester fibres. Polimery Med. 29 (1/2), 27–33.
• Isaeva V.I., Aizenshtein E.M., Soboleva O.N. (1997): World production and use of polypropylene fibres and thread. A review. Fibre Chemistry 29(5), 269–281.
• Le Coz C.J. (2011): Clothing. Contact Dermatitis 6: 793–817.
• Legnani C., Alberto V., Terzaghi C., Borgo E., Albisetti W. (2009): Anterior cruciate ligament reconstruction with synthetic grafts. A review of literature. Inter. Orthopaedics 34, 465–471.
• Mendelson Ch. (2004): Your Best Bed. Prevention 56(1), 95–98.
• Milewski A., Staniszewska-Kuś J., Rutowski R., Solski L., Pielka S. (2002): Tissue reaction following the implantation of a DALLON H vascular prosthesis in the thoracic aorta defect. Experiemntal test. Polimery Med. 32(1/2): 23–40.
• Montuori P., Jover E., Morgantini M., Bayona J. M., Triassi M. (2008): Assessing human exposure to phthalic acid and phthalate esters from mineral water stored in polyethylene terephthalate and glass bottles. Food Add. Contamin. 25(4), 511–518.
• Paluch D., Szymonowicz M., Pielka S., Majda J. (2001): The influence of the materials with different moisture surface on the chosen factors of blood coagulation. Polimery Med. 31 (1/2), 27–32.
• Paluch D., Szymonowicz M., Pielka S., Rutowski R. (2002): In vitro studies of the influence polyester materials with a different degree of surface wettability have on blood haematological parameters and coagulation and fibrinolysis system parameters. Polimery Med. 32(1/2), 41–64.
• Pimentel J.C., Avila R., Lourenco A.G. (1975): Respiratory disease caused by synthetic fibres: a new occupational disease. Thorax 30, 204–219.
• Pinto B, Reali D. (2009): Screening of estrogen-like activity of mineral water stored in PET bottles. Int. J. Hyg. Environ. Health 212(2), 228–232.
• Pyska A., Zimniewska M., Witmanowski H. (2005): The influence of natural and synthetic fibers on selected parameters of human health. Przew. Lek. 8, 79–83.
• Sadowski B., Rodriguez J., Symmonds R., Roberts J., Song J., Hasan Rajab M., Cummings C., Hodges. (2010): Comparison of polypropylene versus polyester mesh in the Lichtenstein hernia repair with respect to chronic pain and discomfort. Hernia ,15, 643–654.
• Sax L. (2009): Polyethylene Terephthalate May Yield Endocrine Disruptors. Environ. Health Perspectives 118(4), 445–448.
• Shotyk S., Krachler M. (2007): Contamination of bottled waters with antimony leaching from polyethylene terephthalate (PET) increases upon storage. Environ. Sci. Technol. 41(5), 1560–1563.
• Spassovski M. (1976): Health Hazards in the Production and Pro-cessing of Some Fibres, Resins, and Plastics in Bulgaria. Environmental Health Perspectives 17, 199–202.
• Struszczyk M. H., Bednarek P., Raczyński K. (2002): Poliestrowe protezy naczyniowe. Polimery Med. 32(1/2), 13–22.
• Takashima M., Shirai F., Sageshima M., Ikeda N., Okamoto Y., Dohi Y. (2004): Distinctive bacteria-binding property of cloth materials. Am. J. Infect Control 32, 27–30.
• Troynikov O., Wardiningsih W. (2011): Moisture management properties of wool/polyester and wool/bamboo knitted fabrics for the sportswear base layer. Textile Res. J. 81(6), 621–631.
• Wagner M, Oehlmann J. (2009): Endocrine disruptors in bottled mineral water: total estrogenic burden and migration from plastic bottles. Environ Sci Pollut Res Int 16(3), 278–286.
• Weil E.D., Levchik S. (2008): Flame Retardants in Commercial Use or Development for Textiles. J. Fire Sci. 26(3), 243–281.
• Yamashita H., Nakano Y. (2008): Polyester: Properties, Preparation and Applications. Nova Science Publishers.
• Yao L. (2009): Effects of clothing on skin physiology. The Hong Kong Polytechnic University, 6–24.
• Zaidi Z., Lanigan S.W. (2010): Skin: Structure and Function. Derma-tology in Clinical Practice, 1–15.
• Zimniewska M. (2007): Analiza składu surowcowego wyrobów odzieżowych na wybrane parametry fizjologiczne człowieka. Zeszyty Naukowe. Włókiennictwo/Politechnika Łódzka 63, 139–159.
• Zimniewska M., Huber J., Krucińska I., Torlińska T., Kozłowski R. (2002): The Influence of Clothes Made from Natural and Synthetic Fibres on the Activity of the Motor Units in Selected Muscles in the Forearm - Preliminary Studies. Fibres & Textiles in Eastern Europe., 55–59.
• Zimniewska M., Michalak M., Krucińska I., Więcek B. (2003): The physical properties of the surface of apparel made from flax and polyester fibr es. Inter. J. of Clot. Scien. and Techn. 15(3/4), 284–294.