Influence of rehabilitation treatment on biological-molecular processes soft tissue injury healing

Authors

  • Elżbieta Miller Z Oddziału Rehabilitacji III Miejskiego Szpitala im. K. Jonschera w Łodzi

Keywords:

rehabilitation, injury, soft tissue, biochemical processes

Abstract

The healing process is biological phenomenon, developed during the years of the phylogenetic development. ‘Due to development of the molecular biology it was affirmed that the healing of injured soft tissues is a result of co-operation of many molecular processes contribute to improve effects of treatment and rehabilitation. The main goal of treatment is healing of injury and formation functional scar in the shortest and safest time. Heal of injury occur with replace high-worth and specialistic tissue by low-worth scar tissue. Tendon and ligament tissue are build from collagen. Ability to weight after trauma collagen ackives after 300-500 days. That time can be shorter by using rehabilitation. Proper exercises and physiotherapy gradually increase elasticity and resistance of scare tissue. However even total healing doesn't assure full physiological strength. Rehabilitation is assisting by physiotherapy. Among many different forms of physiotherapies in soft tissue injury cryotherapy is worth attention because of: analgetic, anty‘imflammatory, antyoedema effects.

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References

Bosch U., Krettek C.: Tissue engeneering of tendons and ligaments, A New challenge. Unfallchirurg, 2002, 105, 87.

Nowak L., Olejek A.: Biologiczno-molekularne aspekty gojenia się ran pooperacyjnych, „Gin.Prakt.” 2004, 12, 2–30.

Kjaer M., Magnusson P., Krogsgaard M., Boysen Moller J.: Extracellular matrix adaptation of tendon and skeletal muscle, “J Anat” 2006, 208, 445–50.

Miller B., Hansen M., Olesn J., Schwarz P., Babraj J.: Tendon collage synthesis At rest and after exercise in woman, “J Appy Physiol”, 2007, 102, 507.

Suzuki D., Takahashi M., Abe M., Nagano A.: Biochemical study of collage and its crosslinks in the interior cruciate ligament and tissues used as a graft for reconstraction of interior cruciate ligament, “Connect Tissue Res” 2008, 49, 42–7.

Fuller G., Shields G.: Podstawy molekularne biologii komórki, PZWL, Warszawa 2005, 208–213.

Griffin L. Rehabilitation of the injured knee. St.Louis, Missouri:Mosby Year Book, 1995, 34–78.

Miller E., Rutkowski M., Mrowicka M.: Udział reaktywnych form tlenu w uszkodzeniu mięśni wywołanym hipokinezją, Merk Lek, 2007, 130, 314–317.

Hunter D. Principles of rehabilitation. W: Hackney R., Wallace A. Sports medicine handbook. London: BMJ Books, 1999, 453–472.

Miller E. Rola pielęgniarki w profilaktyce wybranych powikłań związanych z unieruchomieniem chorego, Problemy Pielęg, 2007, 15, 278–284.

Gawroński W.: Dziesięć zasad rehabilitacji w medycynie sportowej, „Medicina Sportiva” 2005, 9, 363–5.

Miller E.: Porównanie skuteczności krioterapii miejscowej i ogólnoustrojowej w bólu przewlekłym, „Fizjol. Pol.” 2006, 1, 27–32.

Zimmer K., Zagrobelny Z.: Zastosowanie temperatur kriogenicznych w medycynie i fizjoterapii sportowej, „Med Sport” 1999, 94, 8–12.

Dugue B., Leppanen E. Adaptation related to cytokines in man:effects of regular swimming in ice-cold water. Clin Physiol, 2000, 20, 114–21.

Cedidi C., Ingianni G. Compression therapy after complex soft tissue trauma and flap coverage: optimization of scar development, sewlling, function and aesthic result. “Eur J Res” 2006, 21, 85–9.

Magnusson S., Hansen M., Langberg H., Miller B.: The adaptability of tendon to loading differs in men and women, “Int J Exp Pathol” 2007, 88, 237–40.

Published

2008-06-30

How to Cite

Miller, E. (2008). Influence of rehabilitation treatment on biological-molecular processes soft tissue injury healing. European Journal of Clinical and Experimental Medicine, 6(2), 188–192. Retrieved from https://journals.ur.edu.pl/ejcem/article/view/13267