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Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications

Year 2014, Volume: 42 Issue: 1, 63 - 69, 01.03.2014

Abstract

Collagen is very important part of the fibrous proteins in the living organism. Animal tissues, especially tendons main structure contain collagen. In this investigation, natural collagen coll modified with differ- ent synthetic monomers such as 2-hydroxy ethylmethacrylate HEMA and acrylamide AAm was prepared as p Coll-co-HEMA and p Coll-co-AAm composites to enhance collagen natural characteristics. Biocompatibility of the prepared interpenetrating polymeric network IPN was tested with MTT Assay and found biocompat- ible. Model drugs, such as Trimetoprim TMP and Naproxene NP were used as antibacterial active agents for release studies from the synthesized composite hydrogel-collagen IPN matrices. The drug-loaded IPN films release studies were carried out in bio-mimetic media. It was found that collagen-synthetic polymer matrices can be readily prepared and used for drug delivery system in the release of active agents, providing great po- tential in wound dressing applications.

References

  • G. Reich, From Collagen To Leather-The Theoretical Background, Basf, (2007)
  • B. Madhan, P. Thanikaivelan, V. Subramanian, R.J. Raghava, B.U. Nair, T. Ramasami, Molekular mechanics snd dynamics studies on the interaction of gallic acid with collagen-like peptides, Chem. Phys. Letter., 346, (2001) 334.
  • J. Li, A. Mak, Transfer of collagen coating from porogen to scaffold: collagen coating within poly (dl- lactic –co-glycolic acid) scaffold, Composites: Part B, 38 (2007), 317.
  • H. Kim, H. Hobbs, I. Wang M. Rutten C. Wamser, Biocompatible composites of polyaniline nanofibers and collagen, Synthetic Metal., 159 (2009), 1313.
  • M. Maeda, S. Tani, A. Sano, K. Fujioka, Microstructure and release characteristics of the minipellet, a collagen-based drug delivery system for controlled release of protein drugs, J. Cont. Release., 62 (1999), 313
  • C. Chaubaroux, E. Vrana, C.,Debry, P. Schaaf, B., Senger, J. Voegel, Y. Haikel, C. Ringwald, J. Hemmerlé, P. Lavalle, and F. Boulmedais, Collagen-based fibrillar multilayer films crosslinked by a natural agent Biomacromolecules, 13 (2009) 2128.
  • Z. Cheng, S. Teoh, Surface modification of ultra thin poly(e-caprolactone) films using acrylic acid and collagen, Biomaterials, 25 (2004) 1991.
  • Y. Di, R. Heath, Collagen stabilization and modification using a polyepoxide, triglycidylisocyanurate, Polym. Degrad. Stability, 94 (2009) 1684.
  • Y. Li, T.T. Thula, S. Jee, S.L. Perkins, C. Aparicio, E.P. Douglas, L.B., Gower, Biomimetic mineralization of woven bone-like nanocomposites: role of collagen cross-links, Biomacromolecules, 13 (2012) 49.
  • J.T. Lu, C. Lee, S. Bent, H. Fishman, E.E. Sabelman, Thin collagen film scaffolds for retinal epithelial cell culture, Biomaterials, 28 (2007) 1486.
  • W.T Brinkman, K. Nagapudi, B.S. Thomas, E.L. Chaikof, Photo-cross-linking of type I collagen gels in the presence of smooth muscle cells: mechanical properties, cell viability, and function, Biomacromolecules, 4 (2003) 890 .
  • B. Hoyer, A. Bernhardt, S. Heinemann, I. Stachel, M. Meyer, M., Gelinsky, Biomimetically mineralized salmon collagen scaffolds for application in bone tissue engineering, Biomacromolecules, 13 (2009) 1059.
  • K. Nam, T. Kimura, A. Kishida, Physical and biological properties of collagen-phospholipid polymer hybrid gels, Biomaterials, 28 (2007) 3153.
  • N. Sahiner, A facile method for the Preparation of Poly(4-vinylpyridine) nanoparticles and their characterization. Tr J. Chem., 33 (2009) 23.
  • M. Harmancioğlu, Deri Kimyası, Ege Ü. Ziraat Fak. Yayınları, 1998.
  • C.Yang, L. Xu, Y., Zhou, X. Zhang, X. Huang, M.Wang, Y. Han, M. Zhai, S. Wei,and J. Li, A green fabrication approach of gelatin/cm-chitosan hybrid hydrogel for wound healing, Carbohyd. Polym., 82 (2010) 1297.
  • C. Sılan, A. Akcali, M.T. Otkun, N. Ozbey, S. Butun, O. Ozay, N. Sahiner, Novel hydrogel particles and their IPN films as drug delivery systems with antibacterial properties. Colloid Surf. B., 89 (2012) 248.

Potansiyel yara örtü uygulamaları için kollajen esaslı kompozit malzemelerin sentetik polimeler ile hazıranması

Year 2014, Volume: 42 Issue: 1, 63 - 69, 01.03.2014

Abstract

K ollajen yaşayan organizmada fibril proteinlerin önemli bir kısmıdır. Hayvan dokularında özellikle tendonların ana yapısı kollajen içerir. Bu çalışmada doğal kollajen coll 2-hidroksil etilmetakrilat HEMA ve akrilamid AAm gibi değişik sentetik monomerler ile modifiye edilerek p Coll-ko-HEMA ve p Coll-ko-AAm şekilde kollajenin doğal karakteristiklerini artırmak için kompozit olarak hazırlanmışlardır. Hazırlanan iç içe geçmiş ağ yapıların IPN biyouyumluluk testleri MTT assay ile yapılmış ve biyouyumlu bulunmuştur. Trimetoprim TMP and Naproksen NP gibi antibakterial aktif ajanlar model ilaç olarak kullanılmış ve sentezlenen kompozithidrojel-kollajen IPN matrikslerinden salım çalışmaları yapılmıştır. İlaç yüklenen IPN-filmleri salım çalışmaları biyomimetik ortamda yapılmıştır. Kollejen-sentetik polimer matrikslerinin kolayca hazırlanabildiği ve aktif ajan salımı için ilaç salım sistemi olarak kullanılabilirliği sonucu çıkarılarak yara örtü uygulamalarınnda büyük potansiyele sahip olduğu bulunmuştur

References

  • G. Reich, From Collagen To Leather-The Theoretical Background, Basf, (2007)
  • B. Madhan, P. Thanikaivelan, V. Subramanian, R.J. Raghava, B.U. Nair, T. Ramasami, Molekular mechanics snd dynamics studies on the interaction of gallic acid with collagen-like peptides, Chem. Phys. Letter., 346, (2001) 334.
  • J. Li, A. Mak, Transfer of collagen coating from porogen to scaffold: collagen coating within poly (dl- lactic –co-glycolic acid) scaffold, Composites: Part B, 38 (2007), 317.
  • H. Kim, H. Hobbs, I. Wang M. Rutten C. Wamser, Biocompatible composites of polyaniline nanofibers and collagen, Synthetic Metal., 159 (2009), 1313.
  • M. Maeda, S. Tani, A. Sano, K. Fujioka, Microstructure and release characteristics of the minipellet, a collagen-based drug delivery system for controlled release of protein drugs, J. Cont. Release., 62 (1999), 313
  • C. Chaubaroux, E. Vrana, C.,Debry, P. Schaaf, B., Senger, J. Voegel, Y. Haikel, C. Ringwald, J. Hemmerlé, P. Lavalle, and F. Boulmedais, Collagen-based fibrillar multilayer films crosslinked by a natural agent Biomacromolecules, 13 (2009) 2128.
  • Z. Cheng, S. Teoh, Surface modification of ultra thin poly(e-caprolactone) films using acrylic acid and collagen, Biomaterials, 25 (2004) 1991.
  • Y. Di, R. Heath, Collagen stabilization and modification using a polyepoxide, triglycidylisocyanurate, Polym. Degrad. Stability, 94 (2009) 1684.
  • Y. Li, T.T. Thula, S. Jee, S.L. Perkins, C. Aparicio, E.P. Douglas, L.B., Gower, Biomimetic mineralization of woven bone-like nanocomposites: role of collagen cross-links, Biomacromolecules, 13 (2012) 49.
  • J.T. Lu, C. Lee, S. Bent, H. Fishman, E.E. Sabelman, Thin collagen film scaffolds for retinal epithelial cell culture, Biomaterials, 28 (2007) 1486.
  • W.T Brinkman, K. Nagapudi, B.S. Thomas, E.L. Chaikof, Photo-cross-linking of type I collagen gels in the presence of smooth muscle cells: mechanical properties, cell viability, and function, Biomacromolecules, 4 (2003) 890 .
  • B. Hoyer, A. Bernhardt, S. Heinemann, I. Stachel, M. Meyer, M., Gelinsky, Biomimetically mineralized salmon collagen scaffolds for application in bone tissue engineering, Biomacromolecules, 13 (2009) 1059.
  • K. Nam, T. Kimura, A. Kishida, Physical and biological properties of collagen-phospholipid polymer hybrid gels, Biomaterials, 28 (2007) 3153.
  • N. Sahiner, A facile method for the Preparation of Poly(4-vinylpyridine) nanoparticles and their characterization. Tr J. Chem., 33 (2009) 23.
  • M. Harmancioğlu, Deri Kimyası, Ege Ü. Ziraat Fak. Yayınları, 1998.
  • C.Yang, L. Xu, Y., Zhou, X. Zhang, X. Huang, M.Wang, Y. Han, M. Zhai, S. Wei,and J. Li, A green fabrication approach of gelatin/cm-chitosan hybrid hydrogel for wound healing, Carbohyd. Polym., 82 (2010) 1297.
  • C. Sılan, A. Akcali, M.T. Otkun, N. Ozbey, S. Butun, O. Ozay, N. Sahiner, Novel hydrogel particles and their IPN films as drug delivery systems with antibacterial properties. Colloid Surf. B., 89 (2012) 248.
There are 17 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Mehtap Sahiner This is me

Sultan Butun This is me

Duygu Alpaslan This is me

B. Oral Bitlisli This is me

Publication Date March 1, 2014
Published in Issue Year 2014 Volume: 42 Issue: 1

Cite

APA Sahiner, M., Butun, S., Alpaslan, D., Bitlisli, B. O. (2014). Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications. Hacettepe Journal of Biology and Chemistry, 42(1), 63-69.
AMA Sahiner M, Butun S, Alpaslan D, Bitlisli BO. Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications. HJBC. March 2014;42(1):63-69.
Chicago Sahiner, Mehtap, Sultan Butun, Duygu Alpaslan, and B. Oral Bitlisli. “Preparation of Collagen Based Composite Materials With Synthetic Polymers for Potential Wound Dressing Applications”. Hacettepe Journal of Biology and Chemistry 42, no. 1 (March 2014): 63-69.
EndNote Sahiner M, Butun S, Alpaslan D, Bitlisli BO (March 1, 2014) Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications. Hacettepe Journal of Biology and Chemistry 42 1 63–69.
IEEE M. Sahiner, S. Butun, D. Alpaslan, and B. O. Bitlisli, “Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications”, HJBC, vol. 42, no. 1, pp. 63–69, 2014.
ISNAD Sahiner, Mehtap et al. “Preparation of Collagen Based Composite Materials With Synthetic Polymers for Potential Wound Dressing Applications”. Hacettepe Journal of Biology and Chemistry 42/1 (March 2014), 63-69.
JAMA Sahiner M, Butun S, Alpaslan D, Bitlisli BO. Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications. HJBC. 2014;42:63–69.
MLA Sahiner, Mehtap et al. “Preparation of Collagen Based Composite Materials With Synthetic Polymers for Potential Wound Dressing Applications”. Hacettepe Journal of Biology and Chemistry, vol. 42, no. 1, 2014, pp. 63-69.
Vancouver Sahiner M, Butun S, Alpaslan D, Bitlisli BO. Preparation of collagen based composite materials with synthetic polymers for potential wound dressing applications. HJBC. 2014;42(1):63-9.

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