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Title

PVA hydrogel deformation in response to change in temperature or pH

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2021

Volume

69

Issue

2

Affiliation

Kazimierska-Drobny, Katarzyna : Department of Mechatronics, Bydgoszcz Kazimierz Wielki University, Kopernika 1 street, 85-074 Bydgoszcz, Poland

Authors

Kazimierska-Drobny, Katarzyna

Keywords

PVA ; hydrogels ; non-contact method ; thermal deformation ; pH-sensitivity

Divisions of PAS

Nauki Techniczne

Coverage

e136724

Bibliography

  1.  C. Heras Alarcon, S. Pennadam, and C. Alexander, “Stimuli responsive polymers for biomedical applications”, Chem. Soc. Rev. 34, 276‒285 (2005).
  2.  P. Siriphannon and Y. Iamphaojeen, “Facile synthesis of chitosan/CuO nanocomposites for potential use as biocontrol agents”, Bull. Pol. Acad. Sci. Tech. Sci. 66(3), 311‒316 (2018).
  3.  N.A. Peppas, Y. Huang, M.A. Torres-Lugo, J.H. Ward, and J. Zhang, “Physicochemical foundations and structural design of hydrogels in medicine and biology”, Ann. Rev. Biomed. Eng. 9, 2–29 (2000).
  4.  F. Eeckman, K. Amighi, and A.J. Moes, “Effect of some physiological and non-physiological compounds on the phase transition temperature of thermoresponsive polymer intended for oral controlled drug delivery”, Int. J. Pharm. 222, 259‒270 (2001).
  5.  I. Hager, “Behaviour of cement concrete at high temperature”, Bull. Pol. Acad. Sci. Tech. Sci. 61(1), 145–154 (2013).
  6.  P. Lee, E. Cobain, J. Huard, and L. Huang, “Thermo sensitive hydrogel PEG-PLGA-PEG enhances engraftment of muscle-derived stem cell and promotes healing in diabetic wound”, Mol. Ther. 15(6), 1189‒1194 (2007).
  7.  Y. Qiu and K. Park, “Environment-sensitive hydrogels for drug delivery”, Drug Deliver. Rev. 53, 321‒339 (2001).
  8.  H. Muta, M. Miwa, and M. Satoh, “Ion-specific swelling of hydrophilic polymer gels”, Polymer 42, 6313–6316 (2001).
  9.  Y. Masuda, T. Tanaka, and T. Nakanishi, “Ion-specific swelling behavior of poly(vinyl alcohol) gel prepared by γ-ray irradiation”, Colloid. Polym. Sci. 279, 1241–1244 (2001).
  10.  K. Kazimierska-Drobny and M. Kaczmarek, “Identification of diffusive transport properties of poly(vinyl alcohol) hydrogels from reservoir test”, Mater. Sci. Eng. C. 33, 4533–4538 (2013).
  11.  K. Kazimierska-Drobny and M. Kaczmarek, ”Effect of NaCl and KCl solutions on deformation of PVA hydrogel – chemo-mechanical coupling” (in English), Polimery 1 (44) (2020).
  12.  W. Herrera-Kao, and W. Aquilar-Vega, “Storage modulus changes with temperature in poly(vinyl alcohol), PVA/poly(acrylic acid) PAA, blends”, Polym. Bull. 24, 449‒456 (1999).
  13.  H. Yamamoto, N. Heyamoto, T. Matsui, N. Nurayama, and J. Shibata, ”Volumetric change and surface properties of temperature-sensitive polyvinylalcohol (PVA) hydrogel”, Int. J. Thermophys. 24(5), 1385–1394 (2003).
  14.  O.W. Guirguis and M. Modelhey, “Thermal and structural studies of poly(vinyl alcohol) and hydroxypropyl cellulose blends”, Nat. Sci. 4(1), 57‒67 (2012).
  15.  Y. Liu, L. Geever, J.E. Kennedy, C.L. Higginbotham, P.A. Cahill, and G.B. McGuinness, “Thermal behavior and mechanical properties of physically crosslinked PVA/Gelatin hydrogels”, J. Mech. Behav. Biomed. Mater. 3, 203‒209 (2010).
  16.  B. Wang, M. Liu, Z. Chen, R. Liang, S. Ding, S. Chen, and S. Jin, “Preparation, characterization and controlled release investigation of interpenetrating polymer networks of poly(acrylic acid)/triazole modified poly(vinyl alcohol)”, Int. J. Pharm. 331, 19‒26 (2007).
  17.  F. Jiangi and G. Lixia, “PVA/PAA thermo-crosslinking hydrogel fiber: preparation and pH-sensitive properties in an electrolyte solution”, Eur. Polym. J. 38, 1653‒1658 (2002).
  18.  S.J. Kim, S.G. Yoon, S.L. Lee, S.H. Lee, and S.I. Kim, “Electrical Sensitivity Behavior of a Hydrogel Composed of Polymethacrylic Acid/Poly(vinyl alcohol)”, J. Appl. Polym. 91, 3613‒3612 (2004).
  19.  J. Lu, Y. Li, D. Hu, X. Chen, Y. Liu, L. Wang, and Y. Zhao, “Synthesis and properties of pH-, thermos-, and salt-sensitive modified poly(aspartic acid)/poly(vinyl alcohol) IPN hydrogel and its drug controlled release”, BioMed Res. Int. 2015, 1‒12 (2015).
  20.  P. Guo, J. Liang, Y. Li, H. Fu, H. Jing, S. Guan, D. Han, and L. Niu, “High strength and pH-responsive self-healing poly(vinyl alcohol/ poly 6-acrylamidohexanoic acid hydrogel based on dual physically cross-linked network”, Colloids Surf. A. 571, 64‒71 (2019).
  21.  Q. Zhang, L. Liu, H. Zhou, X. Wu, and K.D. Yao, “pH-responsive swelling behavior of collagen complex materials”, Artif. Cells Nanomed. Biotechnol. 28(3), 255‒262 (2000).
  22.  R. Morita, R. Honda, and Y. Takahashi, “Development of oral controlled release preparations, a PVA swelling controlled release system (SCRS). I. Design of SCRS and its release controlling factor”, J. Control Release 63, 297‒304 (2000).
  23.  M. El Fray, A. Pilaszkiewicz, W. Święszkowski, and K. Kurzydlowski, “Chemically and physically crosslinked poly(vinyl alcohol) hydrogels for cartilage repair”, E-Polymer. P-013, 1–6 (2005).
  24.  M. Liu, H. Su, and T. Tan,” Synthesis and properties of a thermos- and pH-sensitive poly(N-isopropyl acrylamide)/polyaspartic acid IPN hydrogels”, Carbohyd. Polym. 87, 2425‒2431 (2012).
  25.  H. Byun, B. Hong, S.Y. Nam, and S.Y. Jung, “Swelling Behavior and Drug Release of Poly(vinyl alcohol) Hydrogel Cross-Linked with Poly(acrylic acid)”, Macromol. Res. 16(3), 189‒193 (2008).
  26.  M. Rizwan, R. Yahya, Z. Hassan, and M. Azzahari, ”pH sensitive hydrogels in drug delivery: Brief history, properties, swelling, and release mechanism, material selection and applications”, Polymers 9, 137 (2017).
  27.  M. Sabzi, M.J. Afshari, and M. Babaahmadi, “pH-dependent swelling and antibiotic release from citric acid crosslinked poly(vinyl) alcohol (PVA)/nano silver hydrogels”, Colloids Surf. B. 1888, 110757 (2020).

Date

25.03.2021

Type

Article

Identifier

DOI: 10.24425/bpasts.2021.136724

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2021; 69; 2; e136724
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