HYDROGELS AS CONTROLLED DRUG DELIVERY SYSTEM A BRIEF REVIEW OF PROPERTIES CLASSIFICATION AND SYNTHESIS

http://dx.doi.org/10.31703/gpsr.2020(V-I).05      10.31703/gpsr.2020(V-I).05      Published : Dec 2020
Authored by : Hina Shoukat , Sobia Noreen , Saima Asghar

05 Pages : 40-49

References

  • Ahmed, E. M. (2015). Hydrogel: Preparation, characterization, and applications: A review. Journal of advanced research, 6(2), 105-121.
  • Ahmed, E. M., Aggor, F. S., Awad, A. M., & El-Aref, A. T. (2013). An innovative method for preparation of nanometal hydroxide superabsorbent hydrogel. Carbohydrate polymers, 91(2), 693- 698.
  • Allen, T. M., & Cullis, P. R. (2004). Drug delivery systems: entering the mainstream. Science, 303(5665), 1818-1822.
  • Bheemidi, V. S., Tiruckovela, M., & Varanasi, P. (2011). An Imperative Note on Novel Drug Delivery Systems. J Nanomedic Nanotechnol, 2(7), 2-5.
  • Chonn, A., & Cullis, P. R. (1995). Recent advances in liposomal drug-delivery systems. Current opinion in Biotechnology, 6(6), 698-708.
  • Dragan, E. S. (2014). Design and applications of interpenetrating polymer network hydrogels. A review. Chemical Engineering Journal, 243, 572- 590.
  • Ganji, F., & Vasheghani-Farahani, E. (2009). Hydrogels in controlled drug delivery systems. Iran Polym J, 18(1), 63-88.
  • Garg, T., Singh, O., Arora, S., & Murthy, R. (2011). Dendrimer-A novel scaffold for drug delivery. Int J Pharm Sci Rev Res, 7(2), 211-220.
  • Gothoskar, A. V. (2004). Resealed erythrocytes: a review. Pharmaceutical Technology, 28(3), 140- 155
  • Hennink, W. E., & van Nostrum, C. F. (2012). Novel crosslinking methods to design hydrogels. Advanced drug delivery reviews, 64, 223-236.
  • Hoare, T. R., & Kohane, D. S. (2008). Hydrogels in drug delivery: Progress and challenges. Polymer, 49(8), 1993-2007.
  • Ilić-Stojanović, S. S., Nikolić, L. B., Nikolić, V. D., & Petrović, S. D. (2017). Smart hydrogels for pharmaceutical applications Materials Science and Engineering: Concepts, Methodologies, Tools, and Applications (pp. 1133-1164): IGI Global.
  • Jain, K. K. (2008). Drug delivery systems (Vol. 2): Springer.
  • Jung, T., Kamm, W., Breitenbach, A., Kaiserling, E., Xiao, J., & Kissel, T. (2000). Biodegradable nanoparticles for oral delivery of peptides: is there a role for polymers to affect mucosal uptake? European Journal of Pharmaceutics and Biopharmaceutics, 50(1), 147-160.
  • Jyothi, N., Roy, H., Prasanhti, N. L., & Vajrapriya, V. S. (2016). A BRIEF REVIEW OF MICROPARTICLE DRUG DELIVERY SYSTEM.
  • Kaparissides, C., Alexandridou, S., Kotti, K., & Chaididou, S. (2006). Advanced drug delivery systems: New developments, new technologies. AzoM com Pvt L Ltd.
  • Khalid, S., Qadir, M., Massud, A., Ali, M., & Rasool, M. (2009). Effect of degree of cross-linking on swelling and drug release behaviour of poly (methyl methacrylate-co-itaconic acid)[P (MMA/IA)] hydrogels for site specific drug delivery. Journal of drug delivery science and technology, 19(6), 413.
  • Lin, C.-C., & Metters, A. T. (2006). Hydrogels in controlled release formulations: network design and mathematical modeling. Advanced drug delivery reviews, 58(12-13), 1379-1408.
  • Nikolić, V., Ilić-Stojanović, S., Petrović, S., Tačić, A., & Nikolić, L. (2019). Administration Routes for Nano Drugs and Characterization of Nano Drug Loading Characterization and Biology of Nanomaterials for Drug Delivery (pp. 587-625): Elsevier.
  • Noor, A., Mahmood, W., Afreen, A., & Uzma, S. (2014). DENDRIMERS AS NOVEL FORMULTION IN NANOTECHNOLOGY BASED TARGETED DRUG DELIVERY. World J Pharm Pharmaceut Sci, 4(1), 1509-1523.
  • Ogata, T., Nagayoshi, K., Nagasako, T., Kurihara, S., & Nonaka, T. (2006). Synthesis of hydrogel beads having phosphinic acid groups and its adsorption ability for lanthanide ions. Reactive and Functional Polymers, 66(6), 625-633.
  • Omidian, H., & Park, K. (2010). Introduction to hydrogels Biomedical applications of hydrogels handbook (pp. 1-16): Springer.
  • Patil, S., Rane, B., Bakliwal, S., & Pawar, S. (2011). Pragmatic hydrogels. International Journal of Research in Ayurveda and Pharmacy, 2(3), 758- 766.
  • Peppas, N., Bures, P., Leobandung, W., & Ichikawa, H. (2000). Hydrogels in pharmaceutical formulations. European Journal of Pharmaceutics and Biopharmaceutics, 50(1), 27- 46.
  • Reddy, P. D., & Swarnalatha, D. (2010). Recent advances in novel drug delivery systems. International Journal of PharmTech Research, 2(3), 2025-2027.
  • Rosiak, J. M., & Yoshii, F. (1999). Hydrogels and their medical applications. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 151(1- 4), 56-64.
  • Seidel, J. M., & Malmonge, S. M. (2000). Synthesis of polyHEMA hydrogels for using as biomaterials. Bulk and solution radical-initiated polymerization techniques. Materials Research, 3(3), 79-83.
  • Soppimath, K. S., Aminabhavi, T. M., Kulkarni, A. R., & Rudzinski, W. E. (2001). Biodegradable polymeric nanoparticles as drug delivery devices. Journal of controlled release, 70(1-2), 1- 20.
  • Torchilin, V. P. (2007). Micellar nanocarriers: pharmaceutical perspectives. Pharmaceutical research, 24(1), 1.
  • Vasir, J. K., Tambwekar, K., & Garg, S. (2003). Bioadhesive microspheres as a controlled drug delivery system. International journal of pharmaceutics, 255(1-2), 13-32.
  • Watts, P. J., & Lllum, L. (1997). Colonic drug delivery. Drug Development and Industrial Pharmacy, 23(9), 893-913.
  • Wilczewska, A. Z., Niemirowicz, K., Markiewicz, K. H., & Car, H. (2012). Nanoparticles as drug delivery systems. Pharmacological reports, 64(5), 1020- 1037.
  • Yang, L., Chu, J. S., & Fix, J. A. (2002). Colon-specific drug delivery: new approaches and in vitro/in vivo evaluation. International journal of pharmaceutics, 235(1-2), 1-15.
  • Zahedi, P., & Lee, P. I. (2007). Solid molecular dispersions of poorly water-soluble drugs in poly (2-hydroxyethyl methacrylate) hydrogels. European Journal of Pharmaceutics and Biopharmaceutics, 65(3), 320-328.
  • Zarzycki, R., Modrzejewska, Z., & Nawrotek, K. (2010). Drug release from hydrogel matrices. Ecol Chem Eng S, 17(2), 117-136.
  • Zdravković, A. S., Nikolić, L. B., Ilić-Stojanović, S. S., & Nikolić, V. D. (2017). The application of hydrogels based on N-isopropylacrylamide and anionic comonomers. Advanced Technologies, 6(1), 33-44.
  • Zhai, M., Li, J., Yi, M., & Ha, H. (2000). The swelling behavior of radiation prepared semi- interpenetrating polymer networks composed of polyNIPAAm and hydrophilic polymers. Radiation Physics and Chemistry (1993), 58(4), 397-400.

References

  • Ahmed, E. M. (2015). Hydrogel: Preparation, characterization, and applications: A review. Journal of advanced research, 6(2), 105-121.
  • Ahmed, E. M., Aggor, F. S., Awad, A. M., & El-Aref, A. T. (2013). An innovative method for preparation of nanometal hydroxide superabsorbent hydrogel. Carbohydrate polymers, 91(2), 693- 698.
  • Allen, T. M., & Cullis, P. R. (2004). Drug delivery systems: entering the mainstream. Science, 303(5665), 1818-1822.
  • Bheemidi, V. S., Tiruckovela, M., & Varanasi, P. (2011). An Imperative Note on Novel Drug Delivery Systems. J Nanomedic Nanotechnol, 2(7), 2-5.
  • Chonn, A., & Cullis, P. R. (1995). Recent advances in liposomal drug-delivery systems. Current opinion in Biotechnology, 6(6), 698-708.
  • Dragan, E. S. (2014). Design and applications of interpenetrating polymer network hydrogels. A review. Chemical Engineering Journal, 243, 572- 590.
  • Ganji, F., & Vasheghani-Farahani, E. (2009). Hydrogels in controlled drug delivery systems. Iran Polym J, 18(1), 63-88.
  • Garg, T., Singh, O., Arora, S., & Murthy, R. (2011). Dendrimer-A novel scaffold for drug delivery. Int J Pharm Sci Rev Res, 7(2), 211-220.
  • Gothoskar, A. V. (2004). Resealed erythrocytes: a review. Pharmaceutical Technology, 28(3), 140- 155
  • Hennink, W. E., & van Nostrum, C. F. (2012). Novel crosslinking methods to design hydrogels. Advanced drug delivery reviews, 64, 223-236.
  • Hoare, T. R., & Kohane, D. S. (2008). Hydrogels in drug delivery: Progress and challenges. Polymer, 49(8), 1993-2007.
  • Ilić-Stojanović, S. S., Nikolić, L. B., Nikolić, V. D., & Petrović, S. D. (2017). Smart hydrogels for pharmaceutical applications Materials Science and Engineering: Concepts, Methodologies, Tools, and Applications (pp. 1133-1164): IGI Global.
  • Jain, K. K. (2008). Drug delivery systems (Vol. 2): Springer.
  • Jung, T., Kamm, W., Breitenbach, A., Kaiserling, E., Xiao, J., & Kissel, T. (2000). Biodegradable nanoparticles for oral delivery of peptides: is there a role for polymers to affect mucosal uptake? European Journal of Pharmaceutics and Biopharmaceutics, 50(1), 147-160.
  • Jyothi, N., Roy, H., Prasanhti, N. L., & Vajrapriya, V. S. (2016). A BRIEF REVIEW OF MICROPARTICLE DRUG DELIVERY SYSTEM.
  • Kaparissides, C., Alexandridou, S., Kotti, K., & Chaididou, S. (2006). Advanced drug delivery systems: New developments, new technologies. AzoM com Pvt L Ltd.
  • Khalid, S., Qadir, M., Massud, A., Ali, M., & Rasool, M. (2009). Effect of degree of cross-linking on swelling and drug release behaviour of poly (methyl methacrylate-co-itaconic acid)[P (MMA/IA)] hydrogels for site specific drug delivery. Journal of drug delivery science and technology, 19(6), 413.
  • Lin, C.-C., & Metters, A. T. (2006). Hydrogels in controlled release formulations: network design and mathematical modeling. Advanced drug delivery reviews, 58(12-13), 1379-1408.
  • Nikolić, V., Ilić-Stojanović, S., Petrović, S., Tačić, A., & Nikolić, L. (2019). Administration Routes for Nano Drugs and Characterization of Nano Drug Loading Characterization and Biology of Nanomaterials for Drug Delivery (pp. 587-625): Elsevier.
  • Noor, A., Mahmood, W., Afreen, A., & Uzma, S. (2014). DENDRIMERS AS NOVEL FORMULTION IN NANOTECHNOLOGY BASED TARGETED DRUG DELIVERY. World J Pharm Pharmaceut Sci, 4(1), 1509-1523.
  • Ogata, T., Nagayoshi, K., Nagasako, T., Kurihara, S., & Nonaka, T. (2006). Synthesis of hydrogel beads having phosphinic acid groups and its adsorption ability for lanthanide ions. Reactive and Functional Polymers, 66(6), 625-633.
  • Omidian, H., & Park, K. (2010). Introduction to hydrogels Biomedical applications of hydrogels handbook (pp. 1-16): Springer.
  • Patil, S., Rane, B., Bakliwal, S., & Pawar, S. (2011). Pragmatic hydrogels. International Journal of Research in Ayurveda and Pharmacy, 2(3), 758- 766.
  • Peppas, N., Bures, P., Leobandung, W., & Ichikawa, H. (2000). Hydrogels in pharmaceutical formulations. European Journal of Pharmaceutics and Biopharmaceutics, 50(1), 27- 46.
  • Reddy, P. D., & Swarnalatha, D. (2010). Recent advances in novel drug delivery systems. International Journal of PharmTech Research, 2(3), 2025-2027.
  • Rosiak, J. M., & Yoshii, F. (1999). Hydrogels and their medical applications. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 151(1- 4), 56-64.
  • Seidel, J. M., & Malmonge, S. M. (2000). Synthesis of polyHEMA hydrogels for using as biomaterials. Bulk and solution radical-initiated polymerization techniques. Materials Research, 3(3), 79-83.
  • Soppimath, K. S., Aminabhavi, T. M., Kulkarni, A. R., & Rudzinski, W. E. (2001). Biodegradable polymeric nanoparticles as drug delivery devices. Journal of controlled release, 70(1-2), 1- 20.
  • Torchilin, V. P. (2007). Micellar nanocarriers: pharmaceutical perspectives. Pharmaceutical research, 24(1), 1.
  • Vasir, J. K., Tambwekar, K., & Garg, S. (2003). Bioadhesive microspheres as a controlled drug delivery system. International journal of pharmaceutics, 255(1-2), 13-32.
  • Watts, P. J., & Lllum, L. (1997). Colonic drug delivery. Drug Development and Industrial Pharmacy, 23(9), 893-913.
  • Wilczewska, A. Z., Niemirowicz, K., Markiewicz, K. H., & Car, H. (2012). Nanoparticles as drug delivery systems. Pharmacological reports, 64(5), 1020- 1037.
  • Yang, L., Chu, J. S., & Fix, J. A. (2002). Colon-specific drug delivery: new approaches and in vitro/in vivo evaluation. International journal of pharmaceutics, 235(1-2), 1-15.
  • Zahedi, P., & Lee, P. I. (2007). Solid molecular dispersions of poorly water-soluble drugs in poly (2-hydroxyethyl methacrylate) hydrogels. European Journal of Pharmaceutics and Biopharmaceutics, 65(3), 320-328.
  • Zarzycki, R., Modrzejewska, Z., & Nawrotek, K. (2010). Drug release from hydrogel matrices. Ecol Chem Eng S, 17(2), 117-136.
  • Zdravković, A. S., Nikolić, L. B., Ilić-Stojanović, S. S., & Nikolić, V. D. (2017). The application of hydrogels based on N-isopropylacrylamide and anionic comonomers. Advanced Technologies, 6(1), 33-44.
  • Zhai, M., Li, J., Yi, M., & Ha, H. (2000). The swelling behavior of radiation prepared semi- interpenetrating polymer networks composed of polyNIPAAm and hydrophilic polymers. Radiation Physics and Chemistry (1993), 58(4), 397-400.

Cite this article

APA

    APA : Shoukat, H., Noreen, S., & Asghar, S. (2020). Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis. Global Pharmaceutical Sciences Review, V(I), 40-49. https://doi.org/10.31703/gpsr.2020(V-I).05

CHICAGO

    CHICAGO : Shoukat, Hina, Sobia Noreen, and Saima Asghar. 2020. "Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis." Global Pharmaceutical Sciences Review, V (I): 40-49 doi: 10.31703/gpsr.2020(V-I).05

HARVARD

    HARVARD : SHOUKAT, H., NOREEN, S. & ASGHAR, S. 2020. Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis. Global Pharmaceutical Sciences Review, V, 40-49.

MHRA

    MHRA : Shoukat, Hina, Sobia Noreen, and Saima Asghar. 2020. "Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis." Global Pharmaceutical Sciences Review, V: 40-49

MLA

    MLA : Shoukat, Hina, Sobia Noreen, and Saima Asghar. "Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis." Global Pharmaceutical Sciences Review, V.I (2020): 40-49 Print.

OXFORD

    OXFORD : Shoukat, Hina, Noreen, Sobia, and Asghar, Saima (2020), "Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis", Global Pharmaceutical Sciences Review, V (I), 40-49

TURABIAN

    TURABIAN : Shoukat, Hina, Sobia Noreen, and Saima Asghar. "Hydrogels as Controlled Drug Delivery System: A Brief Review of Properties Classification and Synthesis." Global Pharmaceutical Sciences Review V, no. I (2020): 40-49. https://doi.org/10.31703/gpsr.2020(V-I).05