References
- Cirillo G, Spizzirri UG, Curcio M, et al. Injectable hydrogels for cancer therapy over the last decade. Pharmaceutics. 2019;11(9):486.
- Ahmed EM. Hydrogel: preparation, characterization, and applications: a review. J Adv Res. 2015;6(2):105–121.
- Khalid I, Ahmad M, Minhas MU, et al. Synthesis and evaluation of chondroitin sulfate based hydrogels of loxoprofen with adjustable properties as controlled release carriers. Carbohydr Polym. 2018;181:1169–1179.
- Qu X, Wirsen A, Albertsson AC. Novel pH-sensitive chitosan hydrogels: swelling behavior and states of water. Polymer. 2000;41(12):4589–4598.
- Balgude AP, Yu X, Szymanski A, et al. Agarose gel stiffness determines rate of DRG neurite extension in 3D cultures. Biomaterials. 2001;22(10):1077–1084.
- Kestwal RM, Bagal-Kestwal D, Chiang BH. Fenugreek hydrogel-agarose composite entrapped gold nanoparticles for acetylcholinesterase based biosensor for carbamates detection. Anal Chim Acta. 2015;886:143–150.
- Azam F, Ijaz H, Qureshi J. Functionalized crosslinked interpenetrating polymeric network for pH responsive colonic drug delivery. Int J Polym Mater Polym Biomater. 2021;70(1):646–655.
- Ijaz H, Tulain UR, Azam F, et al. Thiolation of arabinoxylan and its application in the fabrication of pH-sensitive thiolated arabinoxylan grafted acrylic acid copolymer. Drug Dev Ind Pharm. 2019;45(5):754–766.
- Ijaz H, Tulain UR, Qureshi J. Formulation and in vitro evaluation of pH-sensitive cross-linked xanthan gum-grafted acrylic acid copolymer for controlled delivery of perindopril erbumine (PE). Polym-Plastics Technol Eng. 2018;57(5):459–470.
- Liu J, Jiang Y, Cui Y, et al. Cytarabine-AOT catanionic vesicle-loaded biodegradable thermosensitive hydrogel as an efficient Cytarabine delivery system. Int J Pharm. 2014;473(1–2):560–571.
- Liu J, Liu J, Zhao D, et al. Highly enhanced leukemia therapy and oral bioavailability from a novel amphiphilic prodrug of Cytarabine. RSC Adv. 2016;6(42):35991–35999.
- Ye XN, Zhou XP, Wei JY, et al. Epigenetic priming with decitabine followed by low-dose idarubicin/Cytarabine has an increased anti-leukemic effect compared to traditional chemotherapy in high-risk myeloid neoplasms. Leuk Lymphoma. 2016;57(6):1311–1318.
- Capizzi RL, White JC, Powell BL, et al. Effect of dose on the pharmacokinetic and pharmacodynamic effects of Cytarabine. Semin Hematol. 1991;28(4):54–69.
- Hamada A, Kawaguchi T, Nakano M. Clinical pharmacokinetics of Cytarabine formulations. Clin Pharmacokinet. 2002;41(10):705–718.
- Olad A, Zebhi H, Salari D, et al. A promising porous polymer-nanoclay hydrogel nanocomposite as water reservoir material: synthesis and kinetic study. J Porous Mat. 2018;1:1–11.
- Mahmood AA, Sharif FM, Sarfraz RM, et al. Development and in vitro evaluation of (β-cyclodextrin-g-methacrylic acid)/Na+-montmorillonite nanocomposite hydrogels for controlled delivery of lovastatin. Int J Nanomedicine. 2019;14:5397–5413.
- Trivedi TJ, Rao KS, Kumar A. Facile preparation of agarose–chitosan hybrid materials and nanocompositeionogels using an ionic liquid via dissolution, regeneration and sol–gel transition. Green Chem. 2014;16(1):320–330.
- Minhas MU, Ahmad M, Ali L, et al. Synthesis of chemically cross-linked polyvinyl alcohol-co-poly (methacrylic acid) hydrogels by copolymerization; a potential graft-polymeric carrier for oral delivery of 5-fluorouracil. Daru. 2013;21(1):44.
- Zhong M, Liu YT, Xie XM. Self-healable, super tough graphene oxide-poly(acrylic acid) nanocomposite hydrogels facilitated by dual cross-linking effects through dynamic ionic interactions. J Mater Chem B. 2015;3(19):4001–4008.
- Nesrinne S, Djamel A. Synthesis, characterization and rheological behavior of pH sensitive poly (acrylamide-co-acrylic acid) hydrogels. Arabian J Chem. 2017;10(4):539–547.
- Khan H, Shukla RN, Bajpai AK. Genipin-modified gelatin nanocarriers as swelling controlled drug delivery system for in vitro release of Cytarabine. Mater Sci Eng C Mater Biol Appl. 2016;61:457–465.
- Farhadnejad H, Mortazavi SA, Erfan M, et al. Facile preparation and characterization of pH sensitive Mt/CMC nanocomposite hydrogel beads for propranolol controlled release. Int J Biol Macromol. 2018;111:696–705.
- Abou Taleb MF, Alkahtani A, Mohamed SK. Radiation synthesis and characterization of sodium alginate/chitosan/hydroxyapatite nanocomposite hydrogels: a drug delivery system for liver cancer. Polym Bull. 2015;72(4):725–742.
- Barkat K, Ahmad M, Usman Minhas M, et al. Development and characterization of pH‐responsive polyethylene glycol‐co‐poly (methacrylic acid) polymeric network system for colon target delivery of oxaliplatin: its acute oral toxicity study. Adv Polym Technol. 2018;37(6):1806–1822.
- Bera H, Abbasi YF, Gajbhiye V, et al. Carboxymethyl fenugreek galactomannan-g-poly(N-isopropylacrylamide-co-N,N'-methylene-bis-acrylamide)-clay based pH/temperature-responsive nanocomposites as drug-carriers. Mater Sci Eng C Mater Biol Appl. 2020;110:110628.
- Shah SA, Sohail M, Minhas MU, et al. pH-responsive CAP-co-poly (methacrylic acid)-based hydrogel as an efficient platform for controlled gastrointestinal delivery: fabrication, characterization, in vitro and in vivo toxicity evaluation. Drug Deliv Transl Res. 2019;9(2):555–577.
- Topuz F, Nadernezhad A, Caliskan OS, et al. Nanosilicate embedded agarose hydrogels with improved bioactivity. Carbohydr Polym. 2018;201:105–112.
- Pettinelli N, Rodríguez-Llamazares S, Abella V, et al. Entrapment of chitosan, pectin or κ-carrageenan within methacrylate based hydrogels: effect on swelling and mechanical properties. Mater Sci Eng C Mater Biol Appl. 2019;96:583–590.
- Bukhari SM, Khan S, Rehanullah M, et al. Synthesis and characterization of chemically cross-linked acrylic acid/gelatin hydrogels: effect of pH and composition on swelling and drug release. Int J Polym Sci. 2015;2015:1–15.
- Deepa G, Sivakumar KC, Sajeevan TP. Molecular simulation and in vitro evaluation of chitosan nanoparticles as drug delivery systems for the controlled release of anticancer drug Cytarabine against solid tumours. 3 Biotech. 2018;8(12):493.