Construction of Sustainable Release Antimicrobial Microspheres Loaded with Potassium Diformate

Xiaowei GUO; Yuyan LI; Nanchun CHEN; Xiuli WANG; Qinglin XIE

doi:10.15541/jim20200131

[1] R MARQUARDT R, Z LI S. Antimicrobial resistance in livestock: advances and alternatives to antibiotics. Animal Frontiers, 8, 30-37(2018).

[2] M CANIÇA, V MANAGEIRO, H ABRIOUEL et al. Antibiotic resistance in foodborne cacteria. Trends in Food Science & Technology, 84, 41-44(2019).

[3] S LIN W, X WANG H, B LI Q et al. Optimization of green synthesis of potassium diformate and its potential as a mold inhibitor for animal feed. Industrial and Engineering Chemistry Research, 49, 5981-5985(2010).

[4] S XIA S, W YAO, B ZOU et al. Effects of potassium diformate on the gastric function of weaning piglets. Animal Production Science, 56, 1161-1166(2016).

[5] N CANIBE, H STEIEN S, M OVERLAND et al. Effect of K-diformate in starter diets on acidity, microbiota, and the amount of organic acids in the digestive tract of piglets, and on gastric alterations. Journal of Animal Science, 79, 2123-2333(2001).

[6] R PAULICKS B, X ROTH F, M KIRCHGESSNER. Effects of potassium diformate (Formi® LHS) in combination with different grains and energy densities in the feed on growth performance of weaned piglets. Journal of Animal Physiology and Animal Nutrition, 84, 102-111(2000).

[7] Z MROZ, E REESE D, M OVERLAND. The effects of potassium diformate and its molecular constituents on the apparent ileal and fecal digestibility and retention of nutrients in growing-finishing pigs. Journal of Animal Science, 80, 681-690(2002).

[8] H ZHANG X, C CHEN N, Q TANG et al. Slow releasing behaviors of potassium diformate from zeolite A. Journal of the Chinese Ceramic Society, 41, 245-250(2013).

[9] Y HU, W GUO X, C PEI Y et al. Zeolite X with potassium diformate as a sustained-release antibacterial agent. Bulletin of Materials Science, 42, 66-70(2019).

[10] M RASOULZADEH, H NAMAZI. Carboxymethyl cellulose/ graphene oxide bio-nanocomposite hydrogel beads as anticancer drug carrier agent. Carbohydrate Polymers, 168, 320-326(2017).

[11] Z SHARIATINIA. Pharmaceutical applications of chitosan. Advances in Colloid and Interface Science, 263, 131-194(2019).

[12] J WANG S, Q ZHANG, B TAN et al. pH-sensitive poly(vinyl alcohol)/sodium carboxymethyl cellulose hydrogel beads for drug delivery. Journal of Macromolecular Science, Part B: Physics, 50, 2307-2317(2011).

[13] T MITSUMATA, Y SUEMITSU, K FUJII et al. pH-response of chitosan, κ-carrageenan, carboxymethyl cellulose sodium salt complex hydrogels. Polymer, 44, 7103-7111(2003).

[14] L ZHU Y, Y GU, P CHEN K et al. Research progress in synthesis and application of microcapsules with organic-inorganic hybrid shell. Journal of Functional Materials, 46, 19007-19013(2015).

[15] Z ZHAI Q. Preparation and controlled release of mesoporous MCM-41/propranolol hydrochloride composite drug. Journal of Microencapsulation, 30, 173-180(2013).

[16] L ZHANG, X PENG Y, J ZHANG et al. Adsorptive and catalytic properties in the removal of volatile organic compounds over zeolite-based materials. Chinese Journal of Catalysis, 37, 800-809(2016).

[17] E KHODAVERDI, R HONARMANDI, M ALIBOLANDI et al. Evaluation of synthetic zeolites as oral delivery vehicle for anti- inflammatory drugs. Iranian Journal of Basic Medical Sciences, 17, 337-343(2014).

[18] S GAO S, C CHEN N, C PEI Y et al. Hydrothermal reaction conditions for preparation of zeolite P from natural stilbite as raw material. Journal of Synthetic Crystals, 47, 1096-1101(2018).

[19] Y ZHANG C, C CHEN N, H ZHANG X et al. In situ preparation and structure of zeolites A, X and P. Journal of the Chinese Ceramic Society, 42, 1332-1336(2014).

[20] H ZHANG X. Study on preparation of zeolite antibacterial agents and antibacterial properties. Guilin: Master's thesis of Guilin University of. Technology(2013).

[21] X JIN X, T WANG J, J BAI. Synthesis of Schiff base from chitosan and cinnamaldehyde and its antimicrobial activity. Journal of Chemical Engineering of Chinese Universities, 24, 645-650(2010).

[22] M YADOLLAHI, H NAMAZI. Synthesis and characterization of carboxymethyl cellulose/layered double hydroxide nanocomposites. Journal of Nanoparticle Research, 15, 2-9(2013).

[23] M YADOLLAHI, H NAMAZI, S BARKHORDARI. Preparation and properties of carboxymethyl cellulose/layered double hydroxide bionanocomposite films. Carbohydrate Polymers, 108, 83-90(2014).

[24] J BEHIN, H KAZEMIAN, S ROHANI. Sonochemical synthesis of zeolite NaP from clinoptilolite. Ultrasonics Sonochemistry, 28, 400-408(2016).

[25] X DONG X, H HONG J, G HE. Synthesis of zeolite NaP from low-grade kaolin with high silica content. Journal of Synthetic Crystals, 45, 2650-2654(2016).

[26] R WANG, D SHOU, Y LÜ O et al. pH-controlled drug delivery with hybrid aerogel of chitosan, carboxymethyl cellulose and graphene oxide as the carrier. International Journal of Biological Macromolecules, 103, 248-253(2017).

[27] H LEE J, M CHOI Y, U PAIK et al. The effect of carboxymethyl cellulose swelling on the stability of natural graphite particulates in an aqueous medium for lithium ion battery anodes. Journal of Electroceramics, 17, 657-660(2006).

[28] L YU W, H LIU W, L ZHANG et al. Preparation of B-vitamins microcapsules and studies on its slow-release kinetics. Journal of Chinese Institute of Food Science and Technology, 19, 122-132(2019).

[29] R WANG, D SHOU, Y LV O et al. pH-controlled drug delivery with hybrid aerogel of chitosan, carboxymethyl cellulose and graphene oxide as the carrier. International Journal of Biological Macromolecules: Structure, Function and Interactions, 103, 248-253(2017).

[30] W KORSMEYER R, R GURNY, E DOELKER et al. Mechanisms of solute release from porous hydrophilic polymers. International Journal of Pharmaceutics, 15, 25-35(1983).