The Biodegradation of Zein In Vitro and In Vivo and its Application in Implants

A unique polymer-based sustained-release implant drug delivery system was prepared by using biocompatible and biodegradable Zein as the skeleton meterial. After preparing Zein colloids, the Zein-loaded implant rods were formulated by injection molding followed by evaporating the solvent, and being coated with poly(lactic-co-glycolic) acid (PLGA) solution. Drug release kinetics was examined by using Fluorouracil (5-FU) as model drug. Nearly zero-order release was achieved for the model drugs for a period of 0–25 days when the implants were incubated in distilled water at 37°C. And then the degradation kinetics of the rods in vivo and in vitro were evaluated, which indicated that Zein could be absorbed by body and has good degradation property. The effects of different ratios of Zein/5-FU and the rods’ diameter on drug release were studied, respectively. The plasma concentration of 5-FU in the implants were determined by HPLC after implanting a single dose of the implants in rats. All data were subsequently processed by using the computer program 3P97, and the values were showed as follows: the area under the plasma concentration–time curve (AUC) value was 321.88 (μg/ml) × day, and the mean residence time (MRT) value was 23.05 days. The sustained-release implants of Zein/5-FU were successfully formulated. The uniqueness of the article is that Zein has been used as a skeleton material in implant delivery system for the first time and zero-order release kinetics has been obtained successfully.

[1]  M. A. Nobile,et al.  Controlled release of thymol from zein based film. , 2009 .

[2]  Y. Shi,et al.  A novel zein-based dry coating tablet design for zero-order release. , 2009, International journal of pharmaceutics.

[3]  J. Yliruusi,et al.  Stable aqueous film coating dispersion of zein. , 2008, Journal of colloid and interface science.

[4]  Shenmin Zhang,et al.  Controlled release of insulin from PLGA nanoparticles embedded within PVA hydrogels , 2007, Journal of materials science. Materials in medicine.

[5]  Y. Tabata,et al.  Intraocular sustained drug delivery using implantable polymeric devices. , 2005, Advanced drug delivery reviews.

[6]  Yang Leng,et al.  A comparative study of calcium phosphate formation on bioceramics in vitro and in vivo. , 2005, Biomaterials.

[7]  Jin-Ye Wang,et al.  Heparin-loaded zein microsphere film and hemocompatibility. , 2005, Journal of controlled release : official journal of the Controlled Release Society.

[8]  Jin-Ye Wang,et al.  Basic study of corn protein, zein, as a biomaterial in tissue engineering, surface morphology and biocompatibility. , 2004, Biomaterials.

[9]  M. Ercan,et al.  Preparation, characterization and in vivo distribution of terbutaline sulfate loaded albumin microspheres. , 2002, Journal of controlled release : official journal of the Controlled Release Society.

[10]  H. Brem,et al.  Biodegradable polymer implants to treat brain tumors. , 2001, Journal of controlled release : official journal of the Controlled Release Society.

[11]  R. Arletti,et al.  Gelatin microspheres crosslinked with D,L-glyceraldehyde as a potential drug delivery system: preparation, characterisation, in vitro and in vivo studies. , 2001, International journal of pharmaceutics.

[12]  Tae Gwan Park,et al.  Importance of in vitro experimental conditions on protein release kinetics, stability and polymer degradation in protein encapsulated poly (d,l-lactic acid-co-glycolic acid) microspheres , 1995 .

[13]  Lu Chuan-hua Study of the Degradation Behavior of Zein in Vitro and in Vivo , 2010 .

[14]  Z. Jianhua,et al.  Study on Elongation of Zein Films with Compound Plasticizer by Response Surface Methodology , 2009 .

[15]  Hua-Jie Wang,et al.  Microspheres of corn protein, zein, for an ivermectin drug delivery system. , 2005, Biomaterials.

[16]  Yang Xiao-quan Studies on Zein as Delayed-Release Skeleton Material of Aspirin , 2005 .

[17]  S. Murdan,et al.  Formulation and characterisation of zein microspheres as delivery vehicles , 2005 .

[18]  王瑾晔,et al.  Basic study of corn protein, zein, as a biomaterial in tissue engineering, surface morphology and biocompatibility , 2004 .