Sage Journals: Discover world-class research

Abstract

Cellulose acetate phthalate and Pluronic F-127 combined together (70:30 wt:wt) create a rigid, surface-eroding association polymer. To impart flexibility into the polymer system and allow for a drug delivery film that can contour to varying wound shapes, plasticizers were added. Triethyl citrate or tributyl citrate was combined with cellulose acetate phthalate and Pluronic F-127 at 0, 10, or 20 wt%. Mechanical analysis was performed on the films as they were prepared and following a 2-h incubation in phosphate-buffered saline. Tensile tests showed that higher plasticizer content increased the % elongation but decreased the elastic modulus and ultimate tensile strength. The effect triethyl citrate had on the % elongation was twice as much than that of tributyl citrate. After incubation, % elongation, elastic modulus, and ultimate tensile strength all increased because plasticizer leached out of the films. Microcomputed tomography and scanning electron microscopy were performed on the samples both before and after incubation to determine how erosion and leaching of plasticizer affected the interior and exterior structure of the films. Porosity increased as plasticizer content increased; however, plasticizer content did not have a significant effect on the rate of erosion. The mechanical properties of cellulose acetate phthalate–Pluronic films can be adjusted by the type and amount of plasticizer added to the system and therefore can be tailored for different drug delivery applications.

Keywords

Drug delivery film plasticizer cellulose acetate phthalate erosion tensile testing

Get full access to this article

View all access options for this article.

References

Thummel

O'Shea

Paine

. Oral first-pass elimination of midazolam involves both gastrointestinal and hepatic CYP3A-mediated metabolism. Clin Pharmacol Ther 1996; 59(5): 491–502.

Thummel

Kunze

Shen

. Enzyme-catalyzed processes of first-pass hepatic and intestinal drug extraction. Adv Drug Delivery Rev 1997; 27(2–3): 99–127.

Chan

LMS

Lowes

Hirst

. The ABCs of drug transport in intestine and liver: efflux proteins limiting drug absorption and bioavailability. Eur J Pharmaceut Sci 2004; 21(1): 25–51.

Glare

Walsh

. Clinical pharmacokinetics of morphine. Ther Drug Monit 1991; 13: 1–23.

Jeu

Piacenti

Lyakhovetskiy

. Voriconazole. Clin Ther 2003; 25(5): 1321–1381.

Polisson

. Nonsteroidal anti-inflammatory drugs: Practical and theoretical considerations in their selection. Am J Med 1996; 100(2, Suppl 1): 31S–36S.

Yano

Hirayama

Kamada

. Colon-specific delivery of prednisolone-appended α-cyclodextrin conjugate: alleviation of systemic side effect after oral administration. J Contr Release 2002; 79(1–3): 103–112.

Shelke

Aminabhavi

. Synthesis and characterization of novel poly(sebacic anhydride-co-Pluronic F68/F127) biopolymeric microspheres for the controlled release of nifedipine. Int J Pharm 2007; 10(345): 51–58.

Zhu

YMK

McGinity

. Influence of plasticizer level on the drug release from sustained release film coated and hot-melt extruded dosage forms. Pharm Dev Technol 2006; 11(3): 285–294.

10.

Palmieri

Michelini

Di Martino

. Polymers with pH-dependent solubility: Possibility of use in the formulation of gastroresistant and controlled-release matrix tablets. Drug Dev Ind Pharm 2000; 26(8): 837–845.

11.

Kumar

Grewal

Chung

. Lessons from the modern battlefield: successful upper extremity injury reconstruction in the subacute period. J Trauma 2009; 67(4): 752–757.

12.

Huang

Sun

Feng

. Folate-mediated chondroitin sulfate-Pluronic 127 nanogels as a drug carrier. Eur J Pharm Sci 2009; 12(38): 64–73.

13.

Tan

Liu

Guo

. Preparation and evaluation of quercetin-loaded lecithin-chitosan nanoparticles for topical delivery. Int J Nanomed 2011; 6: 1621–1630.

14.

Elgindy

Samy

. Evaluation of the mechanical properties and drug release of cross-linked Eudragit films containing metronidazole. Int J Pharm 2009; 376(1–2): 1–6.

15.

Zheng

Zhou

. Effect of in vitro degradation of poly(D,L-lactide)/beta-tricalcium composite on its shape-memory properties. J Biomed Mater Res B Appl Biomater 2008; 86(1): 170–180.

16.

Baumgart

. Stiffness – an unknown world of mechanical science? Injury 2000; 31: 14–23.

17.

Bruggeman

de Bruin

B-J

Bettinger

. Biodegradable poly(polyol sebacate) polymers. Biomaterials 2008; 29(36): 4726–4735.

18.

Lemperle

Morhenn

Charrier

. Human histology and persistence of various injectable filler substances for soft tissue augmentation. Aesthetic Plast Surg 2003; 27(5): 354–366.

19.

Anderson

. Biological responses to materials. Ann Rev Mater Res 2001; 31: 81–110.

20.

Wypach

. Handbook of plasticizers, Toronto, Ontario, Canada: ChemTec Publishing, William Andrew Inc., 2004.

21.

Platzer

. The technology of plasticizers. J Polymer Sci: Polymer Lett Edn 1982; 20(8): 459–459.

22.

Jeon

Thomas

Puleo

. Bioerodible devices for intermittent release of simvastatin acid. Int J Pharm 2007; 340(1–2): 6–12.

23.

Jeon

Puleo

. Alternating release of different bioactive molecules from a complexation polymer system. Biomaterials 2008; 29(26): 3591–3598.

24.

Lee

. Programmable drug-delivery from an erodible association polymer system. Pharmaceut Res 1993; 10(8): 1144–1152.

25.

Zhang

Jing

. “Wet-state” mechanical properties of three-dimensional polyester porous scaffolds. J Biomed Mater Res A 2006; 76(2): 264–271.

26.

Bodmeier

Paeratakul

. Dry and wet strengths of polymeric films prepared from an aqueous colloidal polymer dispersion, Eudragit RS0D. Int J Pharm 1993; 96(1–3): 129–138.

27.

Sastri

. Plastics in medical devices: properties, requirements, and applications, Burlington, MA: Elsevier Inc., 2010.

28.

El-Gendy

. Pharmaceutical plasticizers for drug delivery systems. Curr Drug Delivery 2012; 9(2): 148–163.

29.

Snejdrova E and Dittrich M. Pharmaceutically used plasticizers. In: Luqman M (ed.) Recent advances in plasticizers. Rijeka, Croatia: InTech, 2012, p.45–68.

30.

Güngör S, Erdal MS and Özsoy Y. Plasticizers in transdermal drug delivery systems. In: Luqman M (ed.) Recent advances in plasticizers. Rijeka, Croatia: InTech, 2012, p.91–112.

31.

Rahman

Brazel

. The plasticizer market: an assessment of traditional plasticizers and research trends to meet new challenges. Progr Polymer Sci 2004; 29(12): 1223–1248.

32.

Finkelstein

Gold

. Toxicology of the citric acid esters: Tributyl citrate, acetyl tributyl citrate, triethyl citrate, and acetyl triethyl citrate. Toxicol Appl Pharmacol 1959; 1(3): 283–298.

33.

Kranz

Ubrich

Maincent

. Physicomechanical properties of biodegradable poly(D,L-lactide) and poly(D,L-lactide-co-glycolide) films in the dry and wet states. J Pharm Sci 2000; 89(12): 1558–1566.

34.

Triethyl Citrate. http://www.thegoodscentscompany.com/data/rw1012771.html (2012, accessed 2 April 2012).

35.

Tributyl Citrate. http://www.sciencelab.com/msds.php?msdsId=9925302 (2012, accessed 2 April 2012).

36.

Béchard

Levy

Clas

S-D

. Thermal, mechanical and functional properties of cellulose acetate phthalate (CAP) coatings obtained from neutralized aqueous solutions. Int J Pharm 1995; 114(2): 205–213.

37.

Liu

Williams

III . Properties of heat-humidity cured cellulose acetate phthalate free films. Eur J Pharm Sci 2002; 17(1–2): 31–41.

38.

Chaibundit

Ricardo

NMPS

Ricardo

NMPS

. Effect of ethanol on the gelation of aqueous solutions of Pluronic F127. J Coll Interface Sci 2010; 351(1): 190–196.

39.

Azeredo

HMC

Mattoso

LHC

Avena-Bustillos

. Nanocellulose reinforced chitosan composite films as affected by nanofiller loading and plasticizer content. J Food Sci 2010; 75(1): N1–N7.

The effect of plasticizers on the erosion and mechanical properties of polymeric films

Abstract

Keywords

Get full access to this article

References