References
- Sastry SV, Nyshadham JR, Fix JA. (2000). Recent technological advances in oral drug delivery: A review. Pharm Sci Technol Today, 3:138–45.
- Habib W, Khankari RK, Hontz J. (2000). Fast-dissolve drug delivery systems. Crit Rev Ther Drug Carrier Syst, 17:61–72.
- Fu Y, Yang S, Jeong SH, Kimura S, Park K. (2004). Orally fast disintegrating tablets: Developments, technologies, taste-masking and clinical studies. Crit Rev Ther Drug Carrier Syst, 21:433–75.
- Kristensen J, Schaefer T, Kleinebudde P. (2002). Development of fast-disintegrating pellets in a rotary processor. Drug Dev Ind Pharm, 28:1201–12.
- Lee KJ, Kang A, Delfino JJ, West TG, Chetty D, Monkhouse DC, . (2003). Evaluation of critical formulation factors in the development of a rapidly dispersing captopril oral dosage form. Drug Dev Ind Pharm, 29:967–79.
- Sachs EM, Cima MJ, Williams P, Brancazio D, Cornie J. (1992). Three-dimensional printingTM: Rapid tooling and prototypes directly from a CAD model. J Eng Ind, 114:481–8.
- Yu DG, Zhu LM, Branford-White C, Yang XL. (2008). Three-dimensional printing in pharmaceutics—promises and problems. J Pharm Sci, 97:3666–90.
- Wu BM, Borland SW, Giordano RA, Cima LG, Sachs EM, Cima MJ. (1996). Solid free-form fabrication of drug delivery devices. J Control Release, 40:77–87.
- Yu DG, Yang XL, Huang WD, Liu J, Wang YG, Xu HB. (2007). Tablets with material gradients fabricated by three-dimensional printing. J Pharm Sci, 96:2446–56.
- Yu DG, Liu J, Yang Y, Yang XL, Xu HB. (2006). Studies on preparation of controlled release delivery systems with drug gradients using three dimensional printing technique. Chin Pharm J, 41:1080–3.
- Katstra WE, Palazzolo RD, Rowe CW, Giritlioglu B, Teung P, Cima MJ. (2000). Oral dosage forms fabricated by Three Dimensional PrintingTM. J Control Release, 66:1–9.
- Rowe CW, Katstra WE, Palazzolo RD, Giritlioglu B, Teung P, Cima MJ. (2000). Multimechanism oral dosage forms fabricated by three-dimensional printingTM. J Control Release, 66:11–7.
- Yu DG, Yang XL, Wang YG, Li XY, Xu HB. (2007). Zero-order controlled-release tablets of helicid fabricated by three-dimensional printing technology. Chin Tradit Pat Med, 29:355–9.
- Wang CC, Tejwani Motwani MR, Roach WJ, Kay JL, Yoo J, Surprenant HL, . (2006). Development of near zero-order release dosage forms using three-dimensional printing (3-DPTM) technology. Drug Dev Ind Pharm, 32:367–76.
- Chinese Pharmacopoeia Committee. (2005). Pharmacopoeia of the People’s Republic of China, vol. II. Beijing: Chemical Industry Press.
- Fell JT, Newton JM. (1970). Determination of tablet strength by diametral compression test. J Pharm Sci, 59:688–91.
- Rawas-Qalaji MM, Simons FR, Simons KJ. (2006) Fast-disintegrating sublingual tablets: Effect of epinephrine load on tablet characteristics. AAPS PharmSciTech, 7, Article 41.
- Abdelbary G, Eouani C, Prinderre P, Joachim J, Reynier J, Piccerelle P. (2005). Determination of the in vitro disintegration profile of rapidly disintegrating tablets and correlation with oral disintegration. Int J Pharm, 292:29–41.
- Rigbya SP, Van der Walle CF, Raistrick JH. (2004). Determining drug spatial distribution within controlled delivery tablets using MFX imaging. J Control Release, 96:97–100.
- Kim C. (1999). Release kinetics of coated, donut-shaped tablets for water soluble drugs. Eur J Pharm Sci, 7:237–42.
- Wu BJ, Cima MJ. (1999). Effects of solvent-particle interaction kinetics on microstructure formation during three-dimensional printing. Polym Eng Sci, 39:249–60.
- Pillai O, Panchagnula R. (2001). Polymers in drug delivery. Curr Opin Chem Biol, 5:447–51.
- John BS. (2000). Controlled delivery oral dosage forms in the new millennium. http://www.scolr.com/lit/PMPS_ 2000.pdf.