Hot-melt extrusion – basic principles and pharmaceutical applications

Abstract Originally adapted from the plastics industry, the use of hot-melt extrusion has gained favor in drug delivery applications both in academia and the pharmaceutical industry. Several commercial products made by hot-melt extrusion have been approved by the FDA, demonstrating its commercial feasibility for pharmaceutical processing. A significant number of research articles have reported on advances made regarding the pharmaceutical applications of the hot-melt extrusion processing; however, only limited articles have been focused on general principles regarding formulation and process development. This review provides an in-depth analysis and discussion of the formulation and processing aspects of hot-melt extrusion. The impact of physicochemical properties of drug substances and excipients on formulation development using a hot-melt extrusion process is discussed from a material science point of view. Hot-melt extrusion process development, scale-up, and the interplay of formulation and process attributes are also discussed. Finally, recent applications of hot-melt extrusion to a variety of dosage forms and drug substances have also been addressed.

[1]  Simon Bates,et al.  Characterization of amorphous API:Polymer mixtures using X-ray powder diffraction. , 2008, Journal of pharmaceutical sciences.

[2]  Mahmoud A. ElSohly,et al.  Chemical stabilization of a Δ9-tetrahydrocannabinol prodrug in polymeric matrix systems produced by a hot-melt method: Role of microenvironment pH , 2006, AAPS PharmSciTech.

[3]  Jef Adriaensen,et al.  Hot stage extrusion of p-amino salicylic acid with EC using CO2 as a temporary plasticizer. , 2006, International journal of pharmaceutics.

[4]  Andrea Hanefeld,et al.  Nanoparticle formation and growth during in vitro dissolution of ketoconazole solid dispersion. , 2011, Journal of pharmaceutical sciences.

[5]  Patrick J. Marsac,et al.  Theoretical and Practical Approaches for Prediction of Drug–Polymer Miscibility and Solubility , 2006, Pharmaceutical Research.

[6]  D. Craig,et al.  The mechanisms of drug release from solid dispersions in water-soluble polymers. , 2002, International journal of pharmaceutics.

[7]  Sergey Vyazovkin,et al.  Physical stability and relaxation of amorphous indomethacin. , 2005, The journal of physical chemistry. B.

[8]  J. Breitenbach Melt extrusion: from process to drug delivery technology. , 2002, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[9]  David B. Todd,et al.  Plastics compounding : equipment and processing , 1998 .

[10]  A. Serajuddin,et al.  Application of melt granulation technology to enhance tabletting properties of poorly compactible high-dose drugs. , 2011, Journal of pharmaceutical sciences.

[11]  Fernando J. Muzzio,et al.  A review of the Residence Time Distribution (RTD) applications in solid unit operations , 2012 .

[12]  James W McGinity,et al.  Physicochemical properties of film-coated melt-extruded pellets , 2007, Journal of microencapsulation.

[13]  시아 제인구오,et al.  Ocular implant made by a double extrusion process , 2005 .

[14]  Eric Doelker,et al.  Various ways of modulating the release of diltiazem hydrochloride from hot-melt extruded sustained release pellets prepared using polymeric materials , 1995 .

[15]  C. P. Buckley,et al.  Introduction to physical polymer science , 1993 .

[16]  Feng Zhang,et al.  Properties of lipophilic matrix tablets containing phenylpropanolamine hydrochloride prepared by hot-melt extrusion. , 2001, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[17]  Shun-Li Wang,et al.  Eudragit E Accelerated the Diketopiperazine Formation of Enalapril Maleate Determined by Thermal FTIR Microspectroscopic Technique , 2004, Pharmaceutical Research.

[18]  V. Davis,et al.  Amorphous-state characterization of efavirenz--polymer hot-melt extrusion systems for dissolution enhancement. , 2012, Journal of pharmaceutical sciences.

[19]  Peter J. Halley,et al.  Mechanism of Degradation of Starch, a Highly Branched Polymer, during Extrusion , 2010 .

[20]  Dilhan M. Kalyon,et al.  Rheology and extrusion of medical‐grade thermoplastic polyurethane , 2003 .

[21]  Klemens Kohlgrüber,et al.  Co-Rotating Twin-Screw Extruders: Fundamentals, Technology, and Applications , 2007 .

[22]  Chandra Vemavarapu,et al.  Use of Surfactants as Plasticizers in Preparing Solid Dispersions of Poorly Soluble API: Stability Testing of Selected Solid Dispersions , 2006, Pharmaceutical Research.

[23]  Christian Leuner,et al.  Characterization of Solid Dispersions of Itraconazole and Hydroxypropylmethylcellulose Prepared by Melt Extrusion, Part II , 2003, Pharmaceutical Research.

[24]  Duk Soon Choi,et al.  Evaluation of solid state properties of solid dispersions prepared by hot-melt extrusion and solvent co-precipitation. , 2008, International journal of pharmaceutics.

[25]  Remko M. Boom,et al.  Molecular breakdown of corn starch by thermal and mechanical effects , 2004 .

[26]  Geert Verreck,et al.  Clinical study of solid dispersions of itraconazole prepared by hot-stage extrusion. , 2005, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[27]  D Jeannerat,et al.  Formation of peptide impurities in polyester matrices during implant manufacturing. , 2000, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[28]  Michael A Repka,et al.  Water vapor sorption of hot-melt extruded hydroxypropyl cellulose films: effect on physico-mechanical properties, release characteristics, and stability. , 2004, Journal of pharmaceutical sciences.

[29]  Simon Bates,et al.  Evaluation of Drug-Polymer Miscibility in Amorphous Solid Dispersion Systems , 2009, Pharmaceutical Research.

[30]  P. York,et al.  Cocrystalization and Simultaneous Agglomeration Using Hot Melt Extrusion , 2010, Pharmaceutical Research.

[31]  R. Bogner,et al.  Solventless Pharmaceutical Coating Processes: A Review , 2007, Pharmaceutical development and technology.

[32]  Lian Yu,et al.  Solubility of Small-Molecule Crystals in Polymers: d-Mannitol in PVP, Indomethacin in PVP/VA, and Nifedipine in PVP/VA , 2009, Pharmaceutical Research.

[33]  James W McGinity,et al.  Influence of plasticizer type and level on the properties of Eudragit® S100 matrix pellets prepared by hot-melt extrusion , 2010, Journal of microencapsulation.

[34]  Nureddin Ashammakhi,et al.  Release of diclofenac sodium from polylactide-co-glycolide 80/20 rods , 2006, Journal of materials science. Materials in medicine.

[35]  Alan B. Watts,et al.  Influence of polymeric subcoats on the drug release properties of tablets powder-coated with pre-plasticized Eudragit L 100-55. , 2009, International journal of pharmaceutics.

[36]  R O Williams,et al.  Study of solubility of steroids in hydrofluoroalkane propellants. , 1999, Drug development and industrial pharmacy.

[37]  K. Nagapudi,et al.  Manufacture of pharmaceutical co-crystals using twin screw extrusion: a solvent-less and scalable process. , 2010, Journal of pharmaceutical sciences.

[38]  Michael A Repka,et al.  Delivery of Itraconazole from Extruded HPC Films , 2007, Drug development and industrial pharmacy.

[39]  James W McGinity,et al.  Novel application of hot-melt extrusion for the preparation of monolithic matrices containing enteric-coated particles. , 2010, International journal of pharmaceutics.

[40]  James W McGinity,et al.  Citric acid monohydrate as a release-modifying agent in melt extruded matrix tablets. , 2008, International journal of pharmaceutics.

[41]  H Leuenberger,et al.  New trends in the production of pharmaceutical granules: batch versus continuous processing. , 2001, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[42]  A. Gryczke,et al.  Enhanced in vivo absorption of CB-1 antagonist in rats via solid solutions prepared by hot-melt extrusion , 2011, Drug development and industrial pharmacy.

[43]  P York,et al.  Solubility parameters as predictors of miscibility in solid dispersions. , 1999, Journal of pharmaceutical sciences.

[44]  Reiner Rudolf,et al.  General Overview of the Compounding Process: Tasks, Selected Applications, and Process Zones , 2008 .

[45]  Jean Paul Remon,et al.  Melt granulation using a twin-screw extruder: a case study. , 2006, International journal of pharmaceutics.

[46]  James W McGinity,et al.  Enhanced in vivo absorption of itraconazole via stabilization of supersaturation following acidic-to-neutral pH transition. , 2008, Drug development and industrial pharmacy.

[47]  Kim Ragaert,et al.  Quantification of thermal material degradation during the processing of biomedical thermoplastics , 2011 .

[48]  R. Bodmeier,et al.  Melt extrusion--an alternative method for enhancing the dissolution rate of 17beta-estradiol hemihydrate. , 2000, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[49]  Maria Barrio,et al.  Overall stability for the ibuprofen racemate: experimental and topological results leading to the pressure-temperature phase relationships between its racemate and conglomerate. , 2012, The journal of physical chemistry. B.

[50]  James S. Taylor,et al.  Ideal copolymers and the second‐order transitions of synthetic rubbers. i. non‐crystalline copolymers , 2007 .

[51]  Sekhar Surapaneni,et al.  The co-crystal approach to improve the exposure of a water-insoluble compound: AMG 517 sorbic acid co-crystal characterization and pharmacokinetics. , 2008, Journal of pharmaceutical sciences.

[52]  Shan-Yang Lin,et al.  Thermal stability of methacrylic acid copolymers of Eudragits L, S, and L30D and the acrylic acid polymer of carbopol , 1999 .

[53]  C. Leopold,et al.  Solid state interactions between the proton pump inhibitor omeprazole and various enteric coating polymers. , 2006, Journal of pharmaceutical sciences.

[54]  Feng Zhang,et al.  Properties of sustained-release tablets prepared by hot-melt extrusion. , 1999, Pharmaceutical development and technology.

[55]  Xing Tang,et al.  Part I: Characterization of Solid Dispersions of Nimodipine Prepared by Hot-melt Extrusion , 2007, Drug development and industrial pharmacy.

[56]  Robert Simha,et al.  On a General Relation Involving the Glass Temperature and Coefficients of Expansion of Polymers , 1962 .

[57]  Michael A Repka,et al.  Polymeric systems for amorphous Delta9-tetrahydrocannabinol produced by a hot-melt method. Part II: Effect of oxidation mechanisms and chemical interactions on stability. , 2006, Journal of pharmaceutical sciences.

[58]  Shawn B. Allin Introduction to Physical Polymer Science, 3rd Edition (Sperling, L. H.) , 2001 .

[59]  H. Vromans,et al.  In vitro release properties of etonogestrel and ethinyl estradiol from a contraceptive vaginal ring. , 2002, International journal of pharmaceutics.

[60]  Lynne S Taylor,et al.  Dissolution and precipitation behavior of amorphous solid dispersions. , 2011, Journal of pharmaceutical sciences.

[61]  James W McGinity,et al.  Influence of processing parameters and formulation factors on the drug release from tablets powder-coated with Eudragit L 100-55. , 2007, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[62]  Zhai Hui,et al.  Physicochemical characterization and drug‐release properties of celecoxib hot‐melt extruded glass solutions , 2010, The Journal of pharmacy and pharmacology.

[63]  T. Rades,et al.  Selection of excipients for melt extrusion with two poorly water-soluble drugs by solubility parameter calculation and thermal analysis. , 2001, International journal of pharmaceutics.

[64]  James DiNunzio,et al.  Dry powder coating of pharmaceuticals: a review. , 2013, International journal of pharmaceutics.

[65]  Xing Tang,et al.  In vitro and in vivo evaluation of fenofibrate solid dispersion prepared by hot-melt extrusion , 2010, Drug development and industrial pharmacy.

[66]  Yanfei Luo,et al.  Evaluation of polymer carriers with regard to the bioavailability enhancement of bifendate solid dispersions prepared by hot-melt extrusion , 2012, Drug development and industrial pharmacy.

[67]  Feng Zhang,et al.  Hot Melt Extrusion of Acrylic Films , 1996, Pharmaceutical Research.

[68]  David S Jones,et al.  Understanding the performance of melt-extruded poly(ethylene oxide)-bicalutamide solid dispersions: characterisation of microstructural properties using thermal, spectroscopic and drug release methods. , 2012, Journal of pharmaceutical sciences.

[69]  L Yu,et al.  Amorphous pharmaceutical solids: preparation, characterization and stabilization. , 2001, Advanced drug delivery reviews.

[70]  W R Porter,et al.  Physicochemical considerations in the preparation of amorphous ritonavir-poly(ethylene glycol) 8000 solid dispersions. , 2001, Journal of pharmaceutical sciences.

[71]  Peddy Vishweshwar,et al.  Pharmaceutical co-crystals. , 2006, Journal of pharmaceutical sciences.

[72]  외르크 로젠베르크,et al.  Pharmaceutically acceptable solubilizing composition and pharmaceutical dosage form containing same , 2007 .

[73]  H. Pataki,et al.  Characterization of melt extruded and conventional Isoptin formulations using Raman chemical imaging and chemometrics. , 2011, International journal of pharmaceutics.

[74]  David S Jones,et al.  An investigation into the dissolution properties of celecoxib melt extrudates: understanding the role of polymer type and concentration in stabilizing supersaturated drug concentrations. , 2011, Molecular pharmaceutics.

[75]  Sejal Shah,et al.  Stabilization of fenofibrate in low molecular weight hydroxypropylcellulose matrices produced by hot-melt extrusion , 2013, Drug development and industrial pharmacy.

[76]  Han E. H. Meijer,et al.  The modeling of continuous mixers. Part I: The corotating twin-screw extruder , 1988 .

[77]  Roland Bodmeier,et al.  Development and characterization of extended release Kollidon SR mini-matrices prepared by hot-melt extrusion. , 2009, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[78]  Nashwa A El-Gendy,et al.  Pharmaceutical plasticizers for drug delivery systems. , 2012, Current drug delivery.

[79]  David I. Bigio,et al.  Scale‐up rules for mixing in a non‐intermeshing twin‐screw extruder , 1996 .

[80]  Yu Cao,et al.  Application of melt extrusion in the development of a physically and chemically stable high-energy amorphous solid dispersion of a poorly water-soluble drug. , 2008, Molecular pharmaceutics.

[81]  Toshiyuki Niwa,et al.  Development of a novel ultra cryo-milling technique for a poorly water-soluble drug using dry ice beads and liquid nitrogen. , 2012, International journal of pharmaceutics.

[82]  E. Sellers,et al.  Ethanol effects on drug release from Verapamil Meltrex, an innovative melt extruded formulation. , 2009, International journal of pharmaceutics.

[83]  Gert Fricker,et al.  The amorphous solid dispersion of the poorly soluble ABT-102 forms nano/microparticulate structures in aqueous medium: impact on solubility , 2012, International journal of nanomedicine.

[84]  Nobuyuki Suzuki,et al.  Physical property of troglitazone, an equal mixture of four stereoisomers. , 2002, International journal of pharmaceutics.

[85]  P York,et al.  Crystal engineering of active pharmaceutical ingredients to improve solubility and dissolution rates. , 2007, Advanced drug delivery reviews.

[86]  Dave A. Miller,et al.  Dissolution Enhancement of a Drug Exhibiting Thermal and Acidic Decomposition Characteristics by Fusion Processing: A Comparative Study of Hot Melt Extrusion and KinetiSol® Dispersing , 2010, AAPS PharmSciTech.

[87]  Feng Zhang,et al.  Stability of polyethylene oxide in matrix tablets prepared by hot-melt extrusion. , 2002, Biomaterials.

[88]  Yanbin Huang,et al.  A thermal analysis method to predict the complete phase diagram of drug-polymer solid dispersions. , 2010, International journal of pharmaceutics.

[89]  S. Prodduturi,et al.  Influence of Tartaric Acid on the Bioadhesion and Mechanical Properties of Hot-Melt Extruded Hydroxypropyl Cellulose Films for the Human Nail , 2006, Drug development and industrial pharmacy.

[90]  H. Potente Existing Scale-up Rules for Single-screw Plasticating Extruders , 1991 .

[91]  Jef Adriaensen,et al.  The effect of pressurized carbon dioxide as a temporary plasticizer and foaming agent on the hot stage extrusion process and extrudate properties of solid dispersions of itraconazole with PVP-VA 64. , 2005, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[92]  Nicholas A Peppas,et al.  Properties of sustained release hot-melt extruded tablets containing chitosan and xanthan gum. , 2006, International journal of pharmaceutics.

[93]  Michael A Repka,et al.  The influence of guaifenesin and ketoprofen on the properties of hot-melt extruded polyethylene oxide films. , 2004, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[94]  Enno E. Agur Extruder scale‐up in a corotating twin‐screw extrusion compounding process , 1986 .

[95]  Geert Verreck,et al.  Increased physical stability and improved dissolution properties of itraconazole, a class II drug, by solid dispersions that combine fast- and slow-dissolving polymers. , 2004, Journal of pharmaceutical sciences.

[96]  Eva Roblegg,et al.  Development of sustained-release lipophilic calcium stearate pellets via hot melt extrusion. , 2011, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[97]  Atsushi Sakurai,et al.  Polymer combination increased both physical stability and oral absorption of solid dispersions containing a low glass transition temperature drug: physicochemical characterization and in vivo study. , 2012, Chemical & pharmaceutical bulletin.

[98]  C Vervaet,et al.  Influence of formulation and process parameters on the release characteristics of ethylcellulose sustained-release mini-matrices produced by hot-melt extrusion. , 2008, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[99]  Tomio Nakano,et al.  The role of the kneading paddle and the effects of screw revolution speed and water content on the preparation of solid dispersions using a twin-screw extruder. , 2002, International journal of pharmaceutics.

[100]  Patrick J. Marsac,et al.  A Comparison of the Physical Stability of Amorphous Felodipine and Nifedipine Systems , 2006, Pharmaceutical Research.

[101]  Y Aso,et al.  Explanation of the crystallization rate of amorphous nifedipine and phenobarbital from their molecular mobility as measured by (13)C nuclear magnetic resonance relaxation time and the relaxation time obtained from the heating rate dependence of the glass transition temperature. , 2001, Journal of pharmaceutical sciences.

[102]  Jean Paul Remon,et al.  The use of a new hydrophilic polymer, Kollicoat IR, in the formulation of solid dispersions of Itraconazole. , 2007, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[103]  Peter Kleinebudde,et al.  Application of mixtures of polymeric carriers for dissolution enhancement of fenofibrate using hot-melt extrusion. , 2012, International journal of pharmaceutics.

[104]  Peng Wang,et al.  Effects of screw configuration on indomethacin dissolution behavior in Eudragit E PO , 2012 .

[105]  H W Frijlink,et al.  Unexpected differences in dissolution behavior of tablets prepared from solid dispersions with a surfactant physically mixed or incorporated. , 2008, International journal of pharmaceutics.

[106]  Chandra Vemavarapu,et al.  Use of surfactants as plasticizers in preparing solid dispersions of poorly soluble API: selection of polymer-surfactant combinations using solubility parameters and testing the processability. , 2007, International journal of pharmaceutics.

[107]  Matteo Cerea,et al.  A novel powder coating process for attaining taste masking and moisture protective films applied to tablets. , 2004, International journal of pharmaceutics.

[108]  Duk Soon Choi,et al.  Prediction of the thermal phase diagram of amorphous solid dispersions by Flory-Huggins theory. , 2011, Journal of pharmaceutical sciences.

[109]  Peter Kleinebudde,et al.  Mechanism of drug release from polymethacrylate-based extrudates and milled strands prepared by hot-melt extrusion. , 2009, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[110]  Geert Verreck,et al.  Identification of Phase Separation in Solid Dispersions of Itraconazole and Eudragit® E100 Using Microthermal Analysis , 2004, Pharmaceutical Research.

[111]  M. Repka,et al.  Influence of plasticizers and drugs on the physical-mechanical properties of hydroxypropylcellulose films prepared by hot melt extrusion. , 1999, Drug development and industrial pharmacy.

[112]  Indrajit Ghosh,et al.  Comparison of HPMC based polymers performance as carriers for manufacture of solid dispersions using the melt extruder. , 2011, International journal of pharmaceutics.

[113]  S. Straus,et al.  Thermal degradation of polyethylene oxide and polypropylene oxide , 1959 .

[114]  Shan-Yang Lin,et al.  Formation of six-membered cyclic anhydrides by thermally induced intramolecular ester condensation in Eudragit E film , 1999 .

[115]  Bruno C. Hancock,et al.  Molecular Mobility of Amorphous Pharmaceutical Solids Below Their Glass Transition Temperatures , 1995, Pharmaceutical Research.

[116]  Anant Paradkar,et al.  Characterization of thermal and rheological properties of zidovudine, lamivudine and plasticizer blends with ethyl cellulose to assess their suitability for hot melt extrusion. , 2011, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[117]  Matteo Cerea,et al.  Physicochemical characterization and mechanisms of release of theophylline from melt-extruded dosage forms based on a methacrylic acid copolymer. , 2005, International journal of pharmaceutics.

[118]  Thomas J. Smith,et al.  Advances in microbicide vaginal rings. , 2010, Antiviral research.

[119]  Lieven Baert,et al.  Characterization of solid dispersions of itraconazole and hydroxypropylmethylcellulose prepared by melt extrusion--Part I. , 2003, International journal of pharmaceutics.

[120]  Sumie Yoshioka,et al.  Miscibility of nifedipine and hydrophilic polymers as measured by (1)H-NMR spin-lattice relaxation. , 2007, Chemical & pharmaceutical bulletin.

[121]  Michael A Repka,et al.  Characterization of cellulosic hot-melt extruded films containing lidocaine. , 2005, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[122]  Zedong Dong,et al.  Hydroxypropyl Methylcellulose Acetate Succinate: Potential Drug–Excipient Incompatibility , 2008, AAPS PharmSciTech.

[123]  M. Repka,et al.  Influence of vitamin E TPGS on the properties of hydrophilic films produced by hot-melt extrusion. , 2000, International journal of pharmaceutics.

[124]  G. Hinrichsen,et al.  Introduction to physical polymer science (2nd ed.). By L. H. Sperling, Lehigh University, Bethlehem, Pennsylvania. John Wiley & Sons, Inc., New York, 1992. , 1993 .

[125]  R. Shishoo,et al.  Influence of processing parameters on the degradation of poly(L‐lactide) during extrusion , 2001 .

[126]  Yusuke Shibata,et al.  The preparation of a solid dispersion powder of indomethacin with crospovidone using a twin-screw extruder or kneader. , 2009, International journal of pharmaceutics.

[127]  Patrick F. Kiser,et al.  Segmented polyurethane intravaginal rings for the sustained combined delivery of antiretroviral agents dapivirine and tenofovir. , 2010, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[128]  J Dressman,et al.  Pair distribution function X-ray analysis explains dissolution characteristics of felodipine melt extrusion products. , 2009, Journal of pharmaceutical sciences.

[129]  Hisakazu Sunada,et al.  Controlled-release of diclofenac sodium from wax matrix granule , 1996 .

[130]  クルール、ハラルド,et al.  Process for producing a solid dispersion of an active ingredient , 2007 .

[131]  Alan B. Watts,et al.  Formulating Poorly Water Soluble Drugs , 2012, AAPS Advances in the Pharmaceutical Sciences Series.

[132]  Feng Zhang,et al.  Properties of Hot-Melt Extruded Theophylline Tablets Containing Poly(Vinyl Acetate) , 2000, Drug development and industrial pharmacy.

[133]  D. T. Friesen,et al.  Hydroxypropyl methylcellulose acetate succinate-based spray-dried dispersions: an overview. , 2008, Molecular pharmaceutics.

[134]  M. Repka,et al.  Bioadhesive properties of hydroxypropylcellulose topical films produced by hot-melt extrusion. , 2001, Journal of controlled release : official journal of the Controlled Release Society.

[135]  Sejal Shah,et al.  Melt extrusion: process to product , 2012, Expert opinion on drug delivery.

[136]  K. Grzybowska,et al.  Dielectric relaxation studies and dissolution behavior of amorphous verapamil hydrochloride. , 2010, Journal of pharmaceutical sciences.

[137]  S Gaisford,et al.  Solid State Characterization of Pharmaceuticals , 2011 .

[138]  Francesca Selmin,et al.  Fast dissolving films made of maltodextrins. , 2008, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[139]  Michael A Repka,et al.  Chemical stabilization of a Delta9-tetrahydrocannabinol prodrug in polymeric matrix systems produced by a hot-melt method: role of microenvironment pH. , 2006, AAPS PharmSciTech.

[140]  Karthik Nagapudi,et al.  Manufacture and performance evaluation of a stable amorphous complex of an acidic drug molecule and Neusilin. , 2011, Journal of pharmaceutical sciences.

[141]  Rodolfo Pinal,et al.  Improvement of the dissolution rate of poorly soluble drugs by solid crystal suspensions. , 2011, Molecular pharmaceutics.

[142]  Sheng Qi,et al.  Characterisation and Prediction of Phase Separation in Hot-Melt Extruded Solid Dispersions: A Thermal, Microscopic and NMR Relaxometry Study , 2010, Pharmaceutical Research.

[143]  C Vervaet,et al.  Ethylene vinyl acetate as matrix for oral sustained release dosage forms produced via hot-melt extrusion. , 2011, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[144]  Feng Qian,et al.  Drug-polymer solubility and miscibility: Stability consideration and practical challenges in amorphous solid dispersion development. , 2010, Journal of pharmaceutical sciences.

[145]  Michael A Repka,et al.  Polymeric systems for amorphous Delta 9-tetrahydrocannabinol produced by a hot-melt method. Part I: chemical and thermal stability during processing. , 2006, Journal of pharmaceutical sciences.

[146]  G. Van den Mooter,et al.  Review: physical chemistry of solid dispersions. , 2009, The Journal of pharmacy and pharmacology.

[147]  T. C. B. McLeish,et al.  Polymer Physics , 2009, Encyclopedia of Complexity and Systems Science.

[148]  Chan I. Chung On the scale-up of plasticating extruder screws , 1984 .

[149]  Patrick J. Sinko,et al.  Solubility and distribution phenomena , 2013 .

[150]  R. R. Panda,et al.  Hot melt granulation: a facile approach for monolithic osmotic release tablets , 2012, Drug development and industrial pharmacy.

[151]  Saïd Elkoun,et al.  Flow behavior in a corotating twin-screw extruder of pure polymers and blends: Characterization by fluorescence monitoring technique , 2011 .

[152]  Shan-Yang Lin,et al.  Microscopic Fourier transform infrared/differential scanning calorimetry system used to study the different thermal behaviors of polymethacrylate copolymers of eudragits RS, RL, E 30D, or E , 2000 .

[153]  James W McGinity,et al.  Properties of melt extruded enteric matrix pellets. , 2010, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[154]  James W McGinity,et al.  Production of spherical pellets by a hot-melt extrusion and spheronization process. , 2002, International journal of pharmaceutics.

[155]  Eric Doelker,et al.  Evaluation of hot-melt extrusion as a new technique for the production of polymer-based pellets for sustained release capsules containing high loadings of freely soluble drugs , 1994 .

[156]  Peng Wang,et al.  Effects of extrusion process parameters on the dissolution behavior of indomethacin in Eudragit E PO solid dispersions. , 2010, International journal of pharmaceutics.

[157]  Mahmoud A. ElSohly,et al.  Temperature Stability and Bioadhesive Properties of Δ9-Tetrahydrocannabinol Incorporated Hydroxypropylcellulose Polymer Matrix Systems , 2006, Drug development and industrial pharmacy.

[158]  J P Remon,et al.  Influence of the process parameters on the characteristics of starch based hot stage extrudates. , 1999, International journal of pharmaceutics.

[159]  D. Bakoš,et al.  Effect of melt processing on thermo-mechanical degradation of poly(vinyl alcohol)s , 2004 .

[160]  Masami Nakatani,et al.  Short communication?Scale-up theory for twin-screw extruder, keeping the resin temperature unchanged , 1998 .

[161]  Wei Yang,et al.  Targeted Intestinal Delivery of Supersaturated Itraconazole for Improved Oral Absorption , 2008, Pharmaceutical Research.

[162]  Todd J Johnson,et al.  A hot-melt extruded intravaginal ring for the sustained delivery of the antiretroviral microbicide UC781. , 2012, Journal of pharmaceutical sciences.

[163]  Š Rigif PHARMACEUTICAL DOSAGE FORM FOR ORAL ADMINISTRATION OF A BCL-2 FAMILY INHIBITOR , 2010 .

[164]  J. F. Carley,et al.  Extruder Scale-Up Theory and Experiments , 1953 .

[165]  Ting Cai,et al.  Crystallization of Organic Glasses: Effects of Polymer Additives on Bulk and Surface Crystal Growth in Amorphous Nifedipine , 2011, Pharmaceutical Research.

[166]  James W McGinity,et al.  Compression of Controlled-Release Pellets Produced by a Hot-Melt Extrusion and Spheronization Process , 2005, Pharmaceutical development and technology.

[167]  Charles E. Martin,et al.  Pharmaceutical Applications of Hot-Melt Extrusion: Part I , 2007, Drug development and industrial pharmacy.

[168]  Michael A Repka,et al.  Solid-state stability and characterization of hot-melt extruded poly(ethylene oxide) films. , 2005, Journal of pharmaceutical sciences.

[169]  C. Loge,et al.  The combined contraceptive vaginal ring, NuvaRing: an international study of user acceptability. , 2003, Contraception.

[170]  Patrick A Tresco,et al.  Polyurethane intravaginal ring for controlled delivery of dapivirine, a nonnucleoside reverse transcriptase inhibitor of HIV-1. , 2008, Journal of pharmaceutical sciences.

[171]  Niklas Sandler,et al.  Pharmaceutical co-crystals-an opportunity for drug product enhancement. , 2009, Expert opinion on drug delivery.

[172]  Weiqin Tong,et al.  Application of melt granulation technology using twin-screw extruder in development of high-dose modified-release tablet formulation. , 2011, Journal of pharmaceutical sciences.

[173]  Simon Bates,et al.  Novel methods for the assessment of miscibility of amorphous drug-polymer dispersions. , 2009, Journal of pharmaceutical sciences.

[174]  Gert Fricker,et al.  Amorphous solid dispersion enhances permeation of poorly soluble ABT-102: true supersaturation vs. apparent solubility enhancement. , 2012, International journal of pharmaceutics.

[175]  R. Suryanarayanan,et al.  Local mobility in amorphous pharmaceuticals--characterization and implications on stability. , 2009, Journal of pharmaceutical sciences.

[176]  James W McGinity,et al.  Preparation and characterization of fusion processed solid dispersions containing a viscous thermally labile polymeric carrier. , 2012, International journal of pharmaceutics.

[177]  Patrick J. Sinko,et al.  Martin's physical pharmacy and pharmaceutical sciences : physical chemical and biopharmaceutical principles in the pharmaceutical sciences , 2006 .

[178]  Yoshio Hoei,et al.  A lattice treatment of crystalline solvent-amorphous polymer mixtures on melting point depression , 1992 .

[179]  Michael A Repka,et al.  Characterization of hot-melt extruded drug delivery systems for onychomycosis. , 2007, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[180]  Giovanni Filippo Palmieri,et al.  Ketoprofen-poly(vinylpyrrolidone) physical interaction , 2004 .

[181]  Vesa-Pekka Lehto,et al.  Predicting the formation and stability of amorphous small molecule binary mixtures from computationally determined Flory-Huggins interaction parameter and phase diagram. , 2010, Molecular pharmaceutics.

[182]  H. Zia,et al.  Hot melt extrusion (HME) for amorphous solid dispersions: predictive tools for processing and impact of drug-polymer interactions on supersaturation. , 2013, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[183]  P. Pagès,et al.  Processing of poly(lactic acid): characterization of chemical structure, thermal stability and mechanical properties , 2010 .