Hot-melt extrusion (HME) - melting a substance and forcing it through an orifice under controlled conditions to form a new material - is an emerging processing technology in the pharmaceutical industry for the preparation of various dosage forms and drug delivery systems, for example granules and sustained release tablets. Hot-Melt Extrusion: Pharmaceutical Applications covers the main instrumentation, operation principles and theoretical background of HME. It then focuses on HME drug delivery systems, dosage forms and clinical studies (including pharmacokinetics and bioavailability) of HME products. Finally, the book includes some recent and novel HME applications, scale -up considerations and regulatory issues. Topics covered include: * principles and die design of single screw extrusion * twin screw extrusion techniques and practices in the laboratory and on production scale * HME developments for the pharmaceutical industry * solubility parameters for prediction of drug/polymer miscibility in HME formulations * the influence of plasticizers in HME * applications of polymethacrylate polymers in HME * HME of ethylcellulose, hypromellose, and polyethylene oxide * bioadhesion properties of polymeric films produced by HME * taste masking using HME * clinical studies, bioavailability and pharmacokinetics of HME products * injection moulding and HME processing for pharmaceutical materials * laminar dispersive & distributive mixing with dissolution and applications to HME * technological considerations related to scale-up of HME processes * devices and implant systems by HME * an FDA perspective on HME product and process understanding * improved process understanding and control of an HME process with near-infrared spectroscopy Hot-Melt Extrusion: Pharmaceutical Applications is an essential multidisciplinary guide to the emerging pharmaceutical uses of this processing technology for researchers in academia and industry working in drug formulation and delivery, pharmaceutical engineering and processing, and polymers and materials science. This is the first book from our brand new series Advances in Pharmaceutical Technology. Find out more about the series here.

Many newly proposed drugs suffer from poor water solubility, thus presenting major hurdles in the design of suitable formulations for administration to patients. Consequently, the development oftechniques and materials to overcome these hurdles is a major area of research in pharmaceutical companies.

Drug Delivery Strategies for Poorly Water-Soluble Drugs provides a comprehensive overview of currently used formulation strategies for hydrophobic drugs, including liposome formulation, cyclodextrin drug carriers, solid lipid nanoparticles, polymeric drug encapsulation delivery systems, self-microemulsifying drug delivery systems, nanocrystals, hydrosol colloidal dispersions, microemulsions, solid dispersions, cosolvent use, dendrimers, polymer- drug conjugates, polymeric micelles, and mesoporous silica nanoparticles. For each approach the book discusses the main instrumentation, operation principles and theoretical background, with a focus on criticalformulation features and clinical studies. Finally, the book includes some recent and novel applications, scale-up considerations and regulatory issues.

Drug Delivery Strategies for Poorly Water-Soluble Drugs is an essential multidisciplinary guide to this important area of drug formulation for researchers in industry and academia working in drugdelivery, polymers and biomaterials.