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Microsized and Nanosized Carriers for Nonsteroidal Anti-Inflammatory Drugs. Formulation Challenges and Potential Benefits PDF

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Microsized and Nanosized Carriers for Nonsteroidal Anti-Inflammatory Drugs Formulation Challenges and Potential Benefits Edited by Bojan Cˇalija Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Academic Press is an imprint of Elsevier 125 London Wall, London EC2Y 5AS, United Kingdom 525 B Street, Suite 1800, San Diego, CA 92101-4495, United States 50 Hampshire Street, 5th Floor, Cambridge, MA 02139, United States The Boulevard, Langford Lane, Kidlington, Oxford OX5 1GB, United Kingdom Copyright © 2017 Elsevier Inc. All rights reserved. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or any information storage and retrieval system, without permission in writing from the publisher. Details on how to seek permission, further information about the Publisher’s permissions policies and our arrangements with organizations such as the Copyright Clearance Center and the Copyright Licensing Agency, can be found at our website: www.elsevier.com/permissions. This book and the individual contributions contained in it are protected under copyright by the Publisher (other than as may be noted herein). Notices Knowledge and best practice in this field are constantly changing. As new research and experience broaden our understanding, changes in research methods, professional practices, or medical treatment may become necessary. Practitioners and researchers must always rely on their own experience and knowledge in evaluating and using any information, methods, compounds, or experiments described herein. In using such information or methods they should be mindful of their own safety and the safety of others, including parties for whom they have a professional responsibility. To the fullest extent of the law, neither the Publisher nor the authors, contributors, or editors, assume any liability for any injury and/or damage to persons or property as a matter of products liability, negligence or otherwise, or from any use or operation of any methods, products, instructions, or ideas contained in the material herein. Library of Congress Cataloging-in-Publication Data A catalog record for this book is available from the Library of Congress British Library Cataloguing-in-Publication Data A catalogue record for this book is available from the British Library ISBN: 978-0-12-804017-1 For information on all Academic Press publications visit our website at https://www.elsevier.com/ Publisher: Mica Haley Acquisition Editor: Kristine Jones Editorial Project Manager: Tracy Tufaga Production Project Manager: Sue Jakeman Designer: Mark Rogers Typeset by Thomson Digital List of Contributors Bojan Čalija, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Nebojša Cekić, Faculty of Technology, University of Niš; R&D Sector, DCP Hemigal, Leskovac, Serbia Aleksandra Daković, Institute for the Technology of Nuclear and Other Mineral Raw Materials, Belgrade, Serbia Ljiljana Đekić, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Sanela M. Đorđević, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Tanja M. Isailović, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Jelena Janićijević, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Danina Krajišnik, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Ana Micov, Department of Pharmacology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Jela Milić, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Caroline O’Sullivan, Department of Process, Energy & Transport Engineering, Cork Institute of Technology, Cork, Ireland Uroš Pecikoza, Department of Pharmacology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Marija Primorac, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Snežana D. Savić, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Radica Stepanović-Petrović, Department of Pharmacology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia ix x List of Contributors Marija N. Todosijević, Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Maja Tomić, Department of Pharmacology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Sonja Vučen, School of Pharmacy, University College Cork, Cork, Ireland Editor Biography Bojan Čalija was born in Sarajevo (Bosnia and Herzegovina). He graduated from the Faculty of Pharmacy, University of Belgrade in 2007. In 2013, he received his PhD in Pharmaceutical Technology at the Faculty of Pharmacy, University of Belgrade with his PhD thesis entitled “Functionality of chitosans in formulation of alginate–chitosan microparticles as carriers for nonsteroidal antiinflammatory drugs.” He completed postgraduate academic specialist stud- ies in Industrial Pharmacy at the Faculty of Pharmacy, University of Belgrade in 2015. During his Master’s and PhD studies, he was awarded with the scholar- ships of the Ministry of Science and Technology of Republic of Srpska and the Ministry of Education and Culture of Republic of Srpska. In 2009, as a DAAD scholar, he was a guest researcher at the Department of Pharmaceutical Tech- nology at the University of Technology Carolo-Wilhelmina in Braunschweig (Germany). Since 2007, Bojan Čalija has been employed at the Faculty of Pharmacy, University of Belgrade as a teaching associate, teaching assistant, and assistant professor within the Department of Pharmaceutical Technology and Cosme- tology. His teaching activities are involved in the Integrated Academic Stud- ies for Pharmaceutical Technology I, Pharmaceutical Technology II, Novel Pharmaceutical Dosage Forms, as well as Doctoral Studies in Pharmaceutical Technology and Specialist Studies in Industrial Pharmacy and Pharmaceutical Technology. From 2008 to 2010, he was engaged in the national project of technologi- cal development: “Development and characterization of colloidal carriers for nonsteroidal anti-inflammatory drugs.” Since 2011, Bojan Čalija has partici- pated in the national project of technological development: Development and characterization of micro and nano drug delivery systems for nonsteroidal anti-inflammatory drugs” and in the project of basic research: “Synthesis of molecules with anti-inflammatory and cardio protective activity: structural modifications, modeling, physicochemical characterization and formulation- al investigation.” From 2010 through 2012, he was engaged in the interna- tional Tempus project: “Postgraduate Qualification in Pharmacy—The Way Forward.” His research is focused on formulation and characterization of polymeric microparticulate drug carriers. xi xii Editor Biography Bojan Čalija is the author or the coauthor of more than 70 original articles, professional papers, and short communications papers. He is a peer reviewer for several international scientific journals. He is the coauthor of one textbook in the field of Pharmaceutical Technol- ogy, one workbook, and one multimedia publication in the field of Industrial Pharmacy. Preface In recent decades, various drug carriers have been developed to overcome limitations associated with use of conventional drug delivery systems, such as low bioavailability, insufficient stability, high drug plasma fluctuations, lack of selectivity for target tissues, frequent administration, and low patient compli- ance. Owing to their tailorable properties and small size, micro- and nanosized entities are nowadays the most intensively investigated drug carriers. Rapid expansion of research in this field has been driven by utilization of materials with improved functional properties, along with employment of innovative preparation and characterization techniques. Nonsteroidal anti-inflammatory drugs (NSAIDs) are one of the most com- monly used groups of medications worldwide. These drugs are widely used for the treatment of pain, inflammation, fever, and thrombosis. However, their use is related to some serious gastrointestinal, cardiovascular, and renal adverse effects. Some of these drugs have short half-lives, so frequent administration is required to maintain optimal blood concentration levels for a longer period of time. Limited absorption and low bioavailability are also frequently related to the oral administration of some NSAIDs. Encapsulation/entrapment of NSAIDs in micro- and nanosized carriers could be used to overcome these limitations. Nevertheless, development of a drug carrier with desirable characteristics is a complex process involving selection of appropriate encapsulation/entrap- ment material, encapsulation/entrapment procedure, and adjustment of optimal encapsulation/entrapment conditions. Only careful selection of encapsulation/ entrapping materials and techniques with respect to the structure, physicochem- ical, pharmacodynamic, and pharmacokinetic properties of the drug, and the route of administration may result in the overall improvement of the therapeutic efficacy of NSAIDs. This book gives the reader a comprehensive overview of formulation strate- gies of different micro- and nanosized carriers intended for oral, dermal, and transdermal administration of NSAIDs in one resource, including particulate carriers (microparticles, nanoparticles, and porous inorganic materials) and soft colloidal carriers (microemulsions and nanoemulsions). It also discusses the latest research on advances and limitations of both micro- and nanosized drug carriers and NSAIDs. Special attention is paid to the functionality of polymers, silica-based materials, and natural surfactants as potential excipients for micro- and nanosized drug carriers. xiii xiv Preface Practical solutions for improving overall therapeutic efficacy of NSAIDs have been included throughout this book and may also apply to the formula- tion of micro- and nanosized carriers containing other drugs that exhibit simi- lar physicochemical, biopharmaceutical, and pharmacokinetic characteristics. Therefore, we hope this book will serve as a useful resource for graduate stu- dents, professors, and researchers in the pharmaceutical sciences, especially in Pharmaceutical Technology. Bojan Čalija Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia Chapter 1 Clinical Uses of Nonsteroidal Anti-Inflammatory Drugs (NSAIDs) and Potential Benefits of NSAIDs Modified-Release Preparations Maja Tomic´, Ana Micov, Uroš Pecikoza, Radica Stepanovic´-Petrovic´ Department of Pharmacology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia 1.1 NONSTEROIDAL ANTI-INFLAMMATORY DRUGS The first record about the use of decoctions/extracts of willow bark/leaves for musculoskeletal pain was 3500 years ago in the Ebers papyrus. Hippocrates, Celsus, Pliny the Elder, Dioscorides, and Galen all recommended decoctions of parts of willow and other plants containing salicylate for rheumatic pain and/or fever. Salicylic acid was isolated in 1836 (by Pina) and synthesized in 1860 (by Kolbe). The first nonsteroidal anti-inflammatory drug (NSAID)—acetylsalicylic acid, was synthesized in 1897 (by Hoffmann) in an attempt to improve palat- ability of salicylic acid. Acetylsalicylic acid was the first drug tested in animals in an industrial setting, and after human studies it was marketed as aspirin in 1899 (Brune and Hinz, 2004; Vane, 2000). At the present time, there are more than 50 different NSAIDs on the global market (Rang et al., 2015b). They are the most frequently used medications for their analgesic, anti-inflammatory, and antipyretic therapeutic properties, and aspirin also for its antiplatelet/cardioprotective action. Their wide use could be illustrated by the data that in the United States in 2010 more than 29 million adults (12.1%) were regular NSAIDs users (used NSAID at least 3 times per week for more than 3 months) and around 43 million adults (19.0%) were regu- lar users of aspirin. Compared with 2005, an overall increase of 41% in NSAID use and 57% in aspirin use was observed (Zhou et al., 2014). Microsized and Nanosized Carriers for NSAIDs. http://dx.doi.org/10.1016/B978-0-12-804017-1.00001-7 Copyright © 2017 Elsevier Inc. All rights reserved. 1 2 Microsized and Nanosized Carriers for Nonsteroidal Anti-Inflammatory Drugs 1.1.1 Classification and Mechanism of Action 1.1.1.1 Classification NSAIDs are traditionally classified by their chemical structure on derivatives of salicylic acid (e.g., aspirin), acetic and phenylacetic acids (e.g., indomethacin, ketorolac, diclofenac), propionic acid (e.g., ibuprofen, ketoprofen, naprox- en), fenamic acid (e.g., mefenamic acid), and enolic acid (e.g., piroxicam, meloxicam) (Table 1.1). After the development of the selective cyclooxygen- ase (COX)-2 inhibitors, the classification according to the relative inhibition of COX isoenzymes emerged and became widely accepted (FitzGerald and Patrono, 2001; Frölich, 1997; Hawkey, 1999). According to this criterion NSAIDs are classified into nonselective, traditional NSAIDs (tNSAIDs) that inhibit both COX-1 and COX-2, and COX-2 selective NSAIDs, colloquially termed coxibs. However, several older NSAIDs (e.g., diclofenac, meloxicam, nimesulide) exert some degree of COX-2 selectivity similar to the first coxib— celecoxib. Therefore these drugs are sometimes more accurately termed as COX-2 selective NSAIDs, although this has not been used commonly (Grosser et al., 2011; Rang et al., 2015b). NSAIDs could also be classified on basis of their pharmacokinetic proper- ties, that is, plasma t (Section 1.1.2). 1/2 Paracetamol (acetaminophen) is conventionally separated from the NSAID group and classified as a nonopioid analgesic or analgesic–antipyretic. It shares many properties with tNSAIDs relevant to its clinical action (e.g., analgesic and antipyretic action) but it has some important differences. It is largely devoid of anti-inflammatory activity, and its mechanism of action appears to be only part- ly related to COX-inhibition (Borazan and Furst, 2015; Grosser et al., 2011). 1.1.1.2 COX Isoforms and Their Roles COX-1 and COX-2 are closely related (they share >60% sequence identity) and catalyze the same reaction—the formation of prostaglandins (PG)s PGG and 2 PGH from arachidonic acid (Fig. 1.1). Arachidonic acid is released from mem- 2 brane phospholipids by phospholipase A , which is activated by various stimuli 2 (inflammatory, physical, chemical, and mitogenic). PGG and PGH are cyclic 2 2 endoperoxides, unstable intermediates that are converted by tissue (relatively) specific enzymes to PGs (PGE , PGF , PGD , and PGI ), and to thrombox- 2 2α 2 2 ane A (TxA ) collectively named prostanoids (FitzGerald and Patrono, 2001; 2 2 Smyth et al., 2011). Tissue specificity is illustrated by the examples of TxA , 2 that is the dominant COX-1 product in platelets, and PGE , that is the dominant 2 COX-2 product in macrophages (Smyth et al., 2011). The expression of COX-1 and COX-2 and their roles in the body are mostly different (Grosser et al., 2011; Rang et al., 2015b; Smyth et al., 2009). COX-1 is a predominantly constitutive enzyme widely expressed in most tissues including gastrointestinal (GI) mucosa, platelets, endothelium, kidneys, and uterus (Frölich, 1997; Jouzeau et al., 1997; Smyth et al., 2011). It has a

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