Non-ionic thiolated cyclodextrins - the next generation

The current study was aimed at developing a novel mucoadhesive thiolated cyclodextrin (CD) without ionizable groups and an intact ring backbone for drug delivery. Thiolated beta CD (β-CD) was prepared through bromine substitution of its hydroxyl groups followed by replacement to thiol groups using t...

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Bibliographic Details
Published in:	International journal of nanomedicine Vol. 13; pp. 4003 - 4013
Main Authors:	Moghadam, Ali, Ijaz, Muhammad, Asim, Mulazim Hussain, Mahmood, Arshad, Jelkmann, Max, Matuszczak, Barbara, Bernkop-Schnürch, Andreas
Format:	Journal Article
Language:	English
Published:	New Zealand Dove Medical Press Limited 01-01-2018 Taylor & Francis Ltd Dove Medical Press
Subjects:	Adhesiveness Amino acids Animals beta-Cyclodextrins - chemical synthesis beta-Cyclodextrins - chemistry Caco-2 Cells Cell Death - drug effects Cellulose Chromatography, Liquid Cyclodextrins Cytotoxicity Dextrins Drug delivery systems Drug Delivery Systems - methods Glucose Humans Humidity Hydrogen-Ion Concentration Hydroxides inclusion complex Intestinal Mucosa - drug effects Ions Mass Spectrometry Miconazole Miconazole - pharmacology Molecular weight mucosal delivery Novels Original Research Pharmaceutical sciences Pharmacy Polymer industry Polymers Sodium Solubility Sulfhydryl Compounds - chemistry Surface active agents Swine Thiolated cyclodextrin Thiols Time Factors Water Water - chemistry Austria Germany Pakistan inclusion complex mucosal delivery thiolated cyclodextrin
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Summary:	The current study was aimed at developing a novel mucoadhesive thiolated cyclodextrin (CD) without ionizable groups and an intact ring backbone for drug delivery. Thiolated beta CD (β-CD) was prepared through bromine substitution of its hydroxyl groups followed by replacement to thiol groups using thiourea. The thiolated β-CD was characterized in vitro via dissolution studies, cytotoxicity studies, mucoadhesion studies on freshly excised porcine intestinal mucosa, and inclusion complex formation with miconazole nitrate. Thiolated β-CDs namely β-CD-SH and β-CD-SH displayed 558.66 ± 78 and 1,163.45 ± 96 µmol thiol groups per gram of polymer, respectively. Stability constant (Kc) of 190 M confirmed the inclusion complex formation of miconazole nitrate with β-CD-SH. Inclusion complexes of β-CD-SH and β-CD-SH resulted in 157- and 257-fold increased solubility of miconazole nitrate, respectively. In addition, more than 80% of thiol groups were stable even after 6 hours at pH 5. Both β-CD-SH compounds showed at least 1.3-fold improved solubility in water. In contrast to cationic thiolated CDs of the first generation, both thiomers showed no significant cytotoxicity. The mucoadhesive properties of the new thiolated CDs were 39.73- and 46.37-fold improved, respectively. These results indicate that β-CD-SH might provide a new favorable tool for delivery of poorly soluble drugs providing a prolonged residence time on mucosal surfaces.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	1178-2013 1176-9114 1178-2013
DOI:	10.2147/IJN.S153226