An emerging class of amphiphilic dendrimers for pharmaceutical and biomedical applications: Janus amphiphilic dendrimers

In recent years, a new class of dendrimer, known as Janus dendrimers (JDs), has attracted much attention due to their different structures and properties to the conventional symmetric forms. The broken symmetry of JDs offers the opportunity to form complex self-assembled materials, and presents new...

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Bibliographic Details
Published in:European journal of pharmaceutical sciences 2017-01, Vol.97, p.113-134
Main Authors: Sikwal, Dhiraj R., Kalhapure, Rahul S., Govender, Thirumala
Format: Article
Language:English
Subjects:
Amphiphilic dendrimers
Animals
Anti-Bacterial Agents - administration & dosage
Anti-Bacterial Agents - chemical synthesis
Block co-dendrimers
Bow-tie dendrimers
Chemistry, Pharmaceutical - methods
Dendrimers - administration & dosage
Dendrimers - chemical synthesis
Drug delivery
Drug Delivery Systems - methods
Drug Resistance, Multiple, Bacterial - drug effects
Drug Resistance, Multiple, Bacterial - physiology
Humans
Janus dendrimers
Self-assembly
Surface-Active Agents - administration & dosage
Surface-Active Agents - chemical synthesis
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Summary:In recent years, a new class of dendrimer, known as Janus dendrimers (JDs), has attracted much attention due to their different structures and properties to the conventional symmetric forms. The broken symmetry of JDs offers the opportunity to form complex self-assembled materials, and presents new sets of properties that are presently inconceivable for homogeneous or symmetrical dendrimers. Due to their unique features, JDs have a promising future in pharmaceutical and biomedical fields, as seen from the recent interest in their application in conjugating multiple drugs and targeting moieties, forming supramolecular hydrogels, enabling micellar delivery systems, and preparing nano-vesicles, known as dendrimersomes, for drug encapsulation. The present paper is the first review, with an emphasis on various emerging applications of JDs, in the drug delivery and biomedical field reported so far. In addition, the paper describes different synthetic methods for producing JDs that can guide the design of new biocompatible forms with pharmacological activities, and that have the potential to be nano drug delivery vehicles. Furthermore, future studies to optimize the applications of JDs in drug delivery sciences and biomedical field to realize their potential to treat various disease conditions are identified and highlighted. Overall, this review identifies the current status of JDs in terms of their synthesis and applications, as well as the future research for their translation into macromolecules for clinical applications to solve health problems. It highlights the future combined efforts needed to be taken by dendrimer chemists, formulation scientist and microbiologists to develop novel antibacterials and nanomedicines from JDs. Graphical abstract [Display omitted]
ISSN:0928-0987
1879-0720
DOI:10.1016/j.ejps.2016.11.013