AI Article Synopsis
- Nanotechnology is growing in drug delivery and medical imaging by utilizing unique nanomaterials that can encapsulate therapeutics and improve targeting, addressing issues like solubility and crossing the blood-brain-barrier (BBB).
- Challenges exist in translating nanomedicine from lab to clinic; physiological barriers like the BBB and gut mucus often hinder drug delivery, and some formulations have performed poorly in trials despite potential benefits.
- While nanomedicines have shown improved effectiveness in terms of pharmacokinetics and reduced toxicity, there are ongoing concerns about their ability to navigate the body’s natural defenses, prompting calls for further research and development.
Article Abstract
Introduction: Nanotechnology is in a growth phase for drug delivery and medical imaging. Nanomaterials with unique properties present opportunities for encapsulation of therapeutics and imaging agents, along with conjugation to ligands for targeting. Favorable chemistry of nanomaterials can create formulations that address critical challenges for therapeutics, such as insolubility and a low capacity to cross the blood-brain-barrier (BBB) and intestinal wall.
Areas Covered: The authors investigate challenges faced during translation of nanomedicines while suggesting reasons as to why some nanoformulations have under-performed in clinical trials. They assess physiological barriers such as the BBB and gut mucus that nanomedicines must overcome to deliver cargos. They also provide an overview with examples of how nanomedicines can be designed to improve localization and site-specific delivery (e.g., encapsulation, bioconjugation, and triggered-release).
Expert Opinion: There are examples where nanomedicines have demonstrated improved efficacy of payload in humans; however, most of the advantages conferred were in improved pharmacokinetics and reduced toxicity. Problematic data show susceptibility of nanoformulations against natural protective mechanisms present in the body, including distribution impediment by physiological barriers and activation of the reticuloendothelial system. Further initiatives should address current challenges while expanding the scope of nanomedicine into advanced biomedical imaging and antibiotic delivery.
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| http://dx.doi.org/10.1080/17460441.2021.1826434 | DOI Listing |
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