Article | REF: NM4040 V1

Nanotoxicology and nanomedicine regulation

Authors: Elias FATTAL, Hervé HILLAIREAU

Publication date: April 10, 2020

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ABSTRACT

The rise of nanomedicines has led the drug agencies to ask the question of regulation in response to applications for marketing authorization. Instead of providing general rules, the agencies have made recommendations by allowing the evaluator to judge each file on a case-by-case basis. The aim of this article is to highlight these recommendations considering the scientific results achieved so far in the field of characterization of nanomedicines, the study of their fate through various means of administration and finally the use of several tests adapted to their biopharmaceutical and toxicological evaluation.

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AUTHORS

  • Elias FATTAL: Professor at Paris-Saclay University and Director of the Institut Galien Paris-Sud - Institut Galien Paris-Sud, Université Paris-Saclay, UMR CNRS 8612, 5 rue Jean-Baptiste Clément, 92290 Châtenay-Malabry, France

  • Hervé HILLAIREAU: Senior lecturer at Paris-Saclay University - Institut Galien Paris-Sud, Université Paris-Saclay, UMR CNRS 8612, 5 rue Jean-Baptiste Clément, 92290 Châtenay-Malabry, France

 INTRODUCTION

Nanotechnologies have enabled the emergence of numerous industrial applications, particularly in the pharmaceutical field, as vectors for active substances. They enable these substances to be targeted at a particular tissue in the body. Nanomedicines, which result from the combination of an active substance and a nanotechnology, are not drugs like any others. They generally consist of a liquid or solid core containing the active substance, surrounded by a crown (figure 1 ). This crown is exposed to the biological environment and performs three important functions: i) colloidal stabilization to prevent aggregation in the biological environment, ii) the ability to circumvent the destruction of nanomedicines by immune system cells, and iii) the association of a ligand on their surface for recognition of a cellular target. Nanomedicines are, however, drugs like any others for part of their development, since they undergo the clinical evaluation required by regulations prior to any marketing application.

However, nanostructured materials have different physico-chemical properties to bulk chemicals. These properties result from their small size and very large surface area for exposure to the surrounding environment, particularly the biological environment. Interactions with the biological environment result in highly specific pharmacokinetic properties and tissue distribution, as well as the ability to cross certain biological barriers that are normally impenetrable. All these properties are considered major assets for the pharmaceutical development of nanomedicines. However, they may also give rise to new toxic effects. These effects, and in some cases the persistence of nanomedicines in the human body, are a cause for concern and require special regulation.

However, it is extremely difficult to establish a single set of regulations, given the diversity of nanomedicines, their chemical nature and their many applications. It is for this reason that in most countries, recommendations have been produced by drug agencies. The aim of this article is to link the fundamental knowledge acquired on the characterization and cellular and tissue fate of nanomedicines to these recommendations.

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KEYWORDS

nanomedicines   |   characterization   |   toxicology   |   pharmacokinetics and biodistribution


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Nanotoxicology and regulation of nanomedicines