The importance of pre-formulation studies and of 3D-printed nasal casts in the success of a pharmaceutical product intended for nose-to-brain delivery

[Display omitted] •A framework to develop nose-to-brain drugs combining pharmaceutics and engineering.•The importance of the pre-formulation for safe, stable and efficient formulation.•The selection of the administration device to target the olfactory zone.•The 3D-printing of nasal casts to check th...

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Published inAdvanced drug delivery reviews Vol. 175; p. 113826
Main Authors Deruyver, Laura, Rigaut, Clément, Lambert, Pierre, Haut, Benoît, Goole, Jonathan
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.08.2021
Subjects
3D printing
Administration devices
Administration, Intranasal - methods
Animals
Brain - drug effects
Brain Diseases - drug therapy
Drug Compounding - methods
Formulation properties
Humans
Nasal casts
Nasal Cavity - anatomy & histology
Nose-to-brain
Olfactory region
Pre-formulation studies
Printing, Three-Dimensional
Treatment effectiveness
Nasal casts
Formulation properties
Treatment effectiveness
Administration devices
Pre-formulation studies
Olfactory region
Nose-to-brain
3D printing
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Abstract [Display omitted] •A framework to develop nose-to-brain drugs combining pharmaceutics and engineering.•The importance of the pre-formulation for safe, stable and efficient formulation.•The selection of the administration device to target the olfactory zone.•The 3D-printing of nasal casts to check the suitability of formulation properties. This review aims to cement three hot topics in drug delivery: (a) the pre-formulation of new products intended for nose-to-brain delivery; (b) the development of nasal casts for studying the efficacy of potential new nose-to-brain delivery systems at the early of their development (pre-formulation); (c) the use of 3D printing based on a wide variety of materials (transparent, biocompatible, flexible) providing an unprecedented fabrication tool towards personalized medicine by printing nasal cast on-demand based on CT scans of patients. This review intends to show the links between these three subjects. Indeed, the pathway selected to administrate the drug to the brain not only influence the formulation strategies to implement but also the design of the cast, to get the most convincing measures from it. Moreover, the design of the cast himself influences the choice of the 3D-printing technology, which, in its turn, bring more constraints to the nasal replica design. Consequently, the formulation of the drug, the cast preparation and its realisation should be thought of as a whole and not separately.
AbstractList This review aims to cement three hot topics in drug delivery: (a) the pre-formulation of new products intended for nose-to-brain delivery; (b) the development of nasal casts for studying the efficacy of potential new nose-to-brain delivery systems at the early of their development (pre-formulation); (c) the use of 3D printing based on a wide variety of materials (transparent, biocompatible, flexible) providing an unprecedented fabrication tool towards personalized medicine by printing nasal cast on-demand based on CT scans of patients. This review intends to show the links between these three subjects. Indeed, the pathway selected to administrate the drug to the brain not only influence the formulation strategies to implement but also the design of the cast, to get the most convincing measures from it. Moreover, the design of the cast himself influences the choice of the 3D-printing technology, which, in its turn, bring more constraints to the nasal replica design. Consequently, the formulation of the drug, the cast preparation and its realisation should be thought of as a whole and not separately.This review aims to cement three hot topics in drug delivery: (a) the pre-formulation of new products intended for nose-to-brain delivery; (b) the development of nasal casts for studying the efficacy of potential new nose-to-brain delivery systems at the early of their development (pre-formulation); (c) the use of 3D printing based on a wide variety of materials (transparent, biocompatible, flexible) providing an unprecedented fabrication tool towards personalized medicine by printing nasal cast on-demand based on CT scans of patients. This review intends to show the links between these three subjects. Indeed, the pathway selected to administrate the drug to the brain not only influence the formulation strategies to implement but also the design of the cast, to get the most convincing measures from it. Moreover, the design of the cast himself influences the choice of the 3D-printing technology, which, in its turn, bring more constraints to the nasal replica design. Consequently, the formulation of the drug, the cast preparation and its realisation should be thought of as a whole and not separately.
This review aims to cement three hot topics in drug delivery: (a) the pre-formulation of new products intended for nose-to-brain delivery; (b) the development of nasal casts for studying the efficacy of potential new nose-to-brain delivery systems at the early of their development (pre-formulation); (c) the use of 3D printing based on a wide variety of materials (transparent, biocompatible, flexible) providing an unprecedented fabrication tool towards personalized medicine by printing nasal cast on-demand based on CT scans of patients. This review intends to show the links between these three subjects. Indeed, the pathway selected to administrate the drug to the brain not only influence the formulation strategies to implement but also the design of the cast, to get the most convincing measures from it. Moreover, the design of the cast himself influences the choice of the 3D-printing technology, which, in its turn, bring more constraints to the nasal replica design. Consequently, the formulation of the drug, the cast preparation and its realisation should be thought of as a whole and not separately.
[Display omitted] •A framework to develop nose-to-brain drugs combining pharmaceutics and engineering.•The importance of the pre-formulation for safe, stable and efficient formulation.•The selection of the administration device to target the olfactory zone.•The 3D-printing of nasal casts to check the suitability of formulation properties. This review aims to cement three hot topics in drug delivery: (a) the pre-formulation of new products intended for nose-to-brain delivery; (b) the development of nasal casts for studying the efficacy of potential new nose-to-brain delivery systems at the early of their development (pre-formulation); (c) the use of 3D printing based on a wide variety of materials (transparent, biocompatible, flexible) providing an unprecedented fabrication tool towards personalized medicine by printing nasal cast on-demand based on CT scans of patients. This review intends to show the links between these three subjects. Indeed, the pathway selected to administrate the drug to the brain not only influence the formulation strategies to implement but also the design of the cast, to get the most convincing measures from it. Moreover, the design of the cast himself influences the choice of the 3D-printing technology, which, in its turn, bring more constraints to the nasal replica design. Consequently, the formulation of the drug, the cast preparation and its realisation should be thought of as a whole and not separately.
ArticleNumber 113826
Author Deruyver, Laura
Haut, Benoît
Rigaut, Clément
Lambert, Pierre
Goole, Jonathan
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Keywords Nasal casts
Formulation properties
Treatment effectiveness
Administration devices
Pre-formulation studies
Olfactory region
Nose-to-brain
3D printing
Language English
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Snippet [Display omitted] •A framework to develop nose-to-brain drugs combining pharmaceutics and engineering.•The importance of the pre-formulation for safe, stable...
This review aims to cement three hot topics in drug delivery: (a) the pre-formulation of new products intended for nose-to-brain delivery; (b) the development...
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SubjectTerms 3D printing
Administration devices
Administration, Intranasal - methods
Animals
Brain - drug effects
Brain Diseases - drug therapy
Drug Compounding - methods
Formulation properties
Humans
Nasal casts
Nasal Cavity - anatomy & histology
Nose-to-brain
Olfactory region
Pre-formulation studies
Printing, Three-Dimensional
Treatment effectiveness
Title The importance of pre-formulation studies and of 3D-printed nasal casts in the success of a pharmaceutical product intended for nose-to-brain delivery
URI https://dx.doi.org/10.1016/j.addr.2021.113826
https://www.ncbi.nlm.nih.gov/pubmed/34119575
https://www.proquest.com/docview/2540718765
Volume 175
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