Le pubblicazioni dei componenti di Est srl.
2022
Barba, Anna Angela; Lamberti, Gaetano; Caccavo, Diego
Special Issue: Enhancement for Strategies in Liposomal and Niosomal Preparations: Formulative and Technological Innovations Journal Article
In: Pharmaceutics, 2022.
Abstract | Links | BibTeX | Tag: coating, drug delivery systems, drug encapsulation, formulation development, lipid vesicles, liposomes, nano/microcarriers, niosomes, process intensification, sustainable processes
@article{Barba2022,
title = {Special Issue: Enhancement for Strategies in Liposomal and Niosomal Preparations: Formulative and Technological Innovations},
author = {Anna Angela Barba and Gaetano Lamberti and Diego Caccavo },
url = {https://www.mdpi.com/journal/pharmaceutics/special_issues/liposomal_niosomal
http://est.srl/wp-content/uploads/2022/05/Enhancement-for-Strategies-in-Liposomal-and-Niosomal.pdf},
year = {2022},
date = {2022-05-12},
urldate = {2022-05-12},
journal = { Pharmaceutics},
abstract = {Currently, industrial pharmaceutical/nutraceutical manufacturing has to comply with two major needs: the mandatory regulations for formulation safety and the sustainability of production. Within this framework, the role of scientific research into more powerful drug delivery systems appears to be highly relevant because it can give responses to the industry about both the formulative and preparative issues.
Lipid-based drug delivery systems are recognized as safe and effective carriers. The different classes of liposomal and niosomal vesicles are the main expression of delivery systems for which formulation and preparation can be easily tailored to meet different disease conditions, routes of administration, structures (coated, functionalized, stealth) and size s(micro-nano), stabilities, and costs.
This Special Issue aims to collect cutting-edge research results on liposomes and niosomes that have been achieved through both formulative and preparative new approaches, with the aim of moving towards advanced technologies for pharmaceutical manufacturing. A key point of this Special Issue is to connect multidisciplinary competences in drug membrane-mimetic delivery systems.
We are pleased to invite you to share your results contributing to how we can resolve the above-introduced pharmaceutic production needs. In this Special Issue, original research articles and reviews are welcome.},
keywords = {coating, drug delivery systems, drug encapsulation, formulation development, lipid vesicles, liposomes, nano/microcarriers, niosomes, process intensification, sustainable processes},
pubstate = {published},
tppubtype = {article}
}
Currently, industrial pharmaceutical/nutraceutical manufacturing has to comply with two major needs: the mandatory regulations for formulation safety and the sustainability of production. Within this framework, the role of scientific research into more powerful drug delivery systems appears to be highly relevant because it can give responses to the industry about both the formulative and preparative issues.
Lipid-based drug delivery systems are recognized as safe and effective carriers. The different classes of liposomal and niosomal vesicles are the main expression of delivery systems for which formulation and preparation can be easily tailored to meet different disease conditions, routes of administration, structures (coated, functionalized, stealth) and size s(micro-nano), stabilities, and costs.
This Special Issue aims to collect cutting-edge research results on liposomes and niosomes that have been achieved through both formulative and preparative new approaches, with the aim of moving towards advanced technologies for pharmaceutical manufacturing. A key point of this Special Issue is to connect multidisciplinary competences in drug membrane-mimetic delivery systems.
We are pleased to invite you to share your results contributing to how we can resolve the above-introduced pharmaceutic production needs. In this Special Issue, original research articles and reviews are welcome.
Lipid-based drug delivery systems are recognized as safe and effective carriers. The different classes of liposomal and niosomal vesicles are the main expression of delivery systems for which formulation and preparation can be easily tailored to meet different disease conditions, routes of administration, structures (coated, functionalized, stealth) and size s(micro-nano), stabilities, and costs.
This Special Issue aims to collect cutting-edge research results on liposomes and niosomes that have been achieved through both formulative and preparative new approaches, with the aim of moving towards advanced technologies for pharmaceutical manufacturing. A key point of this Special Issue is to connect multidisciplinary competences in drug membrane-mimetic delivery systems.
We are pleased to invite you to share your results contributing to how we can resolve the above-introduced pharmaceutic production needs. In this Special Issue, original research articles and reviews are welcome.