Self-Organizing Nanovectors for Drug Delivery

Nanomedicine represents one of the most investigated areas in the last two decades in the field of pharmaceutics. Several nanovectors have been developed and a growing number of products have been approved. It is well known that many biomaterials are able to self-organize under controlled conditions...

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Hoofdauteurs: Matricardi, Pietro, De Rosa, Giuseppe
Formaat: Online
Taal:Engels
Gepubliceerd in: MDPI - Multidisciplinary Digital Publishing Institute 2021
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author Matricardi, Pietro
De Rosa, Giuseppe
author_browse De Rosa, Giuseppe
Matricardi, Pietro
author_facet Matricardi, Pietro
De Rosa, Giuseppe
author_sort Matricardi, Pietro
collection Directory of Open Access Books
description Nanomedicine represents one of the most investigated areas in the last two decades in the field of pharmaceutics. Several nanovectors have been developed and a growing number of products have been approved. It is well known that many biomaterials are able to self-organize under controlled conditions giving rise nanostructures. Polymers, lipids, inorganic materials, peptides and proteins, and surfactants are examples of such biomaterials and the self-assembling property can be exploited to design nanovectors that are useful for drug delivery. The self-organization of nanostructures is an attractive approach to preparing nanovectors, avoiding complex and high-energy-consuming preparation methods, and, in some cases, facilitating drug loading procedures. Moreover, preparations based on these biocompatible and pharmaceutical grade biomaterials allow an easy transfer from the lab to the industrial scale. This book reports ten different works, and a review, aiming to cover multiple strategies and pharmaceutical applications in the field of self-organizing nanovectors for drug delivery.
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spelling doab-20.500.12854ir-591862024-03-30T23:22:08Z Self-Organizing Nanovectors for Drug Delivery Matricardi, Pietro De Rosa, Giuseppe R5-920 RM1-950 chitosan encapsulation gold nanoparticles pH/redox-responsive bolaform amphiphilic lipids irradiation cycles drug delivery caries prevention bolalipids nanocage natural extracts astaxanthin eukaryotic vaults nanoparticles amphiphilic random copolymers zoledronic acid triggered release nanohydrogels doxorubicin vapor nanobubbles curcumin gold reduction diffusion barrier liposomes hyaluronan laser treatment nanoparticle mixed polymeric micelles protein self-assembly squalene antimicrobial photodynamic therapy self-assembly hydrogel C-peptide polyelectrolyte complexes siRNA delivery drug delivery system biofilms pulmonary surfactant multidrug resistance drug delivery systems nano-assemblies photo-thermal therapy anticancer polypeptides graphene quantum dots nanovesicles aerogel resveratrol intracellular therapy Oral antimicrobials syringeable implant trehalose betulinic acid in situ gelling systems autophagy induction chorioallantoic membrane model controlled release diabetes oxidative stress localized heating effect thema EDItEUR::M Medicine and Nursing Nanomedicine represents one of the most investigated areas in the last two decades in the field of pharmaceutics. Several nanovectors have been developed and a growing number of products have been approved. It is well known that many biomaterials are able to self-organize under controlled conditions giving rise nanostructures. Polymers, lipids, inorganic materials, peptides and proteins, and surfactants are examples of such biomaterials and the self-assembling property can be exploited to design nanovectors that are useful for drug delivery. The self-organization of nanostructures is an attractive approach to preparing nanovectors, avoiding complex and high-energy-consuming preparation methods, and, in some cases, facilitating drug loading procedures. Moreover, preparations based on these biocompatible and pharmaceutical grade biomaterials allow an easy transfer from the lab to the industrial scale. This book reports ten different works, and a review, aiming to cover multiple strategies and pharmaceutical applications in the field of self-organizing nanovectors for drug delivery. 2021-02-12T03:19:12Z 2021-02-12T03:19:12Z 2020-06-09 16:38:57 2020 book 46026 9783039284290 9783039284283 https://directory.doabooks.org/handle/20.500.12854/59186 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/2219 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03928-429-0 10.3390/books978-3-03928-429-0 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039284290 9783039284283 186 open access
spellingShingle R5-920
RM1-950
chitosan
encapsulation
gold nanoparticles
pH/redox-responsive
bolaform amphiphilic lipids
irradiation cycles
drug delivery
caries prevention
bolalipids
nanocage
natural extracts
astaxanthin
eukaryotic vaults
nanoparticles
amphiphilic random copolymers
zoledronic acid
triggered release
nanohydrogels
doxorubicin
vapor nanobubbles
curcumin
gold reduction
diffusion barrier
liposomes
hyaluronan
laser treatment
nanoparticle
mixed polymeric micelles
protein self-assembly
squalene
antimicrobial photodynamic therapy
self-assembly
hydrogel
C-peptide
polyelectrolyte complexes
siRNA delivery
drug delivery system
biofilms
pulmonary surfactant
multidrug resistance
drug delivery systems
nano-assemblies
photo-thermal therapy
anticancer
polypeptides
graphene quantum dots
nanovesicles
aerogel
resveratrol
intracellular therapy
Oral antimicrobials
syringeable implant
trehalose
betulinic acid
in situ gelling systems
autophagy induction
chorioallantoic membrane model
controlled release
diabetes
oxidative stress
localized heating effect
thema EDItEUR::M Medicine and Nursing
Matricardi, Pietro
De Rosa, Giuseppe
Self-Organizing Nanovectors for Drug Delivery
title Self-Organizing Nanovectors for Drug Delivery
title_full Self-Organizing Nanovectors for Drug Delivery
title_fullStr Self-Organizing Nanovectors for Drug Delivery
title_full_unstemmed Self-Organizing Nanovectors for Drug Delivery
title_short Self-Organizing Nanovectors for Drug Delivery
title_sort self organizing nanovectors for drug delivery
topic R5-920
RM1-950
chitosan
encapsulation
gold nanoparticles
pH/redox-responsive
bolaform amphiphilic lipids
irradiation cycles
drug delivery
caries prevention
bolalipids
nanocage
natural extracts
astaxanthin
eukaryotic vaults
nanoparticles
amphiphilic random copolymers
zoledronic acid
triggered release
nanohydrogels
doxorubicin
vapor nanobubbles
curcumin
gold reduction
diffusion barrier
liposomes
hyaluronan
laser treatment
nanoparticle
mixed polymeric micelles
protein self-assembly
squalene
antimicrobial photodynamic therapy
self-assembly
hydrogel
C-peptide
polyelectrolyte complexes
siRNA delivery
drug delivery system
biofilms
pulmonary surfactant
multidrug resistance
drug delivery systems
nano-assemblies
photo-thermal therapy
anticancer
polypeptides
graphene quantum dots
nanovesicles
aerogel
resveratrol
intracellular therapy
Oral antimicrobials
syringeable implant
trehalose
betulinic acid
in situ gelling systems
autophagy induction
chorioallantoic membrane model
controlled release
diabetes
oxidative stress
localized heating effect
thema EDItEUR::M Medicine and Nursing
topic_facet R5-920
RM1-950
chitosan
encapsulation
gold nanoparticles
pH/redox-responsive
bolaform amphiphilic lipids
irradiation cycles
drug delivery
caries prevention
bolalipids
nanocage
natural extracts
astaxanthin
eukaryotic vaults
nanoparticles
amphiphilic random copolymers
zoledronic acid
triggered release
nanohydrogels
doxorubicin
vapor nanobubbles
curcumin
gold reduction
diffusion barrier
liposomes
hyaluronan
laser treatment
nanoparticle
mixed polymeric micelles
protein self-assembly
squalene
antimicrobial photodynamic therapy
self-assembly
hydrogel
C-peptide
polyelectrolyte complexes
siRNA delivery
drug delivery system
biofilms
pulmonary surfactant
multidrug resistance
drug delivery systems
nano-assemblies
photo-thermal therapy
anticancer
polypeptides
graphene quantum dots
nanovesicles
aerogel
resveratrol
intracellular therapy
Oral antimicrobials
syringeable implant
trehalose
betulinic acid
in situ gelling systems
autophagy induction
chorioallantoic membrane model
controlled release
diabetes
oxidative stress
localized heating effect
thema EDItEUR::M Medicine and Nursing
url 46026
work_keys_str_mv AT matricardipietro selforganizingnanovectorsfordrugdelivery
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