Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0267964 (
PAA
)
2,561
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A stimuli-responsive, controlled release bilayer for the prevention of bacterial infection on biomaterials is presented. Drug release is locally controlled by the pH-responsiveness of the bilayer, comprised of an inner poly(acrylic acid) (
PAA
) monolayer grafted to a biomaterial and cross-linked with an outer chitosan (CH) brush.
Tobramycin
(
TOB
) is loaded in the inner
PAA
in part to minimize bacteria resistance. Because biofilm formation causes a decrease in local pH,
TOB
is released from
PAA
and permeates through the CH, which is in contact with the biofilm. Antibiotic capacity is controlled by the
PAA
thickness, which depends on
PAA
brush length and the extent of cross-linking between CH and
PAA
at the bilayer interface. This
TOB
-loaded, pH-responsive bilayer exhibits significantly enhanced antibacterial activity relative to controls.
...
PMID:Targeted release of tobramycin from a pH-responsive grafted bilayer challenged with S. aureus. 2558 73
Stimuli-responsive polymer films play an important role in the development of smart antibacterial coatings. In this study, we consider complementary architectures of polyelectrolyte films, including a thin chitosan layer (CH), poly(acrylic acid) (
PAA
) brushes, and a bilayer structure of CH grafted to
PAA
brushes (CH/
PAA
) as possible candidates for targeted drug delivery platforms. Atomic force microscopy (AFM) was employed to study the structure-mechanical property relationship for these mono- and bi-layered polymer grafts at pH 7.4 and 4.0, corresponding to physiological and biofilm formation conditions, respectively. Herein, the surface interactions between polymer grafts and the negatively charged silica colloid attached to an AFM lever are considered as representative interactions between the antibacterial coating and a bacteria/biofilm. The bilayered structure of CH/
PAA
showed significantly reduced adhesive interactions in comparison to pure CH but slightly higher interactions in comparison to
PAA
films. Among
PAA
and CH/
PAA
films, upon grafting CH over the
PAA
brushes, the normal stiffness increased by 10-fold at pH 7.4 and 20-fold at pH 4.0. Notably, the study also showed that the addition of an antibiotic drug such as multicationic
Tobramycin
(
TOB
) impacts the mechanical properties of the antibacterial coatings. Competition between
TOB
and water molecules for the
PAA
chains is shown to determine the structural properties of
PAA
and CH/
PAA
films loaded with
TOB
. At high pH (7.4), the
TOB
molecules, which remain multicationic, strongly interact with polyanionic
PAA
, thereby reducing the film's compressibility. On the contrary, at low pH (4.0), the water molecules preferentially interact with
TOB
in comparison to uncharged
PAA
chains and, upon
TOB
release, results in a stronger film collapse together with an increase in adhesive interactions between the probe, the surface, and the elastic modulus of the film. The bacterial proliferation on these platforms when compared to the measured mechanical properties shows a direct correlation; hence, understanding nanomechanical properties can provide insights into designing new antibacterial polymer coatings.
...
PMID:Nanomechanics of pH-Responsive, Drug-Loaded, Bilayered Polymer Grafts. 2822 Oct 26
