Design of bacterial cellulose adhesives for wet tissue adhesion in oral cavity
Wet and dynamic environment of the oral cavity poses challenges for topical disease management approaches. Conventional treatments for oral wounds and infections exhibit weak adhesion to wet surfaces which results in short retention duration (6-8 hours), frequent dosing requirement and patient in...
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Format: | Thesis-Doctor of Philosophy |
Language: | English |
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Nanyang Technological University
2023
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Online Access: | https://hdl.handle.net/10356/164968 |
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Institution: | Nanyang Technological University |
Language: | English |
Summary: | Wet and dynamic environment of the oral cavity poses challenges for topical disease
management approaches. Conventional treatments for oral wounds and infections
exhibit weak adhesion to wet surfaces which results in short retention duration
(6-8 hours), frequent dosing requirement and patient incompliance. Mucoadhesive
drug delivery platforms are proposed herein for oral wound sites with soft tissue
adhesion capability and ability to retain structural integrity in wet environments.
Bacterial cellulose (BC) and photoactivated carbene-based bioadhesives are combined
to yield flexible film platforms for interfacing soft tissues in dynamic, wet
environments. Three platforms are presented in this thesis that are (1) layered
composites, (2) fibrillated BC and carbene bioadhesive based hydrogels and (3)
integrated adhesive patches. The first platform consists of carbene bioadhesive
layered onto dry BC matrix and is referred to as 2-component layered composite.
Structure-activity relationships evaluate UVA dose and hydration state with respect
to adhesive strength on soft tissue mimics. The layered composite has an
adhesion strength ranging from 7-17 kPa and duration exceeding 48 hours in wet
conditions under sustained shear forces, while other mucoadhesives based on hydrophilic
macromolecules exhibit adhesion strength of 0.5-5 kPa and last only a few
hours. The work highlights the first evaluation of BC composites for mucoadhesive
treatments in the buccal cavity. The layered composites however exhibit fracture
in the adhesive matrix owing to non-homogenous carbene bioadhesive layer.
Moreover, the composites could not be processed to dry formulation leading to
diazirine instability in prolonged aqueous environments. The second platform addresses
these limitations, aqueous composites made of fibrillated bacterial cellulose
and photoactive bioadhesives are designed for soft epithelial surfaces. The composites
comprise of uniform distribution of BC and carbene bioadhesive. The aqueous composites crosslink upon photocuring within a minute and exhibit transition from
viscous to elastic adhesive hydrogels. The light-cured composites have shear moduli
mimicking oral mucosa and other soft tissues. Tunable adhesion strength ranges
from 3-35 kPa on hydrated tissue-mimicking surfaces (collagen film). The hydrogels
could be freeze-dried and stored. However, part of material properties is lost
upon rehydration. The previous two designs comprised of aqueous formulations
presenting concerns with shelf-stability of the formulations. The third design, for
the first time, presents dry, shelf-stable cellulose patches for convenient ready-touse
application. The dry patches simultaneously remove tissue surface hydration
while retaining carbene-based photocuring and offers on-demand adhesion. The
dry patch prototypes are optimized by controlling BC/adhesive mole ratios and
dehydration technique. The adhesion strength is higher than commercial denture
adhesives on soft mucosal tissues. The structural integrity is maintained for a minimum
of 7 days in aqueous environment. The patches act as selective nanoporous
barrier properties against bacteria while allowing permeation of proteins. The results
support the application of BC-based adhesive patches as a flexible platform
for wound dressings, drug depots, or the combinations thereof. |
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