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softsubstrate

Softsubstrate, also known as a soft substrate, refers to a material with relatively low mechanical stiffness used as a support for cells, tissues, or flexible devices. It contrasts with rigid substrates such as glass or traditional silicon wafers. Common softsubstrate materials include hydrogels such as polyacrylamide and gelatin methacrylate, as well as elastomeric polymers like polydimethylsiloxane (PDMS). The stiffness can be tuned by adjusting polymer composition, crosslinking density, or solvent content, and surfaces are often coated with extracellular matrix proteins to promote cell adhesion.

In biology and bioengineering, softsubstrates are used to study mechanobiology, the way cells sense and respond

Applications include fundamental mechanobiology research, tissue engineering, and drug screening, where tuning the physical environment helps

to
mechanical
cues
from
their
environment.
Substrate
stiffness
influences
cell
spreading,
migration,
proliferation,
and
differentiation
through
mechanotransduction
pathways
involving
focal
adhesions
and
cytoskeletal
tension.
Experimental
systems
commonly
explore
a
range
of
stiffness
from
very
soft
(sub-kilopascal
to
a
few
kilopascals)
to
moderate
or
stiff
(tens
of
kilopascals),
with
specific
ranges
chosen
to
model
different
tissues
such
as
brain,
muscle,
or
bone.
Substrate
viscoelasticity,
porosity,
and
surface
topography
can
also
affect
cellular
outcomes.
mimic
native
tissue
mechanics.
Challenges
involve
achieving
uniform,
well-characterized
stiffness
across
the
substrate,
controlling
time-dependent
properties
such
as
stress
relaxation,
and
ensuring
consistent
surface
chemistry
for
reproducible
cell
responses.