Materials patterned with high‐aspect‐ratio nanostructures have features on similar length
scales to cellular components. These surfaces are an extreme topography on the cellular …

Extensive studies have shown that cells can sense and modulate the biomechanical
properties of the ECM within their resident microenvironment. Thus, targeting the …

Spatial transcriptomics (ST) technologies generate multiple data types from biological
samples, namely gene expression, physical distance between data points, and/or tissue …

Spatial Transcriptomics is an emerging technology that adds spatial dimensionality and
tissue morphology to the genome-wide transcriptional profile of cells in an undissociated …

High-throughput image-based profiling platforms are powerful technologies capable of
collecting data from billions of cells exposed to thousands of perturbations in a time-and cost …

Biochemical signals, such as growth factors, cytokines, and transcription factors are known
to play a crucial role in regulating a variety of cellular activities as well as maintaining the …

Engineered nano–bio cellular interfaces driven by 1D vertical nanostructures (1D‐VNS) are
set to prompt radical progress in modulating cellular processes at the nanoscale. Here …

There is an increasing need for the development of superior, safe, and more sophisticated
implants, especially as our society historically has been moving towards an increasingly …

Critical‐sized segmental long bone defects represent a challenging clinical dilemma in the
management of battlefield and trauma‐related injuries. The residual bone marrow cavity of …

Tissue engineering is a branch of regenerative medicine that harnesses biomaterial and
stem cell research to utilise the body's natural healing responses to regenerate tissue and …