Raman spectroscopy is an analytical method based on light–matter interactions that can
interrogate the vibrational modes of matter and provide representative molecular …

The field of tissue engineering and regenerative medicine has made numerous advances in
recent years in the arena of fabricating multifunctional, three-dimensional (3D) tissue …

The most important requirements of biomedical substitutes used in muscle tissue
regeneration are appropriate topographical cues and bioactive components for the induction …

The mechanical behavior of cartilage tissue plays a crucial role in physiological
mechanotransduction processes of chondrocytes and pathological changes like …

In situ tissue regeneration can be defined as the implantation of tissue-specific biomaterials
(by itself or in combination with cells and/or biomolecules) at the tissue defect, taking …

Cardiac muscle cells have an innate capacity to perceive and react to mechanical strain via
a mechanism known as mechanotransduction, whereby the cardiac muscle cells are …

The cell-based tissue engineering strategies have gained attention in restoring normal
tissue function after skeletal muscle injuries; however, these approaches require a donor …

Background Simple noninvasive evidence-based interventions for caries are needed to
overcome limitations in the restorative paradigm. The self-assembling peptide P 11-4 is a …

Medical imaging and 3D bioprinting can be used to create patient‐specific bone scaffolds
with complex shapes and controlled inner architectures. This study investigated the …

The combination of different materials and capabilities to manufacture at several scales
open new possibilities in scaffold design for bone regeneration. This work is focused on …