In order to regenerate myocardial tissues with functional characteristics, we need to copy
some properties of the myocardium, such as its extracellular matrix and electrical …

Mimicking the structure of extracellular matrix and electrical conductivity of myocardium are
required to regenerate the functional cardiac tissue. In this study, Molybdenum disulfide …

Myocardial infarction is one of the main causes of death worldwide. After myocardial
infarction, the damaged area is typically occupied with non‐contractile scar tissue owing to …

Mimicking the extracellular matrix to have a similar nanofibrous structure regarding electrical
conductivity and mechanical properties would be highly beneficial for cardiac tissue …

Myocardial tissue engineering strategies such as fabrication of cardiac patches for tissue
regeneration offer various solutions for the loss of function developed due to myocardial …

The difficulty in the regeneration of cardiomyocytes after myocardial infarction is a major
cause of heart failure. Together, the amniotic membrane and 15-deoxy-Δ12, 14 …

Conductive biomaterials (including conductive polymer, carbon-base materials, nanogold,
and conductive silicon nanowires etc.) with prominent electrical conductivity, good cellular …

Tissue engineering offers a promising alternative therapy for myocardial infarction, which is
associated with high mortality rates. Meanwhile, excellent biocompatibility and conductivity …

Sea squirt, as a highly invasive species and main biofouling source in marine aquaculture,
has seriously threatened the biodiversity and aquaculture economy. On the other hand, a …

Myocardial tissue engineering offers a novel technology to improve or regenerate cardiac
functions using a combination of cells, biomaterials and engineering strategies. Inspired by …