The development of wearable and implantable bioelectronics has garnered significant
momentum in recent years, driven by the ever-increasing demand for personalized health …

Ischemic cardiomyopathy (ICM) affect millions of patients globally. Decellularized
extracellular matrix materials (dECM) have components, microstructure and mechanical …

Engineered cardiac tissues (ECTs) derived from human induced pluripotent stem cells
(hiPSCs) are viable alternatives for cardiac repair, patient‐specific disease modeling, and …

Recapitulating the complex structural, mechanical, and electrophysiological properties of
native myocardium is crucial to engineering functional cardiac tissues. Here, we report a leaf …

Three-dimensional (3D) printing plays an important role in cardiovascular disease through
the use of personalised models that replicate the normal anatomy and its pathology with …

Bioprinting in space is the next frontier in tissue engineering. In the absence of gravity, novel
opportunities arise, as well as new challenges. The cardiovascular system needs particular …

Mechanical stretch plays an important role in the control of cardiomyocyte behavior, as well
as in the study of the mechanisms of cardiovascular function and pathology. The complexity …

The application of biomimetic physical stimuli replicating the in vivo dynamic
microenvironment is crucial for the in vitro development of functional cardiac tissues. In …

The human heart lacks significant regenerative capacity; thus, the solution to heart failure
(HF) remains organ donation, requiring surgery and immunosuppression. The demand for …

Metal ions participate in many metabolic processes in the human body, and their
homeostasis is crucial for life. In cardiovascular diseases (CVDs), the equilibriums of metal …