There is an urgent for a novel approach to cancer research with 1.7 million new cases of
cancer occurring every year in the United States of America. Tumor models offer promise as …

The rising global incidence of cancer and high attrition rates of anticancer drugs make it
imperative to design novel screening platforms to increase the success rate of …

A tumor microenvironment (TME) is a complex system that comprises various components,
including blood vessels that play a crucial role in supplying nutrients, oxygen, and growth …

Despite many advances in cancer treatment, cancer still remains a major global health
problem owing to its high rate of recurrence, the tendency to metastasize, and the …

The integration of tumor-on-a-chip technology with mini-tissues or organoids has emerged
as a powerful approach in cancer research and drug development. This review provides an …

Every year, cancer causes millions of deaths around the globe, and researchers have been
engaged to provide novel therapies for this threatening disease. However, this process is …

Studying biological characteristics of tumors and evaluating the treatment effects require
appropriate in vitro tumor models. However, the occurrence, progression, and migration of …

Highlights•Bioprinting can be used to fabricate organ-on-a-chip models owing to its ability to
print multiple materials and cell types simultaneously with good spatial resolution and …

Bioprinting offers the ability to create highly complex 3D architectures with living cells. This
cutting-edge technique has significantly gained popularity and applicability in several fields …

The tumor microenvironment is highly complex owing to its heterogeneous composition and
dynamic nature. This makes tumors difficult to replicate using traditional 2D cell culture …