Tissue engineering is an interdisciplinary field that aims to create, repair, and/or replace tissues and organs by using biomaterial scaffolds, growth factors, stem cells, and genetic engineering. Discover the latest research on tissue engineering here.
Single-cell RNA sequencing of the adult human kidney transcriptome can provide molecular information about cell-specific responses to environmental variables and disease states. This information can provide a dataset to benchmark human kidney organoids. Discover the latest research on adult kidney organoids at single cell resolution here.
This feed focuses on biomimetrics, synthetic biology and bio- and tissue-engineering approaches used for modeling human diseases.
Total artificial hearts (TAH) and ventricular assist devices (VADs) provide cardiac support for patients with end-stage heart disease and have significantly improved the survival of these patients. Discover the latest research on Artificial Heart and Ventricular Assist Devices here.
Advances in biomaterial engineering have permitted the development of sophisticated drug-releasing materials with a biomimetic 3D support that allow a better control of the microenvironment of transplanted cells. Here is the latest research.
Brain organoids are used to represent an in vitro model of the human brain. These brain organoids are derived from three-dimensional human pluripotent stem cells and can be used to help study brain biology, early brain development and different brain diseases. Discover the latest research on brain organoids in disease modeling here.
Over 1700 different mutations in the CFTR genes have been shown to cause cystic fibrosis. Here is the latest research on structural therapy for CFTR mutants.
CRISPR-Cas system enables the editing of genes to create or correct mutations. This feed focuses on the application of this system for gene editing and therapy in human diseases.
Genome editing technologies enable the editing of genes to create or correct mutations. Clustered regularly interspaced short palindromic repeats (CRISPR) are DNA sequences in the genome that are recognized and cleaved by CRISPR-associated proteins (Cas). Here is the latest research on the use of CRISPR-Cas system in gene editing.
CRISPR-Cas system enables the editing of genes to create or correct mutations. This technology is being investigated to combat malaria by targeting specific stretches of vector DNA and editing the genome at precise locations. Here is the latest research.
Nanomedicine is a promising alternative for cancer detection and therapy that utilizes nanoparticles, such as liposomes. Nanoparticles can potentially target cancer cell invasion and metastasis. Discover the latest research on Cancer Cell Invasion: Nanomedicine here.