CAR T-cell therapy, a revolutionary treatment for blood cancers, genetically modifies T-cells using CRISPR to replace their receptors with specialized ones called CARs. These CAR T-cells target antigens on cancerous blood cells, triggering an immune response that enables the patient’s body to destroy cancer cells. Additionally, CRISPR is used to deactivate genes that hinder the therapy’s efficacy. However, CAR T-cell therapy has struggled to target solid tumors due to their heterogeneity. Recent research from MIT’s Koch Institute introduces a promising solution using amphile fluorescein isothiocyanate tagging (amph-FITC). By injecting tumors with amph-FITC tags and treating them with FITC-specific CAR T-cells, researchers achieved successful tagging and destruction of cancerous cells while minimizing impact on healthy tissue. This breakthrough, although not yet tested on humans, holds potential to effectively treat and cure various cancers if approved for clinical applications.
View More Study Announces Use of CAR T-Cell Therapy Against Solid TumorsTag: Cancer
Using A.I. to Detect Breast Cancer
Advancements in artificial intelligence (AI) have begun to deliver breakthroughs in breast cancer screening and detection, especially for signs that doctors miss in their examinations. Nevertheless, the use of cancer detection technology still faces many obstacles before it can be used ubiquitously in healthcare.
View More Using A.I. to Detect Breast CancerThe Replication Crisis: Issues in Scientific Research
In current scientific research, there appears to be a replication crisis in which results of publications cannot be replicated. While this may not impact the validity of the research, it creates looming questions and uncertainties for the products of that research going forward, and innovation in the space as a whole.
View More The Replication Crisis: Issues in Scientific Research