A new technique lets researchers make many more of the particles much faster, using consistent practices that meet safety ...

Detection: The nanoparticles first bind to surface proteins highly associated with the target cancer cells ("Marker1”). Activation: Once inside the cancer cell, the LNPs release proprietary "Smart ...

The CancerVax platform is designed to harness the body’s existing immunity to detect, mark, and kill cancer cells with precision. At the core of the platform are nanoparticles that operate via a ...

Instead of extracting T-cells and engineering them in a lab, researchers have delivered mRNA directly into circulating immune ...

ACROBiosystems has developed a series of specialized proteases for the screening and validation of ADC linkers, focusing on ...

Human exposure to toxic particles drives various diseases. Examples include gout, an acute arthritis driven by monosodium urate ...

Human exposure to toxic particles drives various diseases. Examples include gout, an acute arthritis driven by monosodium ...

A collaborative team from Penn Medicine and Penn Engineering has uncovered the mathematical principles behind a ...

Among the most widely known forms is CAR T cell therapy, where T cells are genetically engineered to recognise and attack cancer cells ... to produce CD5-targeted nanoparticles – designed to seek out ...

Previously, we discovered a novel class of compounds (e.g., quinazolinediones, QDs) that exert their cytotoxic effects by modulating ROS-mediated cell signaling. Herein, we prepared novel ...

Capstan Therapeutics scientists demonstrate that lipid nanoparticles can engineer CAR T cells within the body without ...

A scientific team has unlocked a new way to treat serious lung conditions by using specially designed nanoparticles to ...