Medical

Nanogel delivers possible treatment for cancer

8th April 2016
Enaie Azambuja
0

An immunotherapy drug delivery system created at Yale that can carry multiple drugs inside a tiny particle is heading toward its first phase of clinical trials for a possible new treatment for cancer. The delivery system, a nanogel developed in the lab of associate professor Tarek Fahmy, can be used for multiple combinations of drugs for many different cancers and some immune disorders. The platform is designed to deliver multiple drugs with different chemical properties.

A single particle can carry hundreds of drug molecules that concentrate in the tumor, increasing the efficacy of the drug combination while decreasing its toxicity.

Fahmy describes the delivery system as a kind of “rational” therapy, in that it fuses established biological and clinical findings to the emerging field of nanotechnology.

The first use of this delivery system will be a drug known as IMM-01. A multi-pronged treatment for metastatic cancer, it contains two agents: Interleukin-2 (IL-2) and an inhibitor of tissue growth factor (TGF beta).

IL-2 amplifies the body’s immune system, while the TGF-beta inhibitor dampens the cancer cells’ ability to hide from the immune system. Because their size and makeup differ greatly, the two agents would normally be incompatible. Fahmy, however, developed a novel biodegradable gel that can contain both drugs and then release them in the tumor.

TVM Life Science Ventures VII is providing funding to Modulate Therapeutics Inc. to develop the drug to clinical proof of concept. Modulate secured the rights to IMM-01 from Yale and the Yale start-up company Immunova L.L.C., which was co-founded by Fahmy, Johns Hopkins University professor of oncology Ephraim Fuchs, and entrepreneur Bernard Friedman.

Yale’s Office of Cooperative Research (OCR) helped launch Immunova in 2012 and develop Fahmy’s drug delivery technology. Fahmy is a member of the Yale Cancer Center.

Featured products

Upcoming Events

View all events
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier