New theranostic approach joins radiopharmaceuticals and nanoparticles to kill cancer cells

New theranostic approach joins radiopharmaceuticals and nanoparticles to kill cancer cells

Researchers have successfully developed a novel cancer treatment approach that utilizes Cerenkov radiation energy to target and destroy cancer cells more effectively. The approach uses light from decaying radiopharmaceuticals, known as Cerenkov luminescence, as an energy source to activate semiconducting polymer nanoparticles that kill cancer cells. This research was presented at the Society of Nuclear Medicine and Molecular Imaging’s 2021 Virtual Annual Meeting.

Over the past several decades, many studies have been conducted on photodynamic therapy, which uses an external light source to activate nanomaterials for cancer therapy. This therapy, however, is limited by the ability of external light to penetrate tissues. As Cerenkov luminescence is spontaneously produced from certain radiopharmaceuticals as they decay in the body, it has recently been proposed as an internal energy source for cancer therapy.

While Cerenkov luminescence is advantageous because it is a light source produced inside the body, the light source is generally very weak. “The good news is that the light source can be amplified with semiconducting polymers, which greatly increases its potential to target and destroy cancer cells,” said Zachary Rosenkrans, graduate research assistant at University of Wisconsin-Madison in Madison, Wisconsin. “In our study we aimed to determine how to best utilize radiopharmaceuticals and nanoparticles to create the ideal cancer theranostics nanosystem.”

Researchers found that semiconducting polymer nanoparticles optimized with photosensitizers dramatically intensified Cerenkov luminescence to kill cancer cells. Positron emission tomography and optical imaging studies also clearly visualized tumor uptake of these optimized semiconducting polymer nanoparticles. This approach was found to have excellent potential as a cancer theranostics nanosystem without any tissue penetration limits.

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