PHILADELPHIA, Pa. (Ivanhoe Newswire) – Microbubbles, which are small bubbles with a solid shell and a gas inside, are being used in tandem with radiation treatment to treat advanced liver cancer.
“By getting access just to the tumor with the blood supply by the catheter and depositing beads only within the tumor, the hope is we’re cooking those tumors, but not the surrounding liver. Not the healthy tissue,” said John Eisenbrey, PhD, a radiology researcher at Thomas Jefferson University.
Liver cancer is one of the most deadly cancers, largely due to hepatitis ‘c’; in addition, an increase in fatty liver disease can cause further complications.
Jesse Civan, Medical Director at Jefferson Liver Tumor Center said, “Someone who has obesity, diabetes, may not appreciate any symptoms, so it’s very important that they’re checked by their primary care physician and referred to a hepatologist.”
Because liver cancer is so deadly, researchers are testing the microbubbles. Glass radiation beads are inserted into the liver, then the microbubbles are infused into the blood.
“We can focus our ultrasound beam only on the liver tumor while the bubbles are circulating everywhere in the body, the ultrasound focuses just on the tumor itself and pops the bubbles only within the tumor itself,” explained Eisenbrey.
When the bubbles pop, they boost the radiation. Getting them into the body is similar to other types of medical procedures.
Colette Shaw, MD, Assistant Professor and Interventional Radiologist at TJU said, “For the patients it’s like having an angiogram done and for those patients who’ve had cardio catheterizations, it would be similar, so you can access the blood vessel either in the wrist or in the groin.”
The early findings, still in clinical trials, show good response.
“So the hope with a lot of these therapies is you first destroy that blood supply and that eventually starves the tumor and then it begins to shrink over time,” Eisenbrey said.
Right now, the researchers are using commercial bubbles off-label but are also working with chemists and engineers to put chemo meds, oxygen and other combinations inside the microbubbles to circulate through the blood, shrink the tumor and give patients a longer lifespan.
Contributors to this news report include: Donna Parker, Field Producer; Kirk Manson, Videographer; Cyndy McGrath, Supervising Producer; Hayley Hudson, Assistant Producer; Roque Correa, Editor.