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Pancreatic cancer is among the deadliest forms of the disease, with survival rates remaining stubbornly low due to its resistance to many drugs and late detection
. But new research from Duke University engineers offers a breakthrough approach: radioactive implants that destroy tumors from within. Using a biocompatible gel made from elastinlike polypeptides (ELPs), the team injected radioactive iodine131 directly into tumors.
The gel trapped the isotope safely inside the cancerous tissue, releasing steady beta radiation that killed tumor cells without harming surrounding organs. When paired with chemotherapy, the treatment completely eliminated tumors in most of the mouse models tested, delivering results far stronger than any seen before in preclinical pancreatic cancer research.
The results were striking: across all models, tumors responded to the treatment, and in threequarters of cases, they disappeared completely. Researchers say the constant internal radiation allowed chemotherapy drugs to work more effectively than traditional external radiation beams.
Even more promising, this strategy could extend beyond pancreatic cancer to other hardtotreat tumors. While human trials remain a few steps away, the Duke team describes these findings as perhaps the most exciting in decades of pancreatic cancer research, raising real hope for a disease long seen as nearly untouchable by modern therapies.
source Jeffrey L. Schaal et al, Brachytherapy via a depot of biopolymerbound 131I synergizes with nanoparticle paclitaxel in therapyresistant pancreatic tumours, Nature Biomedical Engineering (2022).