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Wavelength of 810 nm is optimal for energy absorption/excitation of the nanoshells (orange) compared to hemoglobin (red) and water (blue). The nanoshells are approximately 150 nm in diameter, which is 46 times smaller than a red blood cell (RBC). NIR indicates near-infrared. Credit: Journal of Urology (2024). DOI: 10.1097/JU.0000000000004222
Prostate cancer is the second leading cause of cancer death among American men. A recent study, conducted by researchers from the University of Virginia, Mount Sinai, the University of Michigan, the University of Texas and others, has demonstrated the clinical success of a new nanoparticle-based, laser-guided therapy for prostate cancer treatment.
The research is published in the Journal of Urology.
The study, which involved 44 men with localized prostate cancer, used gold nanoshells in combination with magnetic resonance imaging (MRI) and ultrasound fusion—an advanced technique that enhances MRI data—to precisely target and eliminate cancerous prostate tissue.
Gold nanoshells are tiny particles, thousands of times smaller than a human hair, that can be engineered to strongly absorb specific wavelengths of light and generate heat. In this case, gold nanoshells were designed to accumulate in the tumors, allowing for highly targeted near-infrared laser treatment that heats and destroys the cancerous tissue while sparing surrounding healthy cells.
This innovative method, called nanoparticle-directed focal photothermal ablation, successfully eliminated cancerous cells in 73% of patients after 12 months, as confirmed by negative biopsies in the treated areas. Importantly, the treatment was able to achieve these results while preserving key functions, including urinary and sexual health, and without observed side effects, marking a significant improvement in the quality of life for patients.
“Our findings represent a major step forward in prostate cancer treatment. This therapy not only effectively eliminates cancerous cells but also preserves key quality-of-life factors, which is a huge win for patients,” said Jennifer L. West, Ph.D., Dean of the School of Engineering and Applied Science at the University of Virginia, an author on this paper and inventor of this technology.
“This study showcases the strength of interdisciplinary collaboration,” West continued. “Together, we’re pushing the boundaries of what’s possible in cancer treatment, and it’s exciting to be at the forefront of this innovation.”
More information:
Steven E. Canfield et al, A Multi-Institutional Study of Magnetic Resonance/Ultrasound Fusion–Guided Nanoparticle-Directed Focal Therapy for Prostate Ablation, Journal of Urology (2024). DOI: 10.1097/JU.0000000000004222
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University of Virginia
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Nanoparticle therapy offers new hope for prostate cancer patients (2024, October 16)
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