Title :
Novel FRET-Based Radiosensitization Using Quantum Dot-Photosensitizer Conjugates
Author :
Yang, Wensha ; Read, Paul W. ; Mi, Jun ; Lamer, J.M. ; Benedict, Stanley H. ; Sheng, Ke ; Helmke, Brian P.
Author_Institution :
Univ. of Virginia, Charlottesville
Abstract :
A novel radiosensitizer was synthesized by covalently conjugating quantum dots (QDs) to a photosensitizer. We hypothesized that QDs excited by 6-MV X-rays would serve as an energy donor to activate the photosensitizer. Photon emission from QDs was linearly proportional to radiation dose rate. Donor quenching in conjugates indicated that activation of photosensitizer occurred by Forster resonance energy transfer. Radiation treatment of lung carcinoma cells with conjugate increased cell killing by 34% compared to radiation alone. Cell toxicity in non-irradiated controls was negligible. Thus, this conjugate acts via a novel mechanism of radiosensitization that will improve treatment of deeply seated tumors.
Keywords :
photochemistry; quantum dots; radiation therapy; FRET-based radiosensitization; Forster resonance energy transfer; cell toxicity; covalently conjugating quantum dots; donor quenching; lung carcinoma cells; photon emission; quantum dot-photosensitizer conjugates; radiation treatment; radiosensitizer; Drugs; Energy exchange; Light scattering; Liver neoplasms; Lung neoplasms; Quantum dots; Resonance; Solids; Tumors; X-rays;
Conference_Titel :
Signals, Systems and Computers, 2007. ACSSC 2007. Conference Record of the Forty-First Asilomar Conference on
Conference_Location :
Pacific Grove, CA
Print_ISBN :
978-1-4244-2109-1
Electronic_ISBN :
1058-6393
DOI :
10.1109/ACSSC.2007.4487558
