AI Article Synopsis
- Tempol, a nitroxide free radical, was tested for its ability to protect salivary glands from radiation damage while having no protective effect on tumors during fractionated radiation therapy.
- The study used female C3H mice, where Tempol was administered before each radiation session, and the effectiveness of protection was measured through saliva output and tumor regrowth after treatment.
- Results indicated that Tempol significantly improved salivary gland protection (about 60%) and demonstrated faster breakdown in tumors compared to normal tissues, suggesting its potential for clinical use specifically against radiation-induced salivary gland damage.
Article Abstract
Purpose: The nitroxide free radical, Tempol, was evaluated for potential differential radiation protection of salivary glands and tumor using fractionated radiation. Mechanistic information was explored by monitoring the presence and bioreduction of Tempol in both tissues noninvasively by magnetic resonance imaging (MRI).
Experimental Design: Female C3H mice were immobilized using custom-made Lucite jigs for localized irradiation (five daily fractions) either to the oral cavity or tumor-bearing leg. Tempol (275 mg/kg) was administered (i.p.) 10 min before each radiation fraction. Salivary gland damage was assessed 8 weeks after radiation by measuring pilocarpine-mediated saliva output. Tumor growth was assessed by standard radiation regrowth methods. Dynamic T1-weighted magnetic resonance scans were acquired before and after Tempol injection using a 4.7T animal MRI instrument.
Results: Tempol treatment was found to protect salivary glands significantly against radiation damage (approximately 60% improvement); whereas no tumor protection was observed. Intracellular reduction of Tempol to the nonradioprotective hydroxylamine as assessed by MRI was 2-fold faster in tumor compared with salivary glands or muscle.
Conclusions: Tempol provided salivary gland radioprotection and did not protect tumor, consistent with the hypothesis that differential radioprotection by Tempol resides in faster reduction to the nonradioprotective hydroxylamine in tumor compared with normal tissues. The unique paramagnetic properties of Tempol afforded noninvasive MRI monitoring of dynamic changes of Tempol levels in tissue to support the finding. These data support further development and consideration of Tempol for human clinical trials as a selective protector against radiation-induced salivary gland damage.
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| http://dx.doi.org/10.1158/1078-0432.CCR-07-0662 | DOI Listing |
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