Abstract
Trigeminal neuralgia (TN) is a disabling pain condition that has classically been treated using either surgical or medical techniques. Several researchers have shown that stereotactically delivered radiation can be an effective tool in the amelioration of this condition. For these studies, the Gamma Knife was used to deliver the radiation treatment. The target location was designated as the proximal nerve at the root entry zone, and doses greater than 70 Gy to the maximum point in a single fraction were found to be effective in controlling pain in 80% of the patients treated. LINAC-based stereotactic radiosurgery has been notably absent from the treatment of TN, even though it has many similarities to Gamma Knife-based stereotactic radiosurgery. The aim of this paper is to describe our LINAC-based stereotactic technique for treatment of TN. We also compare treatment of TN using our technique to that using the Gamma Knife. We found that a LINAC-based treatment of TN can be accomplished with accuracy comparable to treatments delivered using the Gamma Knife. The dose distributions are essentially equivalent for the two treatment approaches. The LINAC-based system is easy to plan and offers the ability to reduce the involvement of sensitive structures from the treatment fields as well as the Gamma Knife system does. A disadvantage of the LINAC-based system is the time involved for treatment. PACS number: 87.53.Tf 87.56.Da
Highlights
Trigeminal neuralgia (TN) is a disabling pain condition that has classically been treated using either surgical or medical techniques
We evaluated our technique to determine if our LINAC-based system had the required accuracy to properly treat such small target volumes
Mechanical accuracy, dosimetric, and clinical standpoint, we are encouraged by the results of the comparison between our LINAC-based stereotactic dose delivery system for treatment of TN
Summary
Trigeminal neuralgia (TN) is a disabling pain condition that has classically been treated using either surgical or medical techniques. Patients with no prior surgery had complete or near complete pain relief, while complications due to treatment were nearly nonexistent in the published studies. What makes this particular treatment unique from other stereotactic treatments is the extreme accuracy that is required for all steps for successful treatment. This is primarily due to the small size of the target, the difficulty in identifying the target region, the small cone sizes used for treatment, and the extremely high singleshot doses >70 Gy that could result in neural injury if they were misguided (or misdirected)
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