RESUMO
Objective To explore the feasibility, safety and preliminary efficacy of radioactive gastric tube of 125Ⅰ seeds in the treatment of advanced esophageal carcinoma. Methods For 10 cases with advanced esophageal carcinoma, the tumor target area was outlined in the TPS system according to preoperative CT images. Prescription dose was 60 Gy with 125Ⅰ seed radioactivity of 2. 22 × 107 Bq. Accordingly, the 125Ⅰ seeds number and the appropriate gastric tube was decided. Then, depending on the location of the tumor and certain rules, 125Ⅰ seeds were fixed in the tube wall to make the radioactive 125Ⅰ seeds gastric tube. Under the C-arm X-ray fluoroscopy, the radioactive 125Ⅰ seeds gastric tubes were placed into esophageal carcinoma site of the patients. Results The radioactive 125Ⅰ seeds gastric tubes of 10 patients were successfully placed, without esophageal perforation, bleeding complications and so on. In one month after operation, all patients with dysphagia′s Stooler classification score were 2 -3 level,of which one case died of other basic diseases in three months after operation, and six cases achieved 0 -1 level while the other three cases achieved 1 -2 level in four months after operation. There were no cases of postoperative chest pain, bleeding, pneumonia and other related complications. Conclusions The radioactive 125Ⅰ seeds gastric tube could not only help to solve nutrition problems, but also the intracavitary brachytherapy inhibit the growth of tumor, which is safe and feasible in clinical use. It can be used as a palliative treatment for patients with advanced esophageal carcinoma.
RESUMO
Objective To study the dosimetry distribution of 125Ⅰ seed chains with different radians in different curvatures of bile ducts. Methods The outlines were drawn on the papers, which are the seed chain models with different radians. Radians formula (radian length=2πr × angle/360) was used to calculate the corresponding 0°, 30°, 60°, 90°, 120°, 150° and 180° models with a radian length at 45 mm, for the total length of seed chain model was 45 mm, and the seeds, had no interval or linear arrangements. The image was transmitted to the Brachytherapy planning system for seeds implantation( TPS) to simulate the seed chains with different radians. Using TPS to delineate the tumor target area, of which the activity was set as 1. 85 × 107 Bq, and the prescription dose was 60 Gy. It was prescribed to simulate the bile duct ( diameter at 8 mm) . TPS were used to calculate the D90 and V100 of the simulated bile duct with the diameter at 8 mm, and explore dosimetry of the points at the centripetal and centrifugal sides with 5 mm vertical distance which from two endpoints and center of seed chains with different radians. Results When the radian of seed chain was 30°, the D90and the V100 were the highest (the D90 was 132 Gy; the V100 was 100%). While the radian was 60°, the D90 and the V100 were the lowest (the D90 was 45 Gy, the V100 was 68%). As the radian was 30°, the highest dose was in the center ( dose in the centripetal side was 165 Gy, and centrifugal side dose was 142 Gy) . The center has the lowest dose as the radian up to 180°(dose in the centripetal side was 90 Gy, and centrifugal side dose was 50 Gy) . Among all radians, dose in the centripetal side was always higher than centrifugal side in the center. Between two endpoints, dose in the centrifugal side was higher than centripetal. Conclusions Distribution of seed chain dosage also changed along with the change of radian. When the radian of seed chain was 30°, the D90 and the V100 were the highest. The centripetal dose was higher than that of the centrifugal side.
RESUMO
Objective To explore the feasibility, safety and preliminary efficacy of radioactive gastric tube of 125Ⅰ seeds in the treatment of advanced esophageal carcinoma. Methods For 10 cases with advanced esophageal carcinoma, the tumor target area was outlined in the TPS system according to preoperative CT images. Prescription dose was 60 Gy with 125Ⅰ seed radioactivity of 2. 22 × 107 Bq. Accordingly, the 125Ⅰ seeds number and the appropriate gastric tube was decided. Then, depending on the location of the tumor and certain rules, 125Ⅰ seeds were fixed in the tube wall to make the radioactive 125Ⅰ seeds gastric tube. Under the C-arm X-ray fluoroscopy, the radioactive 125Ⅰ seeds gastric tubes were placed into esophageal carcinoma site of the patients. Results The radioactive 125Ⅰ seeds gastric tubes of 10 patients were successfully placed, without esophageal perforation, bleeding complications and so on. In one month after operation, all patients with dysphagia′s Stooler classification score were 2 -3 level,of which one case died of other basic diseases in three months after operation, and six cases achieved 0 -1 level while the other three cases achieved 1 -2 level in four months after operation. There were no cases of postoperative chest pain, bleeding, pneumonia and other related complications. Conclusions The radioactive 125Ⅰ seeds gastric tube could not only help to solve nutrition problems, but also the intracavitary brachytherapy inhibit the growth of tumor, which is safe and feasible in clinical use. It can be used as a palliative treatment for patients with advanced esophageal carcinoma.
RESUMO
Objective To study the dosimetry distribution of 125Ⅰ seed chains with different radians in different curvatures of bile ducts. Methods The outlines were drawn on the papers, which are the seed chain models with different radians. Radians formula (radian length=2πr × angle/360) was used to calculate the corresponding 0°, 30°, 60°, 90°, 120°, 150° and 180° models with a radian length at 45 mm, for the total length of seed chain model was 45 mm, and the seeds, had no interval or linear arrangements. The image was transmitted to the Brachytherapy planning system for seeds implantation( TPS) to simulate the seed chains with different radians. Using TPS to delineate the tumor target area, of which the activity was set as 1. 85 × 107 Bq, and the prescription dose was 60 Gy. It was prescribed to simulate the bile duct ( diameter at 8 mm) . TPS were used to calculate the D90 and V100 of the simulated bile duct with the diameter at 8 mm, and explore dosimetry of the points at the centripetal and centrifugal sides with 5 mm vertical distance which from two endpoints and center of seed chains with different radians. Results When the radian of seed chain was 30°, the D90and the V100 were the highest (the D90 was 132 Gy; the V100 was 100%). While the radian was 60°, the D90 and the V100 were the lowest (the D90 was 45 Gy, the V100 was 68%). As the radian was 30°, the highest dose was in the center ( dose in the centripetal side was 165 Gy, and centrifugal side dose was 142 Gy) . The center has the lowest dose as the radian up to 180°(dose in the centripetal side was 90 Gy, and centrifugal side dose was 50 Gy) . Among all radians, dose in the centripetal side was always higher than centrifugal side in the center. Between two endpoints, dose in the centrifugal side was higher than centripetal. Conclusions Distribution of seed chain dosage also changed along with the change of radian. When the radian of seed chain was 30°, the D90 and the V100 were the highest. The centripetal dose was higher than that of the centrifugal side.