OBJECTIVE: To compare the radiogenic effects on microcirculation in healthy and malignant pancreatic tissue. SUMMARY BACKGROUND DATA: Vascular injury is an important effect of radiotherapy, which has been suggested for antiangiogenic tumor therapy. METHODS: An established model of duct-like pancreatic cancer (DSL6A) was used. Investigation was performed in 12 healthy and 24 tumor-bearing Lewis rats. The tumors were locally irradiated with 15 Gy in 12 animals 4 weeks after intraperitoneal inoculation. Additionally, local radiation of the normal pancreas was performed in six healthy animals. Intravital microscopy of tumor and normal pancreatic microcirculation was performed 5 days after radiation. Relevant parameters were erythrocyte velocity and functional vessel density. Tumor apoptosis and the fraction of vital tumor cells were estimated histologically 5 and 12 days after radiation. RESULTS: Local radiation with 15 Gy caused a pronounced impairment of blood flow and functional capillary density in the normal pancreas 5 days after radiation, while the tumor blood flow was not significantly changed. A significant reduction in the fraction of vital tumor cells and a significant increase in tumor apoptosis were observed 12 days after radiation. CONCLUSIONS: Local radiation impairs blood flow in healthy pancreas but not in pancreatic cancer tissue. Tumor cell death is the leading consequence of radiation injury in malignant pancreatic tissue without affecting the vascular system of the tumor. The authors conclude that external beam radiation does not appear to be a useful adjunct for a vascular-targeted therapy in pancreatic carcinoma but causes distinct hypoperfusion in the healthy pancreas.
OBJECTIVE: To compare the radiogenic effects on microcirculation in healthy and malignant pancreatic tissue. SUMMARY BACKGROUND DATA: Vascular injury is an important effect of radiotherapy, which has been suggested for antiangiogenic tumor therapy. METHODS: An established model of duct-like pancreatic cancer (DSL6A) was used. Investigation was performed in 12 healthy and 24 tumor-bearing Lewis rats. The tumors were locally irradiated with 15 Gy in 12 animals 4 weeks after intraperitoneal inoculation. Additionally, local radiation of the normal pancreas was performed in six healthy animals. Intravital microscopy of tumor and normal pancreatic microcirculation was performed 5 days after radiation. Relevant parameters were erythrocyte velocity and functional vessel density. Tumor apoptosis and the fraction of vital tumor cells were estimated histologically 5 and 12 days after radiation. RESULTS: Local radiation with 15 Gy caused a pronounced impairment of blood flow and functional capillary density in the normal pancreas 5 days after radiation, while the tumor blood flow was not significantly changed. A significant reduction in the fraction of vital tumor cells and a significant increase in tumor apoptosis were observed 12 days after radiation. CONCLUSIONS: Local radiation impairs blood flow in healthy pancreas but not in pancreatic cancer tissue. Tumor cell death is the leading consequence of radiation injury in malignant pancreatic tissue without affecting the vascular system of the tumor. The authors conclude that external beam radiation does not appear to be a useful adjunct for a vascular-targeted therapy in pancreatic carcinoma but causes distinct hypoperfusion in the healthy pancreas.
Authors: Y Nishimura; R Hosotani; Y Shibamoto; M Kokubo; S Kanamori; K Sasai; M Hiraoka; G Ohshio; M Imamura; M Takahashi; M Abe Journal: Int J Radiat Oncol Biol Phys Date: 1997-08-01 Impact factor: 7.038
Authors: A Zerbi; V Fossati; D Parolini; M Carlucci; G Balzano; G Bordogna; C Staudacher; V Di Carlo Journal: Cancer Date: 1994-06-15 Impact factor: 6.860
Authors: Sasa-Marcel Maksan; Eduard Schmidt; Eduard Ryschich; Wolfgang Harms; Jan Schmidt Journal: World J Gastroenterol Date: 2005-04-07 Impact factor: 5.742
Authors: Sandeep S Hedgire; Mari Mino-Kenudson; Azadeh Elmi; Sarah Thayer; Carlos Fernandez-del Castillo; Mukesh G Harisinghani Journal: Int J Nanomedicine Date: 2014-04-17