Endoscopic evaluation of small bowel lesions in Hodgkin's lymphoma patients during chemoradiation therapy

Our article shows first experience of using capsule endoscopy for examination of small bowel’s lesions in case of radiation therapy and chemotherapy in patients with Hodgkin lymphoma. We try to compare these changes with modern theories of normal tissues response to radiation therapy and chemotherapy. The investigation revealed that more than a half of the patients (58%) had not any clinical symptoms of small bowel iatrogenic lesions, including potentially dangerous late strictures.

1. Mauch P.V., Armitage J.D., Diehl V. et al. Hodgkin’s disease. Philadelphia, 1999.

2. Логинов А.С., Васильев Ю.В., Пар-фенов Д.А. Особенности эндоскопического исследования при поражениях тощей и подвздошной кишки. Рос гастроэнтерол журн 2000;(2):10—2.

3. Гершанович М.Л. Осложнения при химио- и гормонотерапии злокачественных опухолей. М.: Медицина, 1982.

4. Anno G.H., Daum S.J., Withers H.R. et al. Symptomatology of acute radiation effects in humans after exposure to doses of 0,5—30 Gy. Health Physics 1989;56(6):821—38.

5. Rodemann H.P., Blaese M.A. Responses of normal cells to ionizing radiation. Sem Radiat Oncol 2007;17(2):81—8.

6. Pena L.A., Fuks Z., Kolesnick R.N. Stress-induced apoptosis and the sphingomyelinpathway. Biochem Pharmacol 1997;53:615—21.

7. Pena L.A., Fuks Z., Kolesnick R.N. Radiation-induced apoptosis of endothelialcells in the murine central nervous system: Protection by fibroblastgrowth factor and sphingomyelinase deficiency. Cancer Res 2000;60:321—7.

8. Morris G.M., Coderre J.A., Bywaters A. et al. Boron neutron capture irradiation of the rat spinal cord: Histopathological evidence of a vascularmediated pathogenesis. Radiat Res 1996;146:313—20.

9. Fajardo L.F., Bathrong M., Anderson R.E. Radiation Pathology. N Y: Oxford University Press, 2001.

10. Jaenke R.S., Robbins M.E., Bywaters T. et al. Capillary endothelium: Target site of renal radiation injury. Lab Invest 1993;68:396—405.

11. Dimitrievich G.S., Fischer-Dzoga K., Griem M.L. Radiosensitivity of vascular tissue: I-Differential radiosensitivity of capillaries: A quantitative in vivo study. Radiat Res 1984;99:511—35.

12. Tada H., Ogushi F., Tani K. et al. Increased binding of chemotactic capacities of PDGF-BB on fibroblasts in radiation pneumonitis. Radiat Res 2003;159:805—11.

13. Rodemann H.P., Bamberg M. Cellular basis of radiation-induced fibrosis. Radiother Oncol 1995;35:83—90.

14. Rubin P., Finkelstein J., Schapiro D. Molecular biology mechanisms in the radiation induction of pulmonary injury syndromes: Interrelationship between the alveolar macrophage and the septal fibroblast. Int J Radiat Oncol Biol Phys 1992;24:93—101.

15. Rodemann H.P., Peterson H.P., Schwenke K. et al. Terminal differentiation of human fibroblasts is induced by radiation. Scanning Microsc 1992;5:1135—43.

16. Rodemann H.P., Binder A., Burger A. et al. The underlying cellular mechanism of fibrosis. Kidney 1996;49:32—6.