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DOI: 10.1055/s-0033-1344421
Endoscopic features of radiation gastritis after irradiation of hepatocellular carcinoma
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Publication History
Publication Date:
05 September 2013 (online)
Radiation gastritis has rarely been reported [1]. In this study, radiation gastritis was defined on endoscopy as a red lesion, usually larger than 2 cm, that was sharply demarcated from the surrounding normal mucosa, and was found in a focal area of the stomach when erosive gastritis had been excluded. Overall, 31 patients were diagnosed as having radiation gastritis. Of these, 22, 13, and 3 also developed gastroduodenal ulcers, radiation duodenitis, and radiation colitis, respectively.
The predominant lesion was in the antrum in 30 patients; the prepyloric antrum was involved in 27 patients. A total of 59 endoscopies were used to study the color and morphology of the gastritis lesions. Of the eight endoscopies performed within 90 days of initiating radiotherapy (acute period), four demonstrated red lesions and four faint or dark red lesions ([Fig. 1 a]); four showed petechiae ([Fig. 1 a]), three had patchy lesions ([Fig. 1 b]), and one showed telangiectasia. Of the other 51 endoscopies performed thereafter (late period), 47 demonstrated red lesions and four faint or dark red lesions; 38 demonstrated patchy lesions ([Fig. 2 a]), 10 showed petechiae ([Fig. 2 b]), and three showed telangiectasia ([Fig. 2 c, d]).
Acute gastrointestinal radiation toxicity arises from direct irradiation damage to the mucosa [2] and capillaries [3]. In this study, acute radiation gastritis often appeared as petechiae and inflammatory lesions of varying degrees of redness.
Late gastrointestinal radiation toxicity primarily arises from chronic obliterative endarteritis due to radiation damage to the endothelial cells of the arteriole [4] [5]. Irradiation indirectly leads to ischemic injuries (ulcers) and angiogenesis. Angiogenesis, instead of inflammation and petechiae, predominates in late radiation gastritis, which may explain the red (often bright red) lesions of radiation gastritis in this period ([Fig. 2 a – c]).
In this study, radiation gastritis usually involved the prepyloric antrum, which was probably due to the characteristic anatomy of the irradiated area (predominantly celiac and portal vessels) and the differing radiosensitivity of the tissues [2].
Endoscopy_UCTN_Code_CCL_1AB_2AD_3AF
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Competing interests: None
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References
- 1 De Sagher LI, Van den Heule B, Van Houtte P et al. Endoscopic appearance of irradiated gastric mucosa. Endoscopy 1979; 11: 163-165
- 2 Tullis JL, Lamson BG, Madden SC. Pathology of swine exposed to total body gamma radiation from an atomic bomb source. Am J Pathol 1955; 31: 41-71
- 3 Dimitrievich GS, Fischer-Dzoga K, Griem ML. Radiosensitivity of vascular tissue. I. Differential radiosensitivity of capillaries: a quantitative in vivo study. Radiat Res 1984; 99: 511-535
- 4 Fajardo LF. The pathology of ionizing radiation as defined by morphologic patterns. Acta Oncol 2005; 44: 13-22
- 5 Wang J, Boerma M, Fu Q et al. Significance of endothelial dysfunction in the pathogenesis of early and delayed radiation enteropathy. World J Gastroenterol 2007; 13: 3047-3055
Corresponding author
-
References
- 1 De Sagher LI, Van den Heule B, Van Houtte P et al. Endoscopic appearance of irradiated gastric mucosa. Endoscopy 1979; 11: 163-165
- 2 Tullis JL, Lamson BG, Madden SC. Pathology of swine exposed to total body gamma radiation from an atomic bomb source. Am J Pathol 1955; 31: 41-71
- 3 Dimitrievich GS, Fischer-Dzoga K, Griem ML. Radiosensitivity of vascular tissue. I. Differential radiosensitivity of capillaries: a quantitative in vivo study. Radiat Res 1984; 99: 511-535
- 4 Fajardo LF. The pathology of ionizing radiation as defined by morphologic patterns. Acta Oncol 2005; 44: 13-22
- 5 Wang J, Boerma M, Fu Q et al. Significance of endothelial dysfunction in the pathogenesis of early and delayed radiation enteropathy. World J Gastroenterol 2007; 13: 3047-3055