Lung damage following bone marrow transplantation: II. The contribution of cyclophosphamide
article
The effect of high-dose cyclophosphamide (Cy), either alone or in combination with irradiation, upon the development of interstitial pneumonitis (IP) after bone marrow transplantation (BMT) was investigated in a Brown Norway rat model. The parameters that were examined included ventilation rate, mortality, and histopathology. No damage to the lungs was observed in rats given Cy alone in supralethal dosages plus BMT, and mortality resulted from severe aplasia of hemopoietic and lymphoid tissues with multifocal hemorrhages, secondary infections, and sepsis. Two separate periods of mortality were observed within the first 180 days following whole thorax irradiation with a high dose rate (HDR; 0.8 Gy/min) or a low dose rate (LDR; 0.05 Gy/min). The addition of Cy prior to irradiation resulted in an increased mortality in the first period (before day 100) in all experimental groups. The influence of Cy on mortality at 180 days however, was different for the HDR and LDR experiments. The LD50-180 after HDR irradiation, dose range 8 to 13 Gy, was not significantly altered by the addition of Cy (100 mg/kg) 1 day prior to irradiation, whereas Cy (100 mg/kg) 1 day prior to LDR irradiation, dose range: 16 to 24 Gy, caused an enhancement of radiation damage with a decrease of the LD50-180 by 1.33 Gy. The dose modification factor (DMF) was 1.07. This enhancement was no longer significant after splitting up the dose of Cy in two dosages of 50 mg/kg given on 2 consecutive days prior to irradiation with a LDR. The extrapolation of the data in this rat model to available dose-response curves on IP after BMT and radiation pneumonitis in humans, implied that non-infectious IP is a radiation pneumonitis that is only slightly enhanced by Cy.
Chemicals/CAS: cyclophosphamide, 50-18-0; Cyclophosphamide, 50-18-0
Chemicals/CAS: cyclophosphamide, 50-18-0; Cyclophosphamide, 50-18-0
Topics
cyclophosphamideanimal experimentblood and hemopoietic systembone marrow transplantationhistologyinjuryinterstitial pneumoniaintraperitoneal drug administrationlung injurynonhumanradiation pneumoniaratrespiratory systemtherapywhole body radiationAnimalBone Marrow TransplantationCyclophosphamideFemaleLungPulmonary FibrosisRats
TNO Identifier
230461
ISSN
03603016
Source
International Journal of Radiation Oncology Biology Physics, 13(10), pp. 1515-1521.
Pages
1515-1521
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