Evidence against the "oxygen-in-the-track" hypothesis as an explanation for the radiobiological low oxygen enhancement ratio at high linear energy transfer radiation.

Oxygen sensitizes cells toward the effect of ionizing radiation. This sensitization, quantified by the oxygen enhancement ratio (OER), decreases with increasing ionization density or linear energy transfer (LET) of the radiation applied. One explanation for the decreased OER at high LET offers the "oxygen-in-the-track" hypothesis. It claims that oxygen is produced in the track of densely ionizing particles providing an oxic microenvironment around the relevant cellular target molecules, even if cells are exposed under anoxic atmospheric conditions. Experimental evidence is presented against this hypothesis. It is based on the different kinetic pattern of DNA double-strand-break rejoining observed in yeast cells exposed under oxic or anoxic conditions to 3.5 MeV alpha-particles.