Bone necrosis secondary to radiation was previously attributed to trauma of devitalized bone and microbiological sepsis. However, conventional microbiological technique has failed to demonstrate microorganisms throughout osteoradionecrotic bone, claimed to be hypoxic, hypovascular and hypocellular. The aim of the present study was to examine such bone for bacteria using DNA-DNA hybridization. Compared to standard culture methods this technique enables the investigation of a vast number of bacteria in a fairly short time. Twelve deep medullary specimens from resected radionecrotic mandibles were studied. A multitude of bacterial species were detected, most of them anaerobic. Porphyromonas gingivalis was the most predominant organism, followed by Fusobacterium nucleatum subspecies polymorphum. All samples contained Actinomyces, Prevotella and F. nucleatum. The results of this study indicate that bacteria, particularly anaerobes, may play a more fundamental role in the pathophysiology of osteoradionecrosis than being merely surface contaminants.