The symptoms of bvFTD differ from those in AD in terms of social, emotional and executive functioning. Investigations of the brain substrates of behavioral changes demonstrate that the orbital frontal cortex (OFC) plays a crucial role in normal social and emotional behavior. The OFC appears to regulate behavior via a predominantly right-sided circuit that also includes the insula, anterior cingulate cortex and striatum, as impairments in social cognition in bvFTD seem to arise from a predominantly right-sided network involving OFC. Empathy is a complex cognitive and emotional process involving the ability to recognize and feel the emotional response of another individual. Empathy promotes social engagement, provides cues important for appropriate social conduct and has been shown to be lacking in bvFTD patients (Rankin et al., 2004). Rankin and colleagues (2006) demonstrated that right medial OFC volume was strongly related to loss of cognitive and emotional empathy in a sample of 123 patients with neurodegenerative disease, including 30 with bvFTD. Within the bvFTD group in particular, empathy deficits were related to decreased volume of the subcallosal gyrus, consistent with orbitofrontal damage. Gregory and colleagues (2002) showed that the related concept of theory of mind (i.e., the ability to infer other people’s mental states, thoughts, and feelings) was impaired in bvFTD, and that the degree of impairment showed a strong concordance with ventromedial frontal damage. In a study by Eslinger et al. (2006), bvFTD patients showed impairment on a test that required them to evaluate the thoughts, feelings and intentions of characters in social situations and choose the socially appropriate behavior to resolve the situation. The degree of impairment on this test was related to right OFC, right superior temporal, right occipital, and right posterior cingulate VBM-determined cortical atrophy. Alterations in eating behavior have also frequently been observed in bvFTD, and recent research by Woolley and colleagues (2007) with these patients suggests that a right orbitofrontal-insular-striatal circuit may be necessary for normal regulation of feeding and satiety.