E neuroscientists in the late 1990s and early 2000s focused on the role of the dACC in cognitive processes such as conflict monitoring and error detection, processes that signal the need for cognitive control (Botvinick et al., 2004). Indeed, an influential review at that time suggested that the dACC was primarily involved in cognitive processes whereas the ventral ACC (vACC) was primarily involved in affective processes (Bush et al., 2000). This synthesis was later overturned by a comprehensive meta-analysis showing that cognitive, affective and painful tasks all activate the dACC (Shackman et al., 2011) as well as a review showing that the dACC is involved in emotional appraisal and expression, whereas the vACC is involved in emotional regulation (Etkin et al., 2011). Hence, the specific role of the dACC and vACC in cognitive and emotional processing has been debated, with major pendulum shifts across decades (reviewed in Eisenberger, in press). This debate about the mapping of specific ACC subregions to specific psychological processes has pervaded the study of social pain as well. Some MK-571 (sodium salt) mechanism of action studies have shown that experiences of rejection, exclusion or loss activate the dACC and that self-reports of social distress correlate with dACC activity (Eisenberger et al., 2003; reviewed in Eisenberger, 2012). However, some researchers have suggested that the dACC response to social pain may be an artifact of the paradigm often used to induce social pain and that instead, the vACC should be sensitive to social pain (Somerville et al., 2006). Specifically, in line with the dorsal-cognitive/ventral-affective account of ACC function (Bush et al., 2000), it has been suggested that dACC responses to the Cyberball social exclusion task, which involves social inclusion followed by social exclusion, may be reflective of an ��-Amatoxin web expectancy violation, rather than social distress (Somerville et al., 2006). In a formal test of this hypothesis, Somerville and colleagues found that the dACC was sensitive to expectancy violation, whereas the vACC was sensitive to social acceptance. More recent studies, however, have shown that even after controlling for expectancy violation with carefully matched control conditions, the dACC was still responsive to social rejection (Kawamoto et al., 2012; Cooper et al., 2014), suggesting that dACC activity to social rejection cannot simply be attributed to expectancy violation. Meanwhile other researchers have shown that the vACC, rather than the dACC, activates to social exclusion (Masten et al.,Received 3 September 2014; Revised 3 September 2014; Accepted 4 September 2014 Advance Access publication 9 September 2014 Correspondence should be addressed to Naomi I. Eisenberger, UCLA Psych-Soc Box 951563, 4444 Franz Hall Los Angeles, CA 90095, USA. E-mail: [email protected]; Bolling et al., 2011; others reviewed in Eisenberger, 2012) raising the question of whether dACC activity is even a reliable response to social rejection. This confusion in the literature sets the stage for the important contribution made by Rotge and colleagues in this issue of SCAN (Rotge et al., this issue). Rotge and colleagues investigated which subregions of the ACC were most reliably activated in response to social pain by conducting a meta-analysis of the social pain literature. Across 46 studies of social pain (including studies of rejection, exclusion and loss), which included a total of 940 healthy subjects, Rotge and colleagues found evidence that s.E neuroscientists in the late 1990s and early 2000s focused on the role of the dACC in cognitive processes such as conflict monitoring and error detection, processes that signal the need for cognitive control (Botvinick et al., 2004). Indeed, an influential review at that time suggested that the dACC was primarily involved in cognitive processes whereas the ventral ACC (vACC) was primarily involved in affective processes (Bush et al., 2000). This synthesis was later overturned by a comprehensive meta-analysis showing that cognitive, affective and painful tasks all activate the dACC (Shackman et al., 2011) as well as a review showing that the dACC is involved in emotional appraisal and expression, whereas the vACC is involved in emotional regulation (Etkin et al., 2011). Hence, the specific role of the dACC and vACC in cognitive and emotional processing has been debated, with major pendulum shifts across decades (reviewed in Eisenberger, in press). This debate about the mapping of specific ACC subregions to specific psychological processes has pervaded the study of social pain as well. Some studies have shown that experiences of rejection, exclusion or loss activate the dACC and that self-reports of social distress correlate with dACC activity (Eisenberger et al., 2003; reviewed in Eisenberger, 2012). However, some researchers have suggested that the dACC response to social pain may be an artifact of the paradigm often used to induce social pain and that instead, the vACC should be sensitive to social pain (Somerville et al., 2006). Specifically, in line with the dorsal-cognitive/ventral-affective account of ACC function (Bush et al., 2000), it has been suggested that dACC responses to the Cyberball social exclusion task, which involves social inclusion followed by social exclusion, may be reflective of an expectancy violation, rather than social distress (Somerville et al., 2006). In a formal test of this hypothesis, Somerville and colleagues found that the dACC was sensitive to expectancy violation, whereas the vACC was sensitive to social acceptance. More recent studies, however, have shown that even after controlling for expectancy violation with carefully matched control conditions, the dACC was still responsive to social rejection (Kawamoto et al., 2012; Cooper et al., 2014), suggesting that dACC activity to social rejection cannot simply be attributed to expectancy violation. Meanwhile other researchers have shown that the vACC, rather than the dACC, activates to social exclusion (Masten et al.,Received 3 September 2014; Revised 3 September 2014; Accepted 4 September 2014 Advance Access publication 9 September 2014 Correspondence should be addressed to Naomi I. Eisenberger, UCLA Psych-Soc Box 951563, 4444 Franz Hall Los Angeles, CA 90095, USA. E-mail: [email protected]; Bolling et al., 2011; others reviewed in Eisenberger, 2012) raising the question of whether dACC activity is even a reliable response to social rejection. This confusion in the literature sets the stage for the important contribution made by Rotge and colleagues in this issue of SCAN (Rotge et al., this issue). Rotge and colleagues investigated which subregions of the ACC were most reliably activated in response to social pain by conducting a meta-analysis of the social pain literature. Across 46 studies of social pain (including studies of rejection, exclusion and loss), which included a total of 940 healthy subjects, Rotge and colleagues found evidence that s.
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