Habituation is a natural analgesic process, but the underlying central mechanisms are largely unknown. Prior studies have shown that long-term pain habituation (i.e., reduced responses to repetitive painful stimuli applied over several days) occurred in both the repetitively stimulated site and non-stimulated sites, but whether this phenomenon also exists in short-term pain habituation process (i.e., adaptation after a period of repetitive painful stimuli) remains unclear. To address these issues, we recruited sixteen healthy subjects and used functional MRI to investigate neural substrates underlying short-term pain habituation during repetitive painful stimuli applied to the left volar forearm. Pain-induced habituation was evaluated by comparing behavioral and neuroimaging responses before and after stimulation, and the extent of habituation was further analyzed against the habituation effects induced by repetitive nonpain stimuli. Different from long-term pain habituation, short-term pain habituation only developed in the stimulated site. Importantly, activity in the perigenual anterior cingulate cortex (pACC) was unique to the short-term habituation of pain. Moreover, the strength of functional connectivity from the pACC to the anterior insula and the lateral prefrontal cortex was parametrically associated with the degree of pain habituation. These findings suggest that short-term habituation to repetitive noxious stimuli involves a distinct central component, consisting of areas involved in antinociception, nociceptive processing, and attentional modulation.