Religion, spirituality, and sport is an increasingly popular discipline in the sport psychology framework, often based on one’s own faith and religious beliefs. The spiritual dimension of the human experience first focused on religious and mystic experiences; later, various other states of mind, such as peak experiences, flow, and “being in the zone,” were discussed using the framework of humanistic and positive psychology, including in the context of sports. Human movement activities were part of religious cults and rites in ancient societies, for example in the Greek Olympic Games. Thanks to this tradition, the father of the modern Olympic Games, Pierre de Coubertin, wrote about religio athletae when discussing the transcendent aspects of modern sport. Contemporary sport is not connected to religion in such a direct way, however. The modern athlete normally follows his or her own religious tradition in a private manner. This does not mean, however, there is no connection between religion and sport. On the contrary, religious and quasi-religious behavior is commonly found in the sport environment, including superstitious rituals of athletes and fans, prayer in sporting areas, and application of non-Christian practices in sports psychology consulting. Furthermore, deeper values and meanings can be attributed to sport activities as a kind of nonreligious spirituality. It is possible to observe an increasing interest in the religious and spiritual aspects of sports in the new millennium, which can be seen in the establishing of specific professions like sport psychologists or chaplains, as well as university centers for the study of religion and spirituality in sport.
Aidan Moran, Nick Sevdalis, and Lauren Wallace
At first glance, there are certain similarities between performance in surgery and that in competitive sports. Clearly, both require exceptional gross and fine motor ability and effective concentration skills, and both are routinely performed in dynamic environments, often under time constraints. On closer inspection, however, crucial differences emerge between these skilled domains. For example, surgery does not involve directly antagonistic opponents competing for victory. Nevertheless, analogies between surgery and sport have contributed to an upsurge of research interest in the psychological processes that underlie expertise in surgical performance. Of these processes, perhaps the most frequently investigated in recent years is that of motor imagery (MI) or the cognitive simulation skill that enables us to rehearse actions in our imagination without engaging in the physical movements involved. Research on motor imagery training (MIT; also called motor imagery practice, MIP) has important theoretical and practical implications. Specifically, at a theoretical level, hundreds of experimental studies in psychology have demonstrated the efficacy of MIT/MIP in improving skill learning and skilled performance in a variety of fields such as sport and music. The most widely accepted explanation of these effects comes from “simulation theory,” which postulates that executed and imagined actions share some common neural circuits and cognitive mechanisms. Put simply, imagining a skill activates some of the brain areas and neural circuits that are involved in its actual execution. Accordingly, systematic engagement in MI appears to “prime” the brain for optimal skilled performance. At the practical level, as surgical instruction has moved largely from an apprenticeship model (the so-called see one, do one, teach one approach) to one based on simulation technology and practice (e.g., the use of virtual reality equipment), there has been a corresponding growth of interest in the potential of cognitive training techniques (e.g., MIT/MIP) to improve and augment surgical skills and performance. Although these cognitive training techniques suffer both from certain conceptual confusion (e.g., with regard to the clarity of key terms) and inadequate empirical validation, they offer considerable promise in the quest for a cost-effective supplementary training tool in surgical education. Against this background, it is important for researchers and practitioners alike to explore the cognitive psychological factors (such as motor imagery) that underlie surgical skill learning and performance.