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Lista de candidatos sometidos a examen:
1) premotor (*)
(*) Términos presentes en el nuestro glosario de lingüística

1) Candidate: premotor


Is in goldstandard

1
paper CH_corpusRLAtxt72 - : Although causal perception engages the PMd, both lexical and periphrastic semantic representations of causality are associated with the engagement of this region during causal judgment tasks. The premotor engagement arises, however, under two different conditions: when the task demands high cognitive effort (during the lexical condition ) or when it demands a high level of abstraction (during the periphrastic condition). Because the PMd seems to execute concrete stages of the decision making process (Badre & D'Esposito, 2009) as preparatory responses and in the processing of spatial information (Schubotz, Anwander, Knösche, Von Cramon, & Tittgemeyer, 2010), it is not surprising that the PMd area subserves both roles during causal judgment (Limongi Tirado et al., 2011). Yet, this hypothesis needs further empirical support.

Evaluando al candidato premotor:


2) causal: 3 (*)

premotor
Lengua: eng
Frec: 18
Docs: 5
Nombre propio: / 18 = 0%
Coocurrencias con glosario: 1
Puntaje: 1.572 = (1 + (1+2) / (1+4.24792751344359)));
Candidato aceptado

Referencias bibliográficas encontradas sobre cada término

(Que existan referencias dedicadas a un término es también indicio de terminologicidad.)
premotor
: Abe, M., Hanakawa, T., Takayama, Y., Kuroki, C., Ogawa, S., & Fukuyama, H. 2007. Functional coupling of human prefrontal and premotor areas during cognitive manipulation. J Neurosci, 27 (13), 3429-3438.
: Gallesse V., Fadiga L., Fogassi L. y Rizzolatti G. 1996. "Action recognition in the premotor cortex", en Brain 119, pp. 593-609.
: Grahn, J. A., & Rowe, J. B. (2009). Feeling the beat: premotor and striatal interactions in musicians and nonmusicians during beat perception. Journal of Neuroscience, 29(23), 7540- 7548.
: Limongi Tirado, R., Habib, R., Young, M. E., & Reinke, K. 2011. Higher-order visual causal representation in the prefrontal and premotor cortices. Paper presented at the 2011 Cognitive Neuroscience Society Annual Meeting.
: Raposo, A., Moss, H., Stamatakis, E.A., Tyler, L.K., Rizzolatti, G. y Craighero, L. 2009. "Modulation of motor and premotor cortices by actions, action words and action sentences", en Neuropsychologia 47, pp. 387-396.
: Rizzolatti, G., Fadiga L., Gallese V. y Fogassi L. (1996). Premotor cortex and the recognition of motor actions. Cognitive Brain Research. 3 (2), pp. 131-141
: Schubotz, R. I., & von Cramon, D. Y. (2001). Interval and ordinal properties of sequences are associated with distinct premotor areas. CerebralCortex , 11(3), 210-222.
: Schubotz, R. I., Anwander, A., Knösche, T. R., Von Cramon, D. Y., & Tittgemeyer, M. 2010. Anatomical and functional parcellation of the human lateral premotor cortex. NeuroImage, 50, 396-408.