Figure 8.

Correlation between behavior and magnetic susceptibility. (A) Correlation between escape latency and magnetic susceptibility. The escape latencies were significantly correlated with magnetic susceptibility in the sensorimotor cortex, hippocampus, and corpus striatum, but no significant correlations were observed between the escape latencies and magnetic susceptibility in the cerebellum. (B) Correlation between the open arm ratio and magnetic susceptibility. The open arm ratio was significantly correlated with magnetic susceptibility in the hippocampus and amygdaloid nucleus, but no significant correlations were observed between the open arm ratio and magnetic susceptibility in the prefrontal cortex. (C) Correlation between the amount of time spent in the open arms of the EPM and magnetic susceptibility. The amount of time spent in the open arms was significantly correlated with magnetic susceptibility in the hippocampus and amygdaloid nucleus, but no significant correlations were observed between the amount of time spent in the open arms and magnetic susceptibility in the prefrontal cortex. (D) Correlation between the amount of time spent in the center zone and magnetic susceptibility. The amount of time spent in the center zone was significantly correlated with magnetic susceptibility in the hippocampus and amygdaloid nucleus, but no significant correlations were observed between the amount of time spent in the center zone and magnetic susceptibility in the prefrontal cortex. (E) Correlation between the amount of time spent in the wall zone and magnetic susceptibility. The amount of time spent in the wall zone was significantly correlated with magnetic susceptibility in the hippocampus and amygdaloid nucleus, but no significant correlations were observed between the amount of time spent in the wall zone and magnetic susceptibility in the prefrontal cortex. (F) Correlation between the total distance traveled and magnetic susceptibility. The total distance traveled was significantly correlated with the magnetic susceptibility in the primary motor cortex and corpus striatum. (G) Correlation between rearing and magnetic susceptibility. There were no significant correlations were rearing and magnetic susceptibility in the cerebellum and corpus striatum. (H) Correlation between climbing and magnetic susceptibility. Climbing was significantly correlated with magnetic susceptibility in the cerebellum, but no significant correlations were observed between climbing and magnetic susceptibility in the corpus striatum. (I) Correlation between immobility time and magnetic susceptibility. There were no obvious correlations between immobility time and magnetic susceptibility in the hippocampus, prefrontal cortex, and amygdaloid nucleus.