Assuming a gravitational origin for the Fe III$lambdalambda$2039-2113 redshift and using microlensing based estimates of the size of the region emitting this feature, we obtain individual measurements of the virial factor, $f$, in 10 quasars. The average values for the Balmer lines, $langle f_{Hbeta}rangle={bf 0.43pm 0.20}$ and $langle f_{Halpha}rangle={bf 0.50pm 0.24}$, are in good agreement with the results of previous studies for objects with lines of comparable widths. In the case of Mg II, consistent results, $f_{Mg II} sim {bf 0.44}$, can be also obtained accepting a reasonable scaling for the size of the emitting region. The modeling of the cumulative histograms of individual measurements, $CDF(f)$, indicates a {relatively} high value for the ratio between isotropic and cylindrical motions, $asim {bf 0.4}-0.7$. On the contrary, we find very large values of the virial factor associated to the Fe III$lambdalambda$2039-2113 blend, $f_{FeIII}=14.3pm2.4$, which can be explained if this feature arises from a flattened nearly face-on structure, similar to the accretion disk.