I haven't looked at the circuit, but since you say it has dependent sources, the usual way to go about this is to connect a voltage source of generic EMF [tex]e_g[/tex] between the two points, turn off all the independent sources, and then solve this circuit. Now, you use [tex]R_\text{Th} = \frac{e_g}{i_g}[/tex] where [tex]i_g[/tex] is the current going through the voltage source, where active references are used for voltage and current. If you've done everything right, [tex]e_g[/tex] will be a linear function of [tex]i_g[/tex] and you can simplify when you do the division.
This is for the Thévenin resistance - for the Thévenin EMF, all you need is the voltage drop between the two points when you open the circuit, as always.
Hope this helps. :)