I'm working for a high frequency input signal integrator with AD8041 or LT1364 and doing simulations on LTspice(I'm new for it), AD8041 has properties of 160MHz GBP and LT1364 has 70MHz GBP. They both have some strange results. My circuit is shown as follows. 
As the integration function shows: $$v_{o} = \frac{1}{RC}\int_{0}^{t}sin\omega tdt$$ I want to make the coefficient equal to 1 So RC = 100k*10u = 1. However, I wonder whether it works well at frequency higher than 1Hz (which is constrained by $$RC >> \Delta t$$), because its Frequency Response is very low at frequency higher than 1. (which is constrained by $$f_{cut} = \frac{1}{RC}$$) Maybe it works but has very small Magnitude. So I input a Sinusoidal Signal with 10Hz. I also add the Parallel Resistors R1 and R4, and the Balanced Resistors R2 and R5.The result is shown as follows.
In theory, they maybe both begin with 0V and have consistent dc offset. However the plot shows not. I'm curious of the reason and how to remove it. The unwanted dc offset will influence the integration result when the input signal has a dc offset. When the frequency is higher, the offset is very clear in the next picture.(The frequency is 100Hz)
And it failed when the frequency up to 1Meg! 
If my parameter set is unreasonable, please give me some advice. How to design an integrator with high frequency input signal up to 1MHz?
