Electron impact excitation rates for the three transitions 2s2p 3Po-2p23P, 2s2p 3Po-2s3d 3D and 2s2p 3Po-2p3s 3Po in Ne VII are evaluated using the multichannel R-matrix method. Twenty-six target eigenstates consisting of the six n=2 states with configurations 2s2, 2s2p and 2p2, and the twenty n=3 states with configurations 2s3s, 2s3p, 2s3d, 2p3s, 2p3p and 2p3d, are included in the expansion of the total wavefunction. Comparisons are made with experimental data of Lang (1983) for which differences of up to a factor of 5 were found in comparison with earlier theoretical excitation rate values. The rates produced by the present sophisticated calculation are however in excellent agreement with these previous theoretical results, the greatest disparity being less than 20%. Therefore discrepancies of between 60% and a factor of 4 still remain between theory and experiment for all three transitions considered.