Abstract: Precise measurements of the intensities of superallowed Fermi 0+ 0+-decays have provided a powerful test of the CVC hypothesis at the level of 310-4 and also led to a result in disagreement with unitarity for the CKM matrix at the 98% confidence level. It is essential to address possible trivial explanations for the apparent non-unitarity such as uncertainties in the isospin symmetry-breaking corrections. We have carefully studied the 74Rb 74Kr -decay in order to measure the non-analog -decay branching to the 0+ state at 508 keV in 74Kr. We have determined that this branching is 310-4, far smaller than any published theoretical estimate. We also show that high-precision, complete spectroscopy, measuring the major -branches to excited 0+ and 1+ states, must be performed if one is to obtain a meaningful branching ratio to the excited 0+ state and concomitantly deal, in a substantial way, with the possibility of feeding to an array of 1+ states.