Recently, non-thermal pulsed-fieldablation using electroporation has generated a lot of interest as a potential treatment for Atrial Fibrillation. The electrical properties, and specially the conductivity of cardiac tissues, are used in the in treatment planning of non-thermal pulsed field ablation. However, there is no standard approach to measure the conductivity, particularly for the left atrial appendage (LAA). Electrical conductivity characterization studies, focusing on cardiac tissues, have used different probe typologies with different electrodes sizes. Furthermore, no study has investigated the effect of the probe design on the acquired conductivity. In this study, common leading probe typologies with different electrode size are compared in terms of accuracy and measurement repeatability. Using liquid phantoms, differences in term of measurement accuracy and repeatability are observed between the probe designs which suggests that the measurement probe design influences the data acquisition quality.Based on these results, a custom probe design is proposed suitable for the characterization of the conductivity of the LAA. The probe is tested using ten ex vivo bovine tissue samples between 0.1 Hz and 100 kHz. The mean conductivity of the LAA acquired from the ten samples is 2.5 mS/cm with a standard deviation of 0.24 mS/cm which is in line with conductivity of cardiac tissues in the literature. The conductivity values of the left atrial appendage may be useful in electroporation treatment planning, furthermore this study suggests that adapting the probe design to the tissue under study can be important.