This preliminary experiment evaluated the impact of cobalt chrome prosthetic post alloy on corrosion behavior when coupled with mineral trioxide aggregate (MTA) in an in vitro model. Due to increasing the demand for tooth preservation and the success of minimally-invasive dentistry and microscope-assisted endodontics, there has been a significant improvement. More teeth with clinical symptoms are now undergoing endodontic surgery. Simultaneously, MTA has been widely utilized in the field of endodontics as a retrograde filling material over the last two decades with numerous studies confirming its contribution to increased success rates in endodontic surgery. However, there is limited information on the interaction of interfaces between MTA and prosthetic post alloy. Therefore, we investigated the macroscopic surface changes at the interface for MTA-alloy. Specimens were prepared and divided into two groups: 20 tested specimens from cobalt-chrome alloys immersed in MTAs and 5 specimens in the negative control group, consisting of cobalt-chrome alloys and MTAs individually without contact. All specimens were incubated in a 37 °C incubator. After 30 days, visual observation and dental microscope evaluation were conducted to examine color changes, surface morphology, particle accumulation, and metal corrosion of the MTA-alloy interface. The surfaces of the alloy and the MTA of the negative control groups were also examined. The result demonstrated that the tested specimens exhibited color changes, morphologic roughness, and pitting corrosion. However, considering the potential tissue irritation from the MTA-alloy interface when released into the periradicular area, it appears more appropriate for clinicians to carefully consider retrograde filling material selection in endodontic surgery, avoiding MTA direct coverage of the post alloy.