In the present study, three kinds of piezoelectric ceramics, including K0.5Na0.5NbO3 (KNN), Li0.06K0.47Na0.47NbO3 (LKNN) and BaTiO3, were prepared by using conventional powder processing. A dry environment for the storage of the KNN and LKNN powders is beneficial for densification. The modification of KNN by doping lithium can improve its density, piezoelectricity and mechanical strength. The optimal sintering temperature is also decreased, indicating that a solid solution of KNN and lithium is formed. The BaTiO3 powder used is a Ti-rich BaTiO3 powder. Relatively large grains are found in the sintered specimens. All three bulk ceramics show high stability after immersion in normal saline for up to 28 days, and anisotropic deposition of NaCl crystal was observed. The cytotoxicity is investigated by using the MTT assay, and L929 fibroblasts were used as the testing cells. The viabilities of cells after treatment of powder extract were all high for three groups. The KNN-based piezoelectric ceramics showed high stabilities and low toxicity in body-simulated environment. Therefore, it is a potential material for further biomedical applications.