Pancreatic cancer is one of highly lethal cancers, with the lowest survival rate among all human cancers. Despite the current availability of many modulations against cancer, these treatments generally involve chemotherapy and radiotherapy, which are associated with undesired side effects. Recently, many researchers have focused on the development and applications of alternative cancer treatments. In this dissertation, the combination of herbal polyphenol with physical stimuli as a mild treatment modality was adopted to study their cooperative anticancer effects on human pancreatic cancer PANC-1 cells. Firstly, we present a non-invasive treatment comprising of exposure of PANC-1 cells to curcumin coupled with the low-intensity pulsed electric field (LIPEF). The results showed that non-contact LIPEF at certain intensity could enhance the anticancer effect of low-dose curcumin on PANC-1 cells through both extrinsic and intrinsic caspase pathways. This combination approach, by contrast, was found to be less toxic toward non-cancerous human HEK293 cells. Furthermore, the increase of curcumin uptake in PANC-1 cells via electro-endocytosis revealed the mechanism of combination action for electrical enhancement of curcumin’s anticancer activities. Secondly, a novel methodology, termed thermal-cycling hyperthermia (TC-HT), to enhance the cytotoxicity of epigallocatechin gallate (EGCG) and chlorogenic acid (CGA) in PANC-1 cells was illustrated. Our results demonstrated that combination of TC-HT plus CGA and TC-HT plus EGCG significantly exerted the anticancer activites against PANC-1 cells, while any of the single treatment did not induce such effects. The synergistic activity was attributed to the cell cycle arrest at the G2/M phase and the induction of reactive oxygen species (ROS)-dependent mitochondria-mediated apoptosis. The finding of our study indicates that the TC-HT may sensitize PANC-1 cells to anticancer agents, thereby yielding thermal enhancement of cytotoxicity of CGA or EGCG. Finally, the TC-HT and LIPEF were both employed to combine with CGA in the treatment of PANC-1 cells. It was found that this triple combination can impede the proliferation of human pancreatic cancer PANC-1 cells, with only about 20% viable cells left after 24 h, while being non-toxic to normal human pancreatic duct H6c7 cells. The synergistic effect of this triple treatment could be achieved through up-regulation of p53 and coupled with increased expressions of downstream proteins p21 and Bax, which resulted in G2/M phase arrest and cell death. Further mechanism investigations revealed that the cytotoxic activity could be related to mitochondrial apoptosis, characterized by the reduced level of Bcl-2, mitochondrial dysfunction, and sequential activation of caspase-9 and PARP. In addition, we found that intracellular ROS production was increased by triple treatment. Notably, the triple treatment-induced cytotoxic effects and the elevated expression of p53 and p21 proteins, as well as the increased Bax/Bcl-2 ratio, all could be alleviated by the ROS scavenger, N-acetyl-cysteine (NAC). To sum up, the studies have unambiguously shown the potential and feasibility of the non-contact LIPEF and TC-HT as physical remedies combined with herbs in pancreatic cancer treatment. It is known that the herbal agents often possess much gentle and tolerable properties, it can be suggested the combination use of herb medicine with LIPEF and/or TC-HT could be the novel and promising strategy for pancreatic cancer treatment.