e14596 Background: Local recurrence contributes to the poor prognosis for patients with Stage IV metastatic or recurrent solid tumors, despite advances in standard care. We report the clinical outcome of intra-operative Cold Atmospheric Plasma (CAP) combined with standard surgical procedures. Methods: The trial was a Phase I, multi-center, open-label, prospective, controlled study. Eligible patients undergoing surgery for advanced Stage IV metastatic or recurrent solid tumors were enrolled and preoperative treatments (neoadjuvant chemotherapy, immunotherapy, radiation, and primary surgery) were permitted. Participants were recruited from Rush University Medical Center in Chicago, Illinois and Sheba Medical Center in Tel HaShomer, Israel. Twenty patients (age 26-85 years) between March 2020 to April 2021 received intra-operative CAP treatment following surgical macroscopic tumor removal. The primary endpoint was safety, and the secondary endpoint was ablation of the local microscopic tumor bed without damaging the surrounding normal tissue. Results: Physiological data (blood pressure, pulse, body temperature, End Tidal CO2, and oxygen saturation) was recorded continuously throughout surgery. There were no significant changes (p > 0.05) during intra-operative CAP treatment. One adverse event grade 3 or higher was reported but no adverse events were related to CAP. As of February 13, 2023, 10 patients died of their disease between 3-32 months. Kaplan-Meier overall survival curves show the interim 31-month rate is 24% (95% confidence interval [CI], 5.0 – 100.0%). Median survival is 23 months. For R0 patients, the Kaplan Meier local non-recurrence probability showed that the interim 28-month rate is 75% (n=8; 95% CI, 50.3 – 100.0%) as of February 13, 2023. Histological staining, TUNEL assay, and confocal imaging of the surgical margins revealed cancer cell death and no damage to the surrounding normal tissue. Primary culture of the tumor confirmed total cessation of cancer cell survival. Conclusions: CAP treatment in combination with surgery for high-risk stage IV solid tumors is safe and induces cancer cell death at the surgical bed without damaging non-cancerous tissue. The survival rate in R0-resected CAP-treated patients was significantly improved compared to R1 and R2 patients and local non-recurrence rate for R0 patients was noteworthy. Clinical trial information: NCT04267575 . [Table: see text]
Cholangiocarcinoma (CCA) is a rare biliary tract cancer with a low five-year survival rate and high recurrence rate after surgical resection. Currently treatment approaches include systemic chemotherapeutics such as FOLFIRINOX, a chemotherapy regimen is a possible treatment for severe CCA cases. A limitation of this chemotherapy regimen is its toxicity to patients and adverse events. There exists a need for therapies to alleviate the toxicity of a FOLFIRINOX regimen while enhancing or not altering its anticancer properties. Cold Atmospheric plasma (CAP) is a technology with a promising future as a selective cancer treatment. It is critical to know the potential interactions between CAP and adjuvant chemotherapeutics. In this study the aim is to characterize the efficacy of FOLFIRINOX and CAP in combination to understand potential synergetic effect on CCA cells. FOLFIRINOX treatment alone at the highest dose tested (53.8 nM fluorouracil, 13.1 nM Leucovorin, 5.1 nM Irinotecan, and 3.7 nM Oxaliplatin) reduced CCA cell viability to below 20% while CAP treatment alone for 7 min reduced viability to 3% (p < 0.05). An analysis of cell viability, proliferation, and cell cycle demonstrated that CAP in combination with FOLFIRINOX is more effective than either treatment alone at a lower FOLFIRINOX dose of 6.73 nM fluorouracil, 1.71 nM leucovorin, 0.63 nM irinotecan, and 0.47 nM oxaliplatin and a shorter CAP treatment of 1, 3, or 5 minutes. In conclusion, CAP has the potential to reduce the toxicity burden of FOLFIRINOX and warrants further investigation as an adjuvant therapy.
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