Cholangiocarcinoma is a highly aggressive and heterogenous group of biliary malignancies arising from any site in the biliary tree, comprising 15% of all primary liver cancers. The nature of the disease and nonspecific presentation leads to late diagnosis and ultimately poor outcomes for patients. Combination gemcitabine and cisplatin has been the standard of care for cholangiocarcinoma (CCA) since 2010, with a median overall survival of 11.7 months. The five year survival for CCA remains 5-10%, revealing a clear need for improved treatment options. This review highlights the role of next generation sequencing in CCA and the clinically relevant tumor biomarkers that have become the focus of therapeutic development. These tumor biomarkers or actionable mutations hold the potential to enable earlier diagnosis, provide prognostic information, and guide treatment decisions for patients with CCA. Specifically, the FGFR2 fusion and IDH1 mutation have shown considerable promise in development of targeted therapies. Clinical trials with inhibitors targeting FGFR2 fusion and IDH1 mutation have created expectations that these drugs will soon enter clinical practice. Other biomarkers including KRAS and B-raf protooncogenes, Her2/neu genes, and BRCA1 and 2 tumor-suppressor genes have also been touted as potential targets for future therapies, with early data showing promise for new drug development. The discovery of these actionable mutations and identification of targeted therapies have challenged the notion of a "one-size fits all" for treatment of CCA, and generated optimism that these novel treatments will soon be available for patients with CCA.
e19506 Background: Chimeric antigen receptor (CAR) T-cell immunotherapy is a revolutionary treatment modality which has gained attention for its potential in treating multiple refractory hematological malignancies. Significant toxicities associated with CAR T- cell therapy remain a major concern. Cytokine release syndrome (CRS) and Immune Effector Cell Associated Neurotoxicity Syndrome (ICANS) are seen early on post CAR-T cell therapy. To date, the treatment of ICANS has largely been limited to supportive care and corticosteroids. More recently, some early clinical data investigated the use of Anakinra as a promising agent in prevention and treatment of severe ICANS. Methods: We analyze three cases in which Anakinra was used to treat high-grade ICANS concurrently with high dose steroids. Results: A 51-year-old woman with high grade DLBCL and secondary CNS involvement was treated with Tisagenlecleucel CAR-T therapy. On day 2, patient became altered and was diagnosed with ICANS Grade II. High dose steroids were started leading to resolution of ICANS. However, patient’s mentation worsened by day 7, progressing to ICANS Grade IV by day 8, and Anakinra 100 mg IV was added to the steroid regimen. By day 11, after 4 doses of Anakinra, patient’s neurotoxicity completely resolved. Patient achieved a PR by day 30 after CAR-T cell infusion. In the second case, a 65-year-old man with DLBCL and leptomeningeal involvement developed ICANS Grade II on day 1 after Tisagenlecleucel CAR-T therapy and was started on high dose steroids. By day 4, neurotoxicity worsened and progressed to ICANS Grade IV. On day 5 patient was transferred to ICU for a mechanical ventilation, and Anakinra 100 mg IV was added and continued daily for 7 days. By day 12, neurotoxicity improved to ICANS grade II and patient was extubated. Meanwhile, high dose steroids were tapered. His condition acutely worsened by day 19, prompting transfer to the ICU and re-initiation of Anakinra concurrently with steroids. His family decided against further escalation of care on day 22. Patient was transitioned to comfort care and died 23 days post CAR-T cell infusion. In the third case, a 65-year-old man with mantle cell lymphoma was treated with Brexucabtagene autoleucel CAR-T therapy. On day 8, patient developed ICANS Grade I which rapidly progressed to Grade IV. High dose steroids were started and ICANS improved to Grade II on Day 9. However, on Day 10 patient’s mentation again worsened and one dose of Anakinra 100mg IV was added to the steroid regimen. By day 11, ICANS completely resolved, and patient was ultimately discharged home on day 15. Patient was able to achieve interval CR by day 30 after CAR-T cell infusion. Conclusions: In the reported cases, ICANS improved following administration of Anakinra, adding support to the idea that Anakinra may be beneficial in treatment of high-grade ICANS. Future studies are needed to better understand the overall efficacy and the ideal timeline for administration.
e15546 Background: Pancreatic cancer (PC) is a high mortality malignancy typically found when curative surgery is not an option. Liquid biopsies are a minimally invasive option that may allow earlier detection of PC. Using a bioinformatic analysis of TCGA and GEO we identified a novel set of blood-based biomarkers to detect PC with high sensitivity and specificity (AUROC = 0.999) (Vrba et al, Epigenetics 2019). Here we tested the ability of this DNA methylation signature (MS) to distinguish metastatic PC from pancreatic cysts (Cy) and healthy controls (HC) through quantitative DNA methylation analysis of cell free DNA (cfDNA). Methods: A 10 gene DNA methylation marker set that identifies PC was used to evaluate the cfDNA component of the plasma of PC patients, Cy patients and HC. The ROC analysis and AUC calculations were performed using the R library pROC (Robin et al, BMC Bioinformatics 2011). Plasma samples were collected in cfDNA collection tubes from patients with benign Cy, PC, and HC. Clinical information was collected including age, gender, smoking history, CA 19-9 level, cyst size, presence of liver metastases, and survival status. After processing and cfDNA extraction, qRT-PCR methylation analysis was performed on these prospectively collected samples. The difference in median DNA MS per marker of the full 10-gene marker set between the above groups was analyzed by Wilcoxon rank sum test and ROC analysis. A Cox proportional hazard regression model was used to test the association between MS and survival. Results: A total of 66 samples were collected (PC = 10, Cy = 12, HC = 44). Clinical information was collected on all patients included in the analysis. Using liquid biopsies for cfDNA analysis and a novel set of DNA methylation biomarkers, MS was substantially stronger in PC (median, 13.2) patients than Cy (median, 3.5) patients (p = 0.0001). Importantly, while there was no clear association between MS and age, gender, smoking status, CA 19-9 levels, or presence of liver metastases, higher methylation levels were non-significantly associated with worse overall survival in PC patients (HR, 1.29; 95% CI, 0.97–1.72; p = 0.082). Conclusions: While this is a small sample size, early findings suggest that a DNA MS may reliably distinguish PC from benign Cy. The strength of signal may be a prognostic marker that could play a role in determining treatment approaches. Given its utility in predicting PC, future directions include testing this tool as a blood-based early detection mechanism as well as a predictor for recurrence or response to PC treatment.
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