Prognosis of Upfront Surgery for Pancreatic Cancer: A Systematic Review and Meta-Analysis of Prospective Studies

Clinical value of endoscopic ultrasound sound speed in differential diagnosis of pancreatic solid lesion and prognosis of pancreatic cancer

BACKGROUND

Differential diagnosis of pancreatic solid lesion (PSL) and prognosis of pancreatic cancer (PC) is a clinical challenge. We aimed to explore the differential diagnostic value of sound speed (SS) obtained from endoscopic ultrasonography (EUS) in PSL and the prognostic value of SS in PC.

METHODS

Patients with PSL in The Third Xiangya Hospital of Central South University from March 2019 to October 2019 were prospectively enrolled, who obtained SS from PSL. Patients were divided into the PC group and the pancreatic benign lesion (PBL) group. SS1 is the SS of lesions and SS2 is the SS of normal tissues adjacent to lesions. Ratio1 is equal to SS1 divided by SS2 of PSL (ratio1 = SS1/SS2).

RESULTS

Eighty patients were enrolled (24 PBL patients, 56 PC patients). SS1 and ratio1 in PC group were higher compared with PBL group (SS1:1568.00 vs. 1550.00, Z = -2.066, p = 0.039; ratio1: 1.0110 vs. 1.0051, Z = -3.391, p = 0.001). The SS1 in PC (Z = -6.503, p < 0.001) was higher compared to SS2. In the nonsurgical group of PC, low ratio1 predicted high overall survival (OS) (7.000 months vs. 4.000 months; p = 0.039). In the surgical group of PC, low SS1 was associated with low median OS (4.000 months vs. 12.000 months; p = 0.033).

CONCLUSIONS

SS plays a vital role in distinguishing between PBL and PC. Higher SS1 and ratio1 obtained by EUS are more related to PC than PBL. In PC patients, high SS1 may predict pancreatic lesions. In the nonsurgical group of PC, low ratio1 may predict high OS. However, in the surgical group of PC, low SS1 may predict low OS.

Racial Disparity in Pathologic Response following Neoadjuvant Chemotherapy in Resected Pancreatic Cancer: A Multi-Institutional Analysis from the Central Pancreatic Consortium

BACKGROUND

Major pathologic response (MPR) following neoadjuvant therapy (NAT) in pancreatic ductal adenocarcinoma (PDAC) patients undergoing resection is associated with improved survival. We sought to determine whether racial disparities exist in MPR rates following NAT in patients with PDAC undergoing resection.

METHODS

Patients with potentially operable PDAC receiving at least 2 cycles of neoadjuvant FOLFIRINOX or gemcitabine/nab-paclitaxel ± radiation followed by pancreatectomy (2010-2019) at 7 high-volume centers were reviewed. Self-reported race was dichotomized as Black and non-Black, and multivariable models evaluated the association between race and MPR (i.e., pathologic complete response [pCR] or near-pCR). Cox regression evaluated the association between race and disease-free (DFS) and overall survival (OS).

RESULTS

Results of 486 patients who underwent resection following NAT (mFOLFIRINOX 56%, gemcitabine/nab-paclitaxel 25%, radiation 29%), 67 (13.8%) patients were Black. Black patients had lower CA19-9 at diagnosis (median 67 vs. 204 U/mL; P = 0.003) and were more likely to undergo mild/moderate chemotherapy dose modification (40 vs. 20%; P = 0.005) versus non-Black patients. Black patients had significantly lower rates of MPR compared with non-Black patients (13.4 vs. 25.8%; P = 0.039). Black race was independently associated with worse MPR (OR 0.26, 95% confidence interval [CI] 0.10-0.69) while controlling for NAT duration, CA19-9 dynamics, and chemotherapy modifications. There was no significant difference in DFS or OS between Black and non-Black cohorts.

CONCLUSIONS

Black patients undergoing pancreatectomy appear less likely to experience MPR following NAT. The contribution of biologic and nonbiologic factors to reduced chemosensitivity in Black patients warrants further investigation.

Emerging Role for 7T MRI and Metabolic Imaging for Pancreatic and Liver Cancer

Advances in magnet technologies have led to next generation 7T magnetic resonance scanners which can fit in the footprint and price point of conventional hospital scanners (1.5−3T). It is therefore worth asking if there is a role for 7T magnetic resonance imaging and spectroscopy for the treatment of solid tumor cancers. Herein, we survey the medical literature to evaluate the unmet clinical needs for patients with pancreatic and hepatic cancer, and the potential of ultra-high field proton imaging and phosphorus spectroscopy to fulfil those needs. We draw on clinical literature, preclinical data, nuclear magnetic resonance spectroscopic data of human derived samples, and the efforts to date with 7T imaging and phosphorus spectroscopy. At 7T, the imaging capabilities approach histological resolution. The spectral and spatial resolution enhancements at high field for phospholipid spectroscopy have the potential to reduce the number of exploratory surgeries due to tumor boundaries undefined at conventional field strengths. Phosphorus metabolic imaging at 7T magnetic field strength, is already a mainstay in preclinical models for molecular phenotyping, energetic status evaluation, dosimetry, and assessing treatment response for both pancreatic and liver cancers. Metabolic imaging of primary tumors and lymph nodes may provide powerful metrics to aid staging and treatment response. As tumor tissues contain extreme levels of phospholipid metabolites compared to the background signal, even spectroscopic volumes containing less than 50% tumor can be detected and/or monitored. Phosphorus spectroscopy allows non-invasive pH measurements, indicating hypoxia, as a predictor of patients likely to recur. We conclude that 7T multiparametric approaches that include metabolic imaging with phosphorus spectroscopy have the potential to meet the unmet needs of non-invasive location-specific treatment monitoring, lymph node staging, and the reduction in unnecessary surgeries for patients undergoing resections for pancreatic cancer. There is also potential for the use of 7T phosphorous spectra for the phenotyping of tumor subtypes and even early diagnosis (<2 mL). Whether or not 7T can be used for all patients within the next decade, the technology is likely to speed up the translation of new therapeutics.