Evolving treatment landscape for early and advanced pancreatic cancer.

Pancreatic ductal adenocarcinoma is an infrequent cancer with a high disease related mortality rate, even in the context of early stage disease. Until recently, the rate of death from pancreatic cancer has remained largely similar whereby gemcitabine monotherapy was the mainstay of systemic treatment for most stages of disease. With the discovery of active multi-agent chemotherapy regimens, namely FOLFIRINOX and gemcitabine plus nab-paclitaxel, the treatment landscape of pancreatic cancer is slowly evolving. FOLFIRINOX and gemcitabine plus nab-paclitaxel are now considered standard first line treatment options in metastatic pancreatic cancer. Studies are ongoing to investigate the utility of these same regimens in the adjuvant setting. The potential of these treatments to downstage disease is also being actively examined in the locally advanced context since neoadjuvant approaches may improve resection rates and surgical outcomes. As more emerging data become available, the management of pancreatic cancer is anticipated to change significantly in the coming years.

Core tip: Pancreatic ductal adenocarcinoma is an infrequent cancer with high disease mortality. The focus on management of the disease has been mainly palliation for the past decade. Recently, the discovery of active multi-agent chemotherapies such as FOLFIRINOX and gemcitabine plus nab-paclitaxel has changed the management of the disease. In our current review, we will highlight some of the advances, particularly with respect to systemic therapy options, in the management of different stages of pancreatic cancer.

INTRODUCTION

Pancreatic cancer is an uncommon cancer with 85% of cases being adenocarcinomas arising from the ductal epithelium and the remainder originating from endocrine islet cells. The estimated incidence of pancreatic cancer is 53070 cases per year in the United States[1]. The incidence has been increasing slowly, at an average of 0.6% per year over the past decade[1,2]. Mortality from pancreatic cancer is high, with a 5-year survival rate of only 8% in all patients, irrespective of stage[1,2]. Pancreatic cancer is more common in the Western world. Globally, it is the seventh leading cause of death[3]. Until 2004, mortality from pancreatic cancer has remained unchanged, indicating a significant need for novel advances in both detection and treatment of this disease.

Surgical resection is the only potentially curative treatment for pancreatic cancer. However, only about 20% of patients present at a point in time when the disease is still considered resectable. Advances in imaging techniques such as endoscopic ultrasound, magnetic resonance imaging and positron emission tomography can better help identify patients who can be managed possibly with surgery. Improvements in surgical techniques as well as a trend for centralization of care to highly specialized surgical centers have also increased the scope of what is defined as surgically resectable[4]. Unfortunately, the 5-year survival rate even among patients with an R0 resection remains poor at about 20%. In the past several years, the discovery of new active systemic therapeutic agents against pancreatic cancer has changed the outlook and paradigm of pancreatic cancer management. While the focus of treatment in the past has been mainly palliation and symptom control, new approaches may now offer survival benefits for patients with either early or advanced pancreatic cancer. In the current review article, we will highlight some of these advances, particularly with respect to systemic therapy options, in the management of pancreatic ductal adenocarcinoma.

EARLY STAGE PANCREATIC CANCER

Early stage pancreatic cancer with disease localized to the primary site is uncommon at diagnosis (Figure 1)[5]. The difficulty in early detection is due in part to the challenges associated with identifying high risk groups and a lack of effective screening strategies. Pancreatic cancer is only weakly associated with risk factors such as chronic pancreatitis[6-8], diabetes mellitus[9-11], obesity[12,13], smoking[14,15] and specific genetic syndromes[16,17].

Figure 1

Distribution of stage at time of diagnosis of pancreatic cancer.

ADJUVANT SYSTEMIC THERAPY

For patients who present sufficiently early to be candidates for surgery, several large randomised trials have demonstrated that adjuvant chemotherapy significantly improves survival outcomes after macroscopic resection of pancreatic cancer. A recent meta-analysis that included ten different studies concluded that adjuvant chemotherapy with 5-flurouracil (5-FU)/leucovorin (LV) or gemcitabine after resection of pancreatic cancer reduces mortality[18].

Fluropyrimidine-based regimens were among the first to show activity in the adjuvant setting. In 1993, the combination of 5-FU plus doxorubicin plus mitomycin C in patients with resected pancreatic or ampullary cancers were observed to improve median overall survival (OS) but not 5-year survival rates[19]. In the ESPAC-1 study, LV modulated 5-FU adjuvant treatment improved the median overall survival from 14.0 to 19.7 mo (Table 1)[20]. The 5-year survival benefit persisted in the chemotherapy group in an updated follow up analysis[20,21]. It is important to note that the benefit of chemotherapy in the ESPAC-1 trial may be underestimated since a proportion of patients also received chemoradiation, which has since been shown to pose a detrimental effect on outcomes in this particular trial. As such, a combined analysis of the ESPAC-1 and ESPAC-3 studies was conducted on patients receiving adjuvant 5-FU/LV alone compared to observation[20-23]. The results confirmed a statistically significant benefit from receiving 5-FU/LV, with a pooled HR of 0.70[20-23].

Table 1

Summary of adjuvant studies for early stage pancreatic cancer

Adjuvant systemic therapy
Study[20,22-24,26,27,29]	Treatment	Treatment group				Control group
DFS (mo)	OS (mo)	2 yr survival	5 yr survival	DFS (mo)	OS (mo)	2 yr survival	5 yr survival
5-FU based treatments
ESPAC-1 Neoptolemos et al[20], 2001	5-FU/LV vs observation	-	19.7	-	-	-	14.0	-	-
ESPAC-1 and 3 pooled analysis Neoptolemos et al[22], 2009	5-FU/LV vs observation	-	23.2	49.0%	24.0%	-	16.8	37.0%	14.0%
Gemcitabine based treatments
CONKO-001, Oettle et al[24], 2007	Gemcitabine vs observation	13.4	22.1	-	16.5%	6.9	20.5	-	5.5%
JSAP-02, Ueno et al[26], 2009	Gemcitabine vs observation	11.4	22.3	48.3%	23.9%	5.0	18.4	40.0%	10.6%
Gemcitabine compared to 5-FU
ESPAC-3, Neoptolemos et al[23], 2010	Gemcitabine vs 5-FU/LV	14.3	23.6	29.6%	-	14.1	23.0	30.7%	-
RTOG 97-04, Regine et al[27], 2008	Gemcitabine vs 5-FU/LV in patients receiving CRT	-	20.5	-	-	-	16.9	-	-
Combination treatments
ESPAC-4, Neoptolemos et al[29], 2017	Gemcitabine plus capecitabine vs Gemcitabine	13.9	28.0	53.8%	-	13.1	25.5	52.1%	-

5-FU: 5-flurouracil; LV: Leucovorin; DFS: Disease free survival; OS: Overall survival.

Gemcitabine is another agent that improves overall survival in early pancreatic cancer. In the CONKO-001 trial conducted in Germany and Austria, 6 cycles of gemcitabine given weekly compared to observation alone resulted in an improvement in disease free survival (DFS) from 6.9 to 13.4 m[24]. An updated analysis of the CONKO-001 study confirmed that the improvement persisted at 5 and 10-years (20.7% vs 10.4% and 12.2% vs 7.7% respectively)[25]. The JSAP-02 study was performed around the same time. Unlike the CONKO-001, investigators examined three cycles of adjuvant gemcitabine compared to observation in a Japanese population with resected pancreatic cancer[26]. This study revealed an improvement in DFS (11.4 mo vs 5.0 mo), thus providing further evidence for the activity of gemcitabine in this patient population[26].

The activity of 5-FU/LV has been compared directly to gemcitabine in the ESPAC-3 trial[23]. It was originally designed as a 3-arm study with a control group, which was subsequently discontinued when evidence showing the benefit of adjuvant chemotherapy became available. This study demonstrated that the median OS for patients treated with 5-FU/LV was 23.0 mo compared to 23.6 mo in patients treated with gemcitabine[23]. Patients given gemcitabine had more hematologic adverse events but treatment was generally better tolerated with significantly less grade 3 or 4 toxicities[23]. The RTOG-9704 study was designed to compare 5-FU/LV and gemcitabine given before and after receiving concurrent chemoradiotherapy with 5-FU[27]. There were no differences in OS between the two groups[27]. Grade 4 hematologic adverse effects were significantly worse in the gemcitabine arm of this study, which could be explained by the radiosensitizing effects of gemcitabine. A meta-analysis performed by Yu et al[28], which included four of the largest randomized adjuvant pancreatic studies (ESPAC-3, RTOG 9704, CONKO-001 and JSAP-02), found that gemcitabine improved overall survival over the comparator arm of either observation or 5-FU/LV, with a HR 0.88. More importantly, further sensitivity analysis in this meta-analysis indicated that the results remained unchanged even when any one of the studies were removed, thereby providing evidence that the survival improvement was not driven by the placebo arm alone[28]. In clinical practice, gemcitabine monotherapy is often preferred due to ease of administration and tolerability.

Because adjuvant chemotherapy offers benefits to some patients, there have been efforts to determine if intensification of the regimens can increase their effectiveness. The recently published ESPAC-4 study compared a combination of gemcitabine plus capecitabine over gemcitabine alone[29]. A larger number of patients included in this study had evidence of nodal disease or locally advanced disease that was deemed upfront resectable. The primary endpoint of OS was significantly improved in the combination group with a median OS of 28.0 mo compared to 25.5 mo in the monotherapy group. Interestingly, there was no difference in the relapse free survival between the two groups. Grade 3-4 adverse events of diarrhea, neutropenia and hand foot syndrome were more common in the gemcitabine plus capecitabine group. However, overall quality of life measures were similar between the two groups. Given the tolerability of gemcitabine plus capecitabine and the demonstrated benefits in survival, combination adjuvant therapy is now considered the standard in clinical settings. Clinical studies are currently underway to examine if there are additional benefits to further treatment intensification. Marsh et al[30] published preliminary findings of a pilot study where twenty-one patients with early stage pancreatic cancer were given four cycles of modified FOLFIRINOX before and after surgery and found a median OS of 33.4 mo. To this end, regimens such a gemcitabine plus nanoparticle albumin bound paclitaxel (nab-paclitaxel) and a combination of 5-FU, irinotecan and oxaliplatin (FOLFIRINOX) are actively being evaluated in the adjuvant setting.

The ESPAC-4 study also highlights some the challenges with adjuvant systemic treatment in pancreatic cancer patients. Despite most patients having a good performance status at the time of randomization, only 54% and 65% of patients were able to complete all planned cycles of treatment in the gemcitabine plus capecitabine and gemcitabine groups respectively. A neoadjuvant approach with chemotherapy delivered prior to patients undergoing a major operation may improve rates of systemic treatment completion. Some groups also believe that earlier chemotherapy is important to eradicate micrometastatic disease. The SWOG group is currently recruiting patients with resectable disease to six cycles of neoadjuvant FOLFIRINOX or nine cycles of gemcitabine plus nab-paclitaxel followed by surgical resection[31].

ADJUVANT CHEMORADIOTHERAPY

While the benefits of adjuvant chemotherapy are widely accepted and broadly used in clinical practice, the role of adjuvant chemoradiotherapy is more controversial. Prospective evidence regarding the value of chemoradiotherapy is frequently older and underpowered. The GITSG study published in 1985 was one of the first large studies to suggest a benefit of adding radiation to chemotherapy[32]. Forty-nine patients were randomized to observation alone or split course radiotherapy to a total of 40 Gy plus concurrent 5-FU. Although median OS was reported to be longer in the chemoradiotherapy group (20 mo vs 11 mo), this study was closed early due to poor accrual and was considered underpowered[32]. An updated analysis which included an additional 30 randomized patients revealed similar results[33]. The authors concluded that there was a significant survival advantage with the use of adjuvant chemoradiotherapy. As there were some smaller studies with conflicting results published at the same time, the EORTC GI cooperative group pursued another trial with a similar design as the GITSG trial across multiple centers in Europe. Patients were randomized to observation or to the same split course radiotherapy plus infusional 5-FU[34]. However, the benefit of chemoradiotherapy seen in this later study was much smaller and only borderline significant[34]. In contrast, these authors concluded that there was insufficient evidence to recommend the routine use of chemoradiation after resection of pancreatic cancer[34]. Long term follow up of these patient did not identify any differences in outcomes over time[35].

The ESPAC-1 study examined the effect of chemoradiation compared to chemotherapy alone vs observation and concluded that the chemoradiation group had a trend towards worse OS[20,21]. A meta-analysis performed by Liao et al[18] supported the observation that chemoradiation is less effective than chemotherapy alone. However, the results of this meta-analysis were likely driven by the patients in the ESPAC-1 study. Flaws in the study design of the ESPAC-1 trial, including a pooled analysis of its three different sub-studies, continue to be a major source of controversy. In clinical practice, the patterns of use of chemoradiotherapy differ significantly among clinicians and across cancer centers.

The uncertainty regarding the utility of adjuvant chemoradiotherapy is ongoing. Several contemporary retrospective studies suggest that there is a survival benefit[36-39]. Rutter et al[36] reviewed the national cancer database in the United States and identified 6165 patients from 1998 to 2009 who were treated with adjuvant chemotherapy or chemoradiotherapy. The mean radiotherapy dose received was 50.4 Gy, which was higher than the doses used in older prospective studies. They found that chemoradiotherapy was associated with an improved overall survival over chemotherapy alone with an adjusted hazard ratio of 0.89. Although retrospective analyses have their limitations, it is difficult to discount several large population-based studies that suggest a possible survival improvement with chemoradiotherapy. Changes in surgical and modern radiotherapy planning techniques may account for differences in survival over time. New prospective randomized studies that incorporate the use of modern radiation techniques and current chemotherapy regimens are still needed to determine whether adjuvant chemoradiotherapy is actually beneficial.

LOCALLY ADVANCED PANCREATIC CANCER

About 30% of patients present with non-metastatic locally advanced disease[40]. This cohort represents a heterogeneous group of patients whose management differs depending on surgical resectability. Prior to the advent of active systemic therapies, locally advanced tumors were most commonly managed akin to advanced metastatic disease. Gemcitabine, an agent that has been considered the standard of care in distant advanced disease for years, is also used for locally advanced pancreatic cancer[41]. One phase II study performed among locally advanced patients reported a median OS of 15 mo[42]. Use of multiagent chemotherapy, such as FOLFIRINOX or gemcitabine in combination with other cytotoxic agents, is increasingly common in the first line setting for locally advanced disease albeit there is little prospective evidence. A recent small phase II study along with other observational studies indicate that FOLFIRINOX has a survival benefit in locally advanced disease when compared to historical controls[43-45]. A systematic review of studies involving first line FOLFIRNOX in locally pancreatic cancer reported a median overall survival of 24.2 mo[46].

The use of more active systemic treatments has also created the potential that some tumors may be sufficiently downstaged to become resectable. The definitions of locally advanced unresectable disease or borderline resectable disease continue to be vague and highly dependent on surgical expertise and discretion. There is generally a lack of prospective randomized data in this area. Induction chemotherapy is occasionally used in clinical practice and recommended by some consensus-driven guidelines[47,48]. There are several options for systemic therapy with no single regimen being considered the standard. Use of FOLFIRINOX as neoadjuvant therapy is of particular interest given its response rate of 32% in advanced disease[49]. Multiple observational analyses on neoadjuvant FOLFIRINOX have been published with encouraging results that show FOLFIRINOX improves R0 resection rates to up to 70% in some studies[50-52]. At the current time, there are few published studies examining the use of gemcitabine doublets as neoadjuvant therapy for locally advanced disease. A number of small studies focusing on the neoadjuvant combination of gemcitabine plus oxaliplatin showed that the regimen is feasible, with reports that up to 40%-60% of patients eventually proceed onto surgery[53,54]. Gemcitabine in combination with capecitabine or docetaxel have also been described as feasible and potentially effective as neoadjuvant therapy for locally advanced disease[55,56]. There is interest in investigating the combination of gemcitabine plus nab-paclitaxel as neoadjuvant treatment given its efficacy in metastatic disease. Early results from observational cohorts suggest a favorable response rate when gemcitabine and nab-paclitaxel was used as induction treatment[57,58].

In contrast to neoadjuvant chemotherapy, the use of concurrent chemoradiotherapy has not been shown to improve survival. The LAP-07 study randomized patients with locally advanced disease to gemcitabine with or without erlotinib for four cycles followed by a second randomization to further chemotherapy or chemoradiation[59]. Unfortunately, the study was stopped early due to futility. Concurrent chemoradiotherapy did not show any survival benefits over chemotherapy alone. It is still unclear whether the addition of radiotherapy improves surgical outcomes. Thus, there is continued interest in studying whether radiotherapy after multi-agent induction chemotherapy would improve the rates of R0 resection[60-62]. Katz et al[60] investigated the combination of modified FOLFIRINOX for 4 cycles followed by concurrent chemoradiation with capecitabine in 22 patients with borderline resectable disease and reported that 60% of patients received a surgical resection with 93% of those achieving an R0 resection.

ADVANCED PANCREATIC CANCER

More than 50% of patients present with advanced stage disease and experience a dismal prognosis. Patients with locally advanced unresectable disease and distant metastatic disease are frequently treated in a similar fashion. Until recently, single agent chemotherapy was the mainstay of treatment offering only a very modest benefit in survival. Newer approaches with combination chemotherapy have finally shown an improvement in survival when compared to monotherapy.

Before the introduction of combination treatment, gemcitabine monotherapy was the cornerstone of treatment. At present, it remains the standard first line option for patients with poor performance status who are unable to tolerate combination chemotherapy. In 1997, a phase III trial was published which compared gemcitabine to 5-FU, the latter of which was the standard therapy based on studies in the 1950-1960s with highly variable results (Table 2)[41]. The primary endpoint of the trial was clinical benefit, defined as a sustained improvement in symptoms related to pancreatic cancer, which was significantly better in the gemcitabine arm. Secondary endpoints of survival were also improved with median OS of 5.7 mo in the gemcitabine group compared to 4.4 mo in the 5-FU group. Based on results of this trial, gemcitabine became the standard of care for advanced disease for the subsequent 20 years.

Table 2

Summary of first line studies for advanced pancreatic cancer

First line treatment for metastatic disease
Study[41,49,63-67,71]	Treatment	Treatment group				Control group
ORR	PFS (mo)	OS (mo)	1 yr Survival	ORR	PFS (mo)	OS (mo)	1 yr Survival
Standard of care
Burris et al[41], 1997	Gemcitabine vs 5-FU/LV	-	9 wk	5.65	18.0%	-	4 wk	4.01	2.0%
Conroy et al[49], 2011	FOLFIRINOX vs Gemcitabine	31.6%	6.4	11.1	48.4%	9.4%	3.3	6.8	20.6%
Von Hoff et al[71], 2013	Nab-paclitaxel plus gemcitabine vs gemcitabine	23.0%	5.5	8.5	35.0%	7.0%	3.7	6.7	22.0%
Gemcitabine doublets
Berlin et al[63], 2002	Gemcitabine plus 5-FU vs gemcitabine	6.9%	3.4	6.7	-	5.6%	2.2	5.4	-
Herrmann et al[64], 2007	Gemcitabine plus capecitabine vs gemcitabine	10.0%	4.3	8.4	32.0%	7.8%	3.9	7.2	30.0%
Moore et al[66], 2007	Gemcitabine plus erlotinib vs gemcitabine	8.6%	3.8	6.2	23.0%	8.0%	3.6	5.9	17.0%
Philip et al[67], 2010	Gemcitabine plus cetuximab vs gemcitabine	12.0%	3.4	6.3	-	14.0%	3.0	5.9	-
Ueno et al[65], 2013	Gemcitabine plus S1 vs gemcitabine	29.3%	5.7	10.1	40.7%	13.3%	4.1	8.8	35.4%

5-FU: 5-flurouracil; LV: Leucovorin; DFS: Disease free survival; OS: Overall survival; ORR: Overall response rate.

There were multiple attempts to combine gemcitabine with other agents to improve survival. Studies involving gemcitabine plus 5-FU, capecitabine, and S1 uniformly failed to demonstrate benefit over gemcitabine alone[63-65]. Results of gemcitabine in combination with newer agents targeting the EGFR or VEGF pathway were also disappointing. A phase III study combining gemcitabine plus erlotinib did show a modest improvement in survival by 2 wk[66]. However, this regimen has not been widely accepted into clinical practice because the magnitude of benefit was marginal. Furthermore, a study using a combination of gemcitabine and cetuximab, a monoclonal antibody against EGFR, failed to demonstrate any benefit over gemcitabine alone[67]. Likewise, gemcitabine plus bevacizumab in a phase III study also failed to show a survival benefit over gemcitabine alone[68].

Because treatment results from initial gemcitabine doublets were generally disappointing, investigations into other active agents were made. Agents such as 5-FU, irinotecan and oxaliplatin have shown activity in pancreatic cancer and a combination of these three were shown to be safe in phase I studies[69]. As such, a phase II/III trial was conducted to study the effects of FOLFIRINOX compared to standard gemcitabine monotherapy[49]. Surprisingly, the results demonstrated a significant overall survival advantage of 11.0 mo compared to 6.8 mo in the gemcitabine group. Quality of life measured at 6 mo was also significantly better in the FOLFIRINOX group, likely secondary to better disease control. However, toxicity is greater in the FOLFIRNOX group and patients included in the study were required to have a baseline ECOG performance of 0-1. FOLFIRINOX is now considered a first line option in patients with unresectable or advanced pancreatic cancer with a good performance status.

In contrast to other gemcitabine doublets, a recent study demonstrated a clinically significant antitumor effect when gemcitabine was combined with nab-paclitaxel. Molecular profiling of pancreatic cancer show that the tumor often overexpresses an albumin-binding protein suggesting that this formulation may increase the intratumoral concentrations of gemcitabine[70]. The phase III data published in 2013 described that the combination of nab-paclitaxel plus gemcitabine was superior to gemcitabine alone with a median OS of 8.5 mo vs 6.7 mo[71]. The superiority in survival persisted with long term follow up at 3 years[72]. The combination of gemcitabine plus nab-paclitaxel has also been recently approved for first line treatment of advanced pancreatic cancer.

There are currently no studies that directly compare the activity of FOLFIRINOX to gemcitabine plus nab-paclitaxel and both are approved for use in the first line setting. In clinical practice, the choice of regimen is often dependent on the toxicity profiles. FOLFIRINOX has more toxicities and is usually reserved for patients with good performance status. Gemcitabine plus nab-paclitaxel has been studied in patients with a KPS ≥ 70, which approximates ECOG 2. Population based studies revealed that few real world patients actually meet the eligibility criteria used in the clinical trials with only about 25% of patients able to receive FOLFIRINOX and 45% able to receive gemcitabine plus nab-paclitaxel[73,74]. In patients with borderline performance who may not be able to tolerate combination cytotoxic therapy, gemcitabine monotherapy remains an option. Unfortunately, there are limited data from large prospective randomized data investigating second line therapies upon progression. With the use of more active first line treatments, patients are now faring better to the degree that warrants consideration of second line therapy. Nonetheless, second line treatment represents an area of clinical unmet need. Systemic therapy is still often used for patients with good performance status who wishes to receive treatment. Agents that are considered active in pancreatic cancer such as 5-FU, oxaliplatin, irinotecan and gemcitabine are reasonable to be used in the second line setting with no single regimen that can be currently considered as the standard of care. Retrospective studies suggest that use of second line therapies is feasible with a potential survival benefit[75]. Patients enrolled into the MPACT study were followed prospectively and results were published on the outcomes of second line therapy[76]. The authors reported a significant benefit to receiving any second line therapy with an adjusted hazard ratio of 0.47[76]. However, the total number of patients was small and results may be confounded. The combination of 5-FU/LV and oxaliplatin has been studied in two phase III trials with conflicting results. The German CONKO study group conducted a trial comparing FF (weekly infusional 5-FU and folinic acid) to OFF (oxaliplatin 85 mg/m2 on days 8 and 22 plus FF followed by a 2 wk break) in patients who progressed after first line gemcitabine monotherapy[77,78]. A significant benefit was seen in the OFF group with a median OS of 5.9 mo compared to 3.3 mo[77,78]. The PANCREOX study performed by the Canadian group compared second line biweekly bolus plus infusional 5-FU/LV to mFOLFOX6 (biweekly bolus plus infusional 5-FU/LV plus oxaliplatin 85 mg/m2). Contrary to the findings in the German study, patients receiving mFOLFOX6 suffered an inferior survival with more toxicity compared to 5-FU/LV alone (6.1 mo vs 9.9 mo)[79]. Conflicting results of the two studies may be explained by differences in the inclusion criteria and treatment regimens. The NAPOLI-1 study is a phase III trial investigating the use of nanoliposomal irinotecan with or without 5-FU/LV compared to 5-FU/LV alone in heavily pretreated patients[80]. The study demonstrated a median OS of 6.1 mo in patients who received nanoliposomal irinotecan plus 5-FU/LV compared to 4.2 mo in patients receiving 5-FU/LV alone. This combination may become the standard second line treatment in the future.

FUTURE DIRECTIONS

The outcomes of pancreatic cancer remain poor despite recent advances. Therefore, research into novel and different ways of targeting this tumor is still ongoing.

One of the reasons why pancreatic cancer is so difficult to treat with conventional cytotoxic therapy is thought to be related to the desmoplastic response in tumor stroma, which promotes tumor growth and compromises chemotherapy delivery[81-83]. The JAK/STAT signalling transduction pathway mediates the tumor and host inflammatory response. Ruxolitinib, a JAK inhibitor, in combination with capecitabine has demonstrated efficacy in patients who progressed after gemcitabine in a phase II study[84]. The intense stromal reaction is also often associated with tissue hypoxia. Evofosfamide, a prodrug activated under hypoxic conditions could increase drug delivery to the tumor. Unfortunately, the phase III results did not show a survival benefit[85]. Pancreatic cancer stroma has also been shown to accumulate hyaluronan and a novel approach using a recombinant human hyaluronidase together with gemcitabine and nab-paclitaxel has shown promising preliminary results, specifically improving response rates and progression free survival in the phase II setting[86]. Ibrutinib, an agent commonly used in the treatment of chronic lymphocytic leukemia is thought to inhibit mast cell degranulation in the stroma and subsequent angiogenesis and collagen deposition. This agent is also being investigated[87].

Molecular profiling may further help us gain a better understanding of the molecular pathways in pancreatic cancer[88,89]. While mutations in KRAS, TP53 and CDKN2A are common in pancreatic cancer, they have proven to be challenging to target. However, there is mounting evidence of genomic alterations in TGF-β signaling and studies investigating the utility of TGF-β inhibitors are actively underway[90].

The identification of specific subtypes of pancreatic cancers or special patient populations based on molecular profiles is a significant area of interest. For example, the presence of microsatellite instability may predict response to immunotherapy even though it has not been shown to be a very active type of treatment in an unselected population of pancreatic cancer. A special group of patients are those with mutations in BRCA-1/2. Emerging data from other cancer sites associated with BRCA mutations such as breast and ovarian cancer suggest hypersensitivity to platinum agents[91-95]. Oxaliplatin has already demonstrated activity in pancreatic cancer[49], but it is unknown if BRCA mutated patients will demonstrate a superior response compared to an unselected population. PARP inhibitors have been shown to improve treatments outcomes in BRCA mutated ovarian cancer. A germline mutation in BRCA-2 is known to be correlated with the development of pancreatic cancer, but the prevalence is unknown. It has been reported that up to 5%-9% of pancreatic cancer patients harbor the mutation[96,97]. Studies of PARP inhibitors in BRCA mutated pancreatic cancer patients are in development with some early data indicating promising efficacy[97,98].

CONCLUSION

Pancreatic cancer is a systemic disease since even the majority of patients with early disease eventually develop metastases. While gemcitabine poses some anti-tumor activity and improves survival in the adjuvant setting, the focus of management for most patients with pancreatic cancer has, to date, been palliative. The discovery of active multi-agent chemotherapy regimens such as FOLFIRINOX and gemcitabine plus nab-paclitaxel has changed the recent landscape in the management of this disease in many aspects. In early stage disease, multi-agent chemotherapies are being investigated for their potential benefit in overall survival. The PRODIGE and APACT studies are ongoing and hopefully will provide us with new data in the next several years. The potential for multi-agent chemotherapy to downstage locally advanced disease to improve resection rates is a significant area of interest. In fit patients with metastatic disease who can tolerate combination treatment, FOLFIRINOX as well as gemcitabine plus nab-paclitaxel are considered standards of care. Advances in molecular profiling and gene sequencing will likely help us better understand the biology of pancreatic cancer. Novel targets for drug development as well as new methods of drug delivery are areas of active clinical research. Finally, identification of specific subgroups of patients such as BRCA mutation carriers may also allow clinicians to better individualize care for future patients.