Phase II Study of Panitumumab in RAS Wild-Type Metastatic Adenocarcinoma of Small Bowel or Ampulla of Vater.

LESSONS LEARNED: Panitumumab has no clinical activity in metastatic RAS wild-type small bowel adenocarcinoma (SBA) and ampullary adenocarcinoma (AAC), possibly due to the foregut and midgut derivation of small bowel and ampulla.These results, along with findings from genomic characterization of SBA, suggest that SBA represents a unique intestinal malignancy and treatments should not be habitually extrapolated from colorectal cancer.Further studies evaluating the benefit of targeted therapies exclusively in SBA and AAC are warranted.
BACKGROUND: Given the benefit of epidermal growth factor receptor (EGFR) monoclonal antibodies in colorectal cancer (CRC), we sought to evaluate the efficacy of panitumumab in metastatic RAS wild-type small bowel adenocarcinoma (SBA) and ampullary adenocarcinoma (AAC).
METHODS: We conducted a single-center, open-label, single-arm, Bayesian phase II trial. The primary objective was response rate (RR). Panitumumab was administered at a dose of 6 mg/kg intravenously (IV) every 14 days.
RESULTS: Nine patients (male/female 7:2, median age: 61 years [range: 40-74], Eastern Cooperative Oncology Group [ECOG] performance status 0/1: 2/7) were enrolled from September 2013 to October 2015. One patient had AAC (pancreaticobiliary subtype) and eight patients had SBA (three duodenal, five jejunal/ileal). Acneiform rash was the most common toxicity. The study was stopped early due to futility with no responses, stable disease (SD) in two patients, and progression of disease (PD) in seven patients. Median progression-free survival (PFS) and overall survival (OS) were 2.4 and 5.7 months, respectively. No patients had extended RAS mutations (exons 2/3/4), but two patients had BRAF G469A and one patient had PIK3CA H1074R mutations.
CONCLUSION: Panitumumab had no clinically meaningful activity in patients with metastatic RAS wild-type SBA and AAC. Our findings may relate to the primarily midgut and foregut derivation of the small bowel and ampulla. Published 2017. This article is a U.S. Government work and is in the public domain in the USA.

Discussion

Panitumumab is a U.S. Food and Drug Administration‐approved anti‐EGFR monoclonal antibody with a demonstrated RR of 31% and improvement in mean PFS from 1.7 to 5.2 months when compared with best supportive care in RAS wild‐type refractory metastatic CRC. Given their rarity and proximity to the large bowel, SBA and AAC are often treated in a similar manner to CRC with treatment data extrapolated from studies in CRC.

We performed a single‐arm trial evaluating efficacy of panitumumab monotherapy in refractory metastatic RAS wild‐type SBA and AAC. The primary endpoint of this study was RR. A sample size of 17 was required to demonstrate an RR of 17% using a binomial one‐sample test with two‐sided alpha of 0.05 and power of 90%. Between September 2013 and October 2015, nine patients were enrolled. Per continuous Bayesian monitoring criteria, the study was stopped early when the probability of determining a 17% RR was <5%.

Median age of the study population was 61 (range 40–74) years. One patient had AAC (pancreaticobiliary subtype) and eight patients had SBA (duodenal in three, jejunal/ileal in five). Of nine patients, poorly differentiated histology was present in five (55.6%) and mucinous histology was present in three (33.3%). Inflammatory bowel disease was present in one (11.1%) patient, and two (22.2%) patients had a known history of Lynch syndrome.

In nine patients, panitumumab demonstrated no responses, two SD, and seven PD (Fig. 1). Median PFS was 2.4 months and median OS was 5.7 months at median follow‐up time of 16.6 months. Treatment was otherwise well tolerated, with expected common toxicities of acneiform rash (100%), anemia (33%), fatigue (22%), hypomagnesemia (22%), and skin infection (22%).

Figure 1.

Waterfall plot with best tumor response as per Response Evaluation Criteria in Solid Tumors v1.1.

We evaluated several key mutational hotspots (BRAF, PIK3CA and ERBB2 genes) associated with resistance to EGFR blockade in RAS wild‐type metastatic CRC and identified two patients with BRAF G469A mutation, and one patient with PIK3CA H1047R mutation. Given recent findings suggesting that right‐sided colon cancers (midgut derivation) benefit less from anti‐EGFR therapy compared with left‐sided colon cancers (hindgut derivation), we propose that our findings may relate to the primarily midgut (distal duodenum to ileum) and foregut (proximal duodenum) derivation of the small bowel and ampulla.

To our knowledge, this is the first prospective clinical trial evaluating anti‐EGFR therapy in SBA and AAC. Taken together with recent findings from the first large‐scale genomic comparison of SBA with colorectal and gastric cancers, we propose that SBA is a molecularly unique intestinal malignancy and treatment paradigms should not be extrapolated from CRC to SBA and AAC without dedicated investigations. Further studies evaluating the benefit of targeted therapies in SBA and AAC are warranted.

Trial Information

Small bowel and ampullary cancer

Metastatic/advanced

1 prior regimen

Phase II

Single arm

Overall response rate

Progression‐free survival

Overall survival

Toxicity

Inactive because results did not meet primary endpoint

Drug Information for Phase II Treatment

Panitumumab

Vectibix

Amgen

Antibody

EGFR

6 milligrams (mg) per kilogram (kg)

IV

6 mg/kg intravenously every 14 days

Patient Characteristics for Phase II Treatment

7

2

IV

Median (range): 61 (40–74)

Median (range): 1

0 — 2

1 — 7

2 — 0

3 — 0

Unknown — 0

Primary Assessment Method for Phase II Treatment

Total patient population

9

9

9

9

RECIST 1.1

n = 0 (0%)

n = 0 (0%)

n = 2 (22.2%)

n = 7 (77.8%)

n = 0 (0%)

16.6 months

16.6 months

Phase II Treatment Adverse Events

Assessment, Analysis, and Discussion

Study completed

Inactive because results did not meet primary endpoint

Small bowel adenocarcinoma (SBA) and ampullary adenocarcinoma (AAC) are rare tumors with an estimated incidence of 10,190 in the U.S. in 2017, of which approximately 40% will be adenocarcinomas [6]. The vast majority of patients present with metastatic disease secondary to frequent delays in diagnosis [6]. Although there are no randomized clinical trials comparing the efficacy of various chemotherapy regimens in patients with advanced SBA, there have been five prospective studies, four of which used fluoropyrimidine and oxaliplatin as the backbone chemotherapy [7], [8], [9], [10], [11]. We recently published the first prospective clinical trial evaluating the use of targeted therapies in SBA and AAC, in which we found that capecitabine and oxaliplatin (CAPOX) with bevacizumab is a safe and effective regimen [11].

Epidermal growth factor receptor (EGFR) plays a key role in tumor‐associated proliferation, angiogenesis, invasion/metastasis, antiapoptosis, and chemotherapy resistance [12]. EGFR is expressed in approximately 67% cases of AAC [13] and 72% cases of SBA [14]. Panitumumab is a U.S. Food and Drug Administration‐approved anti‐EGFR monoclonal antibody that demonstrated response rate (RR) of 31% and improvement in mean progression‐free survival (PFS) from 1.7 to 5.2 months when compared with best supportive care in RAS wild‐type refractory metastatic colorectal cancer (CRC) patients [2], [3]. Given their rarity and proximity to the large bowel, SBA and AAC are treated in a similar manner to CRC [15]. Although several case reports have suggested benefit from anti‐EGFR therapies in SBA [16], [17], [18], the role of anti‐EGFR targeted agents has never been prospectively studied in the treatment of SBA and AAC.

This clinical trial was originally designed to evaluate the addition of panitumumab to CAPOX in patients with SBA and AAC. We initially enrolled three patients (two with SBA, one with AAC [pancreaticobiliary subtype]) to receive CAPOX (dosing as described previously [7]) along with panitumumab (9 mg/kg intravenously [IV] on day 1 of each 21‐day cycle). Two of three patients had partial response at the time of the first restaging scan, whereas one of three patients had progression of disease. However, all three patients developed grade 3 toxicities, which led to dose reduction and/or discontinuation of treatment on protocol. More specifically, the first patient had grade 3 nausea and grade 3 vomiting requiring dose reduction of oxaliplatin, the second patient had grade 2 nausea and grade 3 diarrhea requiring dose reduction of both oxaliplatin and capecitabine, and the third patient had grade 3 mucositis, grade 2 hand‐foot syndrome, and grade 3 paronychia requiring dose reduction of capecitabine and discontinuation of panitumumab. Based on the aforementioned toxicities and the subsequent publications of the COIN and REAL3 trials, which suggested an antagonistic interaction between oxaliplatin, capecitabine, and anti‐EGFR antibodies [19], [20], we modified the protocol to maximize patient safety and instead performed a single‐arm trial evaluating efficacy of panitumumab monotherapy dosed at 6 mg/kg IV on day 1 of each 14‐day cycle in refractory metastatic RAS wild‐type SBA and AAC.

Between September 2013 and October 2015, nine patients with advanced SBA or AAC were enrolled. The baseline characteristics of the study population are listed in Table 1. The median age of the study population was 61 (range 40–74) years. Of nine patients, one (11.1%) had AAC (pancreaticobiliary subtype) and eight (88.9%) had SBA (duodenal in three, jejunal/ileal in five). Poorly differentiated histology was present in five (55.6%) patients and mucinous histology was present in three (33.3%) patients. Inflammatory bowel disease was present in one (11.1%) patient, and two (22.2%) patients had a known history of Lynch syndrome.

Table 1.

Baseline patient characteristics (n = 9)

Outcomes related to the efficacy of this regimen are listed in Table 2. The primary endpoint for this study was RR. We found that panitumumab has limited clinical activity in this population with no responses noted; two patients had stable disease, whereas the remaining seven patients had progression of disease. Figure 1 depicts a waterfall plot of best tumor response per Response Evaluation Criteria In Solid Tumors criteria. Secondary endpoints included PFS, overall survival (OS), and toxicity. At a median follow‐up time of 16.6 months, median PFS was 2.4 months (95% confidence interval [CI]: 1.5 months – not applicable [N/A]) and median OS was 5.7 months (95% CI: 2.7 months – N/A; Fig. 2; Table 2). The most common treatment‐related grade 1–4 adverse events are listed in Table 3. Treatment was well tolerated, with the most common toxicity being grade 1 acneiform rash (100% of patients). The most common grade 2/3 toxicities were anemia (33%), fatigue (22%), hypomagnesemia (22%), and skin infection (22%). There were no treatment‐related deaths.

Table 2.

Efficacy analysis (n = 9)

Abbreviations: CI, confidence interval; N/A, not applicable.

Figure 2.

Kaplan‐Meier estimates of overall survival (A) and progression‐free survival (B) for panitumumab in metastatic RAS wild‐type small bowel adenocarcinoma and ampullary adenocarcinoma.

Abbreviations: CI, confidence interval; N/A, not applicable; OS, overall survival; PFS, progression‐free survival.

Table 3.

Number of patients who experienced toxicities (n = 9)

Abbreviations: ALT, alanine transaminase; AST, aspartate transaminase.

We evaluated several key mutational hotspots associated with resistance to EGFR blockade in metastatic CRC [21]. Extended RAS mutational testing identified no patients with mutations in KRAS or NRAS. Further genomic analysis of genes relevant to anti‐EGFR activity (BRAF, PIK3CA and ERBB2) identified two of nine patients with BRAF G469A mutation, one of nine patients with PIK3CA H1047R mutation, and no patients with ERRB2 mutations. We recently reported the largest genomic profiling of SBA along with comparison to neighboring intestinal tumors, which demonstrated that SBA represents a unique genomic entity with distinct alterations compared with CRC [22]. In that study, we reported mutation rates of 9.1% (29/317), 16.1% (51/317), and 9.5% (30/317) for BRAF, PIK3CA and ERRB2 in SBA, respectively [22]. Given the large number of targetable genomic alterations (91% of patients) noted in SBA, further studies evaluating the benefit of targeted therapies in SBA and AAC are warranted [22].

In conclusion, panitumumab is a well‐tolerated treatment with limited clinical activity in SBA and AAC. Toxicities were limited and there were no treatment‐related deaths. To our knowledge, this is the first prospective clinical trial evaluating the use of EGFR‐targeted antibodies in SBA and AAC. Given recent findings suggesting that right‐sided colon cancers (midgut derivation) benefit less from anti‐EGFR therapy compared with left‐sided colon cancers (hindgut derivation) [23], we propose that our findings may relate to the primarily midgut (distal duodenum to ileum) and foregut (proximal duodenum) derivation of the small bowel and ampulla.

See http://www.TheOncologist.com for supplemental material available online.

Number of patients who experienced toxicities (n = 9).

Abbreviation: NC/NA, no change from baseline/no adverse event.