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The Role of the Tumor Microenvironment of Pancreatic Cancer to Predict Treatment Outcome

Not Applicable
Completed
Conditions
Pancreatic Cancer
Interventions
Radiation: Radiotherapy
Procedure: Pancreaticoduodenectomy
Registration Number
NCT01989000
Lead Sponsor
Academisch Medisch Centrum - Universiteit van Amsterdam (AMC-UvA)
Brief Summary

Pancreatic cancer is a highly lethal disease. Patients with resectable or borderline resectable disease may benefit from preoperative radiochemotherapy. However, only a subset of patients will respond to this potentially toxic and expensive treatment. Therefore, novel predictive markers are needed to determine treatment efficacy at an early stage. Preferably, these markers could be determined non-invasively and provide insight into the biology of pancreatic cancer. Pancreatic cancers are heterogeneous tumors. The tumor microenvironment is often characterized by large amounts of stroma, hypovascularization, and hypoxia. As these three factors can all contribute to treatment resistance, a quantitative assessment of these markers may aid in the prediction of response to preoperative radiochemotherapy. Moreover, these assessments may have prognostic value. Finally, further insight into the interrelation of these aspects of the tumor microenvironment can contribute to the evaluation of new targeted treatment options. Tumor cellularity and extracellular matrix composition can be assessed non-invasively in vivo by diffusion weighted magnetic resonance imaging (DWI) and tumor vascularity can be assessed by dynamic contrast enhanced magnetic resonance imaging (DCE-MRI). Finally, tumor hypoxia can be evaluated by T2\* MRI and PET-CT, using the 18F-labeled hypoxic marker HX4.

Objective of the study:

The primary aim of the study is to assess whether DWI, DCE-MRI, T2\*, and 18F-HX4-PET/CT predict overall survival in patients with pancreatic cancer treated with surgery and adjuvant chemotherapy or with neoadjuvant radiochemotherapy, surgery and adjuvant chemotherapy. Secondary aims of the study include the assessment of the predictive value of DWI, DCE-MRI, T2\*, and 18F-HX4-PET/CT for pathological response to neoadjuvant chemoradiation, the correlation of DWI, DCE-MRI, T2\*, and 18F-HX4-PET/CT with histopathological assessment of tumor stroma, vascularization, and hypoxia, and the assessment of the predictive value of these histopathological markers for overall survival.

Detailed Description

Background of the study:

Pancreatic cancer is a highly lethal disease. Patients with resectable or borderline resectable disease may benefit from preoperative radiochemotherapy. However, only a subset of patients will respond to this potentially toxic and expensive treatment. Therefore, novel predictive markers are needed to determine treatment efficacy at an early stage. Preferably, these markers could be determined non-invasively and provide insight into the biology of pancreatic cancer. Pancreatic cancers are heterogeneous tumors. The tumor microenvironment is often characterized by large amounts of stroma, hypovascularization, and hypoxia. As these three factors can all contribute to treatment resistance, a quantitative assessment of these markers may aid in the prediction of response to preoperative radiochemotherapy. Moreover, these assessments may have prognostic value. Finally, further insight into the interrelation of these aspects of the tumor microenvironment can contribute to the evaluation of new targeted treatment options. Tumor cellularity and extracellular matrix composition can be assessed non-invasively in vivo by diffusion weighted magnetic resonance imaging (DWI) and tumor vascularity can be assessed by dynamic contrast enhanced magnetic resonance imaging (DCE-MRI). Finally, tumor hypoxia can be evaluated by T2\* MRI and PET-CT, using the 18F-labeled hypoxic marker HX4.

Objective of the study:

The primary aim of the study is to assess whether DWI, DCE-MRI, T2\*, and 18F-HX4-PET/CT predict overall survival in patients with pancreatic cancer treated with surgery and adjuvant chemotherapy or with neoadjuvant radiochemotherapy, surgery and adjuvant chemotherapy. Secondary aims of the study include the assessment of the predictive value of DWI, DCE-MRI, T2\*, and 18F-HX4-PET/CT for pathological response to neoadjuvant chemoradiation, the correlation of DWI, DCE-MRI, T2\*, and 18F-HX4-PET/CT with histopathological assessment of tumor stroma, vascularization, and hypoxia, and the assessment of the predictive value of these histopathological markers for overall survival.

Study design:

The target population will be recruited from the the Academic Medical Centre (AMC) and Erasmus MC. First, to assess reproducibility, patients with pancreatic cancer will undergo MRI twice, once in the AMC and once in the EMC. Next, 40 consecutive patients that will undergo surgery+adjuvant treatment will have MRI and 18F-HX4-PET/CT measurements once to assess the value of the techniques to predict outcome of standard treatment. 40 patients who will undergo preoperative radiochemotherapy will have MRI and 18F-HX4-PET/CT at baseline, and 1 week before surgery. We will assess the relative contribution of each imaging method as well as the integrated use of these methods as predictive markers for survival and pathological response to treatment. Tumor tissue from resected patients will be analyzed for markers of tumor vascularization (CD31, VEGF), hypoxia (HIF1alfa, GLUT1, CA9), and stromal activation (smooth muscle actin, markers for Hedgehog pathway activity). Results will be correlated with imaging parameters, as well as patient outcome.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
47
Inclusion Criteria
  • Patients with pancreatic tumors, with histological or cytological proof of adenocarcinoma or a high suspicion on CT imaging.
  • Tumor size ≥ 1cm.
  • WHO-performance score 0-2.
  • Scheduled for surgery or neo-adjuvant chemotherapy/radiation followed by surgery. For the reproducibility part of the study, patients who will not undergo surgery, may be included, too.
  • Written informed consent.
Exclusion Criteria
  • Any psychological, familial, sociological or geographical condition potentially hampering adequate informed consent or compliance with the study protocol.
  • Contra-indications for MR scanning, including patients with a pacemaker, cochlear implant or neurostimulator; patients with non-MR compatible metallic implants in their eye, spine, thorax or abdomen; or a non-MR compatible aneurysm clip in their brain; patients with severe claustrophobia.
  • Renal failure (GFR < 30 ml/min) hampering safe administration of Gadolinium containing MR contrast agent.
  • For the reproducibility part of the protocol: surgery, radiation and/or chemotherapy foreseen within the timeframe needed for MR scanning.

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
Neoadjuvant radiochemotherapyPancreaticoduodenectomyPatients elected for neoadjuvant radiochemotherapy undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before start of the chemoradiation and again after radiochemotherapy (Gemcitabine/Radiotherapy), within two weeks before surgery (Pancreaticoduodenectomy).
Primary SurgeryPancreaticoduodenectomyPatients elected for primary surgery undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before surgery (Pancreaticoduodenectomy).
Neoadjuvant radiochemotherapyRadiotherapyPatients elected for neoadjuvant radiochemotherapy undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before start of the chemoradiation and again after radiochemotherapy (Gemcitabine/Radiotherapy), within two weeks before surgery (Pancreaticoduodenectomy).
Primary Surgery[F-18]HX4Patients elected for primary surgery undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before surgery (Pancreaticoduodenectomy).
Neoadjuvant radiochemotherapy[F-18]HX4Patients elected for neoadjuvant radiochemotherapy undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before start of the chemoradiation and again after radiochemotherapy (Gemcitabine/Radiotherapy), within two weeks before surgery (Pancreaticoduodenectomy).
Primary SurgeryGadobutrolPatients elected for primary surgery undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before surgery (Pancreaticoduodenectomy).
Neoadjuvant radiochemotherapyGadobutrolPatients elected for neoadjuvant radiochemotherapy undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before start of the chemoradiation and again after radiochemotherapy (Gemcitabine/Radiotherapy), within two weeks before surgery (Pancreaticoduodenectomy).
Neoadjuvant radiochemotherapyGemcitabinePatients elected for neoadjuvant radiochemotherapy undergo DWI-MRI, DCE-MRI (Gadobutrol),T2\*-MRI and \[F-18\]HX4 PET/CT imaging within two weeks before start of the chemoradiation and again after radiochemotherapy (Gemcitabine/Radiotherapy), within two weeks before surgery (Pancreaticoduodenectomy).
Primary Outcome Measures
NameTimeMethod
Predictive value of pretreatment DWI, DCE-MRI, T2*, and 18F-HX4-PET/CT on overall survival in patients with pancreatic cancer treated with surgery and adjuvant chemotherapy or with neoadjuvant radiochemotherapy, surgery and adjuvant chemotherapy.Within two weeks before start radiochemotherapy or within two weeks before surgery

DWI: mean ADC of the whole tumor. DCE: mean Ktrans of the whole tumor. T2\*: average value of the whole tumor. 18F-HX4-PET/CT: SUVmean of the whole tumor.

Secondary Outcome Measures
NameTimeMethod
Predictive value of pretreatment DWI, DCE-MRI, T2*, and 18F-HX4-PET/CT on recurrence free survival in patients with pancreatic cancer treated with surgery and adjuvant chemotherapy or with neoadjuvant radiochemotherapy, surgery and adjuvant chemotherapy.Within two weeks before start radiochemotherapy or within two weeks before surgery

DWI: mean ADC of the whole tumor. DCE: mean Ktrans of the whole tumor. T2\*: average value of the whole tumor. 18F-HX4-PET/CT: SUVmean of the whole tumor.

Predictive value of pretreatment DWI, DCE-MRI, T2*, and 18F-HX4-PET/CT on pathological response in patients with pancreatic cancer treated with neoadjuvant radiochemotherapyWithin two weeks before start radiochemotherapy

DWI: mean ADC of the whole tumor. DCE: mean Ktrans of the whole tumor. T2\*: average value of the whole tumor. 18F-HX4-PET/CT: SUVmean of the whole tumor.

Predictive value of changes in DWI, DCE-MRI, T2*, and 18F-HX4-PET/CT parameters after radiochemotherapy on recurrence-free survival in patients with pancreatic cancer treated with neoadjuvant radiochemotherapy, surgery and adjuvant chemotherapyWithin two weeks before start radiochemotherapy and within two weeks before surgery

DWI: mean ADC of the whole tumor. DCE: mean Ktrans of the whole tumor. T2\*: average value of the whole tumor. 18F-HX4-PET/CT: SUVmean of the whole tumor.

Immunohistochemically determined parameters of the tumor microenvironment assessed after resection of the pancreatic tumor to predict overall and recurrence-free survivalWithin 1h after surgery

Tumor stroma: SMA (DAKO M0851, 1:800); collagen (picro-sirius red), SHH (H160 anti-SHH, 1:500).

Tumor angiogenesis: VEGF (VEGF RB-9031, 1:200) and CD34 (Immunotech 0787, 1:600).

Tumor hypoxia: HIF-1α (Abcam 2185, 1:750), GLUT1 (NeoMarkers RB-90522,1:500), and CA-IX (Mo-anti-CA-IX m75, 1:25).

Measure: Percentage of staining of the total tumor area

Predictive value of changes in DWI, DCE-MRI, T2*, and 18F-HX4-PET/CT parameters after radiochemotherapy on pathological response in patients with pancreatic cancer treated with neoadjuvant radiochemotherapyWithin two weeks before start radiochemotherapy and within two weeks before surgery

DWI: mean ADC of the whole tumor. DCE: mean Ktrans of the whole tumor. T2\*: average value of the whole tumor. 18F-HX4-PET/CT: SUVmean of the whole tumor.

Immunohistochemically determined parameters of the tumor microenvironment assessed in a pretreatment tumor biopsy to predict overall and recurrence-free survivalWithin 1h after surgery

Tumor stroma: SMA (DAKO M0851, 1:800); collagen (picro-sirius red), SHH (H160 anti-SHH, 1:500).

Tumor angiogenesis: VEGF (VEGF RB-9031, 1:200) and CD34 (Immunotech 0787, 1:600).

Tumor hypoxia: HIF-1α (Abcam 2185, 1:750), GLUT1 (NeoMarkers RB-90522,1:500), and CA-IX (Mo-anti-CA-IX m75, 1:25).

Trial Locations

Locations (2)

Erasmus MC

🇳🇱

Rotterdam, Zuid Holland, Netherlands

Academic Medical Center

🇳🇱

Amsterdam, Noord Holland, Netherlands

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