Identification of a Gene Expression Signature Profile for Panitumumab Sensitivity in Untreated Locally Advanced Squamous Cell Cancer of the Head and Neck (SCCHN)
Overview
- Phase
- Phase 2
- Intervention
- Panitumumab
- Conditions
- Squamous Cell Carcinoma of the Head and Neck
- Sponsor
- Neal Ready
- Enrollment
- 6
- Locations
- 2
- Primary Endpoint
- Change in Tumor (Primary Tumor and Lymph Node) Response and Progression Between Pre- and Post- Panitumumab Therapy
- Status
- Terminated
- Last Updated
- 11 years ago
Overview
Brief Summary
The purpose of this study was to identify which cancer-related genes are turned on or turned off in order to determine how well a patient will respond to the study drug, panitumumab. Panitumumab was added to standard adjuvant or primary radiation therapy. There were subjects that receive surgery followed by therapy and subjects that receive radiation therapy without surgery.
Subjects entering this study had locally advanced disease that can be treated with surgery and/or radiation therapy. Fresh frozen tumor tissue were available for genomics analysis prior to initiating panitumumab therapy. If fresh frozen tissue was not available at time of consent, a biopsy was required to participate in this trial.
Detailed Description
The trial was initiated to identify a gene expression signature profile biomarker for panitumumab sensitivity in locally advanced, untreated SCCHN. SCCHN expresses or over expresses EGFR in \>90% of tumors. Panitumumab is a fully human IgG2 monoclonal antibody approved for the treatment of epidermal growth factor receptor (EGFR) expressing previously treated metastatic colorectal cancer. It competes with endogenous ligands such as epidermal growth factor and tumor growth factor-α and blocks stimulation of the EGFR. Preclinical experiments have shown that panitumumab has both direct anti-tumor activity and can activate a cellular immune response to SCCHN.This study provides the opportunity to better define the population of patients that would benefit from EGFR inhibition in SCCHN. Patients received single agent panitumumab in a "window of opportunity" design prior to definitive surgical or radiation therapy. The decision to treat primarily with either surgery or Radiation Therapy (RT) based therapy was based on best medical practice by the treating physician per National Comprehensive Cancer Network (NCCN) guidelines at www.nccn.org. Response to panitumumab monotherapy before surgery or radiation was evaluated as a continuous variable, and a median split of patients will be used to develop a signature of drug responsiveness. An Affymetrix chip based gene signature model was then developed by analyzing gene expression in panitumumab sensitive versus resistant tumors. Identification of a gene expression profile for tumor sensitivity allowed for prospective trials treating patient populations enriched for likelihood of clinical benefit from panitumumab therapy. It is also possible that a gene signature profile for panitumumab responsiveness identified in SCCHN could be used as a biomarker in other epithelial cancers. Tumor response as measured by percentage decrease in PET scan standardized uptake value (SUV) level or objective evidence of tumor response (by CT scan or direct measurement) was the basis for examining the activity of panitumumab by means of identifying a gene expression signature that predicted response in this patient population. Therefore, PET scan SUV levels was assessed at baseline prior to any treatment. If a baseline PET/CT was obtained and a lesion identified with SUV level ≥6, an additional pre-treatment research PET/CT was performed after consent (prior to dose #1 panitumumab. A second research PET/CT was also obtained after the first dose of panitumumab as part of this research study. If no baseline PET/CT had been obtained, a research PET was obtained pre-treatment; if SUV level ≥6 an additional research PET was obtained after the first dose of panitumumab. All subjects underwent imaging, biopsy and a single dose of panitumumab 9mg/kg IV. Two to three weeks after panitumumab, imaging was repeated and a second biopsy was obtained (at surgery for surgery patients) and an optional biopsy for patients receiving RT. Subjects received 2 additional doses of panitumumab during their standard therapy.
Investigators
Neal Ready
Assistant Professor of Medicine
Duke University
Eligibility Criteria
Inclusion Criteria
- •Untreated, suspected or histologically documented locally advanced clinical stage III or IVa-b(M0)SCCHN, no evidence of distant metastases. Prior surgery with diagnosis of SCCHN acceptable
- •Candidate for definitive surgery or radiation based therapy.
- •Fresh frozen tumor tissue must be available for genomic analysis and must pass RNA Quality Control prior to research PET/CT #1 and/or initiating panitumumab
- •Measurable or evaluable disease
- •Eastern Cooperative Oncology Group (ECOG) 0-1
- •≥18 years of age
- •Adequate organ function
- •neutrophil count (ANC or AGC) ≥1.5 x 109/L
- •Platelet count ≥75 x 109/L
- •Hemoglobin ≥9.0 g/dL
Exclusion Criteria
- •History of other malignancy within past 2 years, except:
- •Malignancy treated with curative intent and with no known active disease
- •Adequately treated non-melanomatous skin cancer or lentigo maligna with no evidence of disease
- •Adequately treated cervical carcinoma in situ with no evidence of disease
- •Prostatic intraepithelial neoplasia with no evidence of prostate cancer
- •Primary tumor of the nasopharynx (nasopharyngeal cancer), sinuses, salivary gland, or skin. (Squamous cell carcinoma arising in/near nasopharynx is eligible)
- •Prior radiotherapy in planned field if it prevents standard radiotherapy dose and field
- •Prior radiation for head \& neck cancer
- •Prior anti-EGFR antibody therapy (e.g., cetuximab) or treatment with small molecule EGFR inhibitors (e.g., gefitinib, erlotinib, lapatinib)
- •Prior anti-cancer treatment with: chemotherapy, hormonal therapy, immunotherapy, experimental or approved proteins/antibodies within the past 5 years.
Arms & Interventions
Surgery
Patients who underwent surgery after research PET/CT scans and subsequent radiation therapy with panitumumab administration
Intervention: Panitumumab
Surgery
Patients who underwent surgery after research PET/CT scans and subsequent radiation therapy with panitumumab administration
Intervention: Surgery
Surgery
Patients who underwent surgery after research PET/CT scans and subsequent radiation therapy with panitumumab administration
Intervention: Radiation Therapy
Radiation Therapy
Patients who underwent radiation therapy only, in conjunction with panitumumab therapy.
Intervention: Panitumumab
Radiation Therapy
Patients who underwent radiation therapy only, in conjunction with panitumumab therapy.
Intervention: Radiation Therapy
Outcomes
Primary Outcomes
Change in Tumor (Primary Tumor and Lymph Node) Response and Progression Between Pre- and Post- Panitumumab Therapy
Time Frame: Baseline to 2 years
The aim of this outcome measure was to identify a gene expression signature that predicts response to panitumumab in untreated locally advanced squamous cell cancer of the head / neck (SCCHN). Response and progression were evaluated using the largest percentage change among the cases: 1) Pre-panitumumab PET scan activity, and/or; 2) Pre-panitumumab radiologic measurement compared to post-panitumumab measurement and/or; 3) Pre-panitumumab direct measurement of tumor / lymph node compared to post-panitumumab direct measurement of tumor / lymph node. Response and progression were evaluated in this single study using the criteria "changes in only the largest diameter (unidimensional measurement) of the tumor lesions were defined" in the same manner as in RECIST 1.1. No results are reported as only 2 of the 6 subjects had fresh tissue collected after the first dose of panitumumab. The study was amended to remove the biopsy procedure due to the potential risk for the participants.
Secondary Outcomes
- Nine (9) Month Overall Survival (OS)(9 months)
- Nine (9) Month Progression Free Survival (PFS)(9 months)