Evaluation of the Immunological Effects of a Combined Treatment With Radiation and Cyclophosphamide in Metastasized Breast Cancer Patients
Overview
- Phase
- Early Phase 1
- Intervention
- Cyclophosphamide
- Conditions
- Radiotherapy
- Sponsor
- University Hospital, Ghent
- Locations
- 1
- Primary Endpoint
- Identification of the immunological effects, in peripheral blood and tumor biopsies, of the combined treatment with radiation and cyclophosphamide
- Status
- Withdrawn
- Last Updated
- 4 years ago
Overview
Brief Summary
In metastasized of locally advanced breast cancer patients, local problems often occur like skin metastases, ulcerations or lymph node metastases. These problems are related to a worse quality of life, while overall survival is generally in the order of months to years. Treatment of these lesions is challenging, especially after failure of first or second line systemic therapy. Local treatments, like radiation, are able to give short-term palliation, but the effect is often disappointing in the long run. Therefore, the search for new therapeutic strategies like the combination of local and systemic treatments is emerging.
Recent investigations clearly show that radiation is capable of inducing a systemic anti-tumor response. Both in mouse models and in patients, it was reported that irradiating one metastasis can slow down the growth of other non-irradiated metastases. This effect is called the "abscopal effect" and is immune-mediated. There are also several chemotherapeutics that are capable of influencing the immune response like cyclophosphamide. Cyclophosphamide is a known inducer of immunogenic cell death, which leads to the activation of dendritic cells and thus the presentation of antigens.
In this pilot study the investigators wish to identify the immunological effects of combined treatment with radiation and cyclophosphamide in breast cancer patients. Five patients with metastasized breast carcinoma will be treated with the combined treatment and the immunological effects will be monitored using repeat blood draws and biopsies. These effects will be correlated to the clinical response.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Histologically proven diagnosis of breast cancer
- •Evidence of metastasized disease on imaging or during clinical examination
- •Progressive disease during last systemic treatment
- •Multiple (≥2) measurable lesions accessible for repeat biopsy, in particular:
- •Skin- or subcutaneous metastases
- •Lymph node metastases cervical, supraclavicular, axillary or inguinal
- •Superficial lesions in the breast or on the thoracic wall
- •Age ≥ 18 years
- •Adequate organ and bone marrow function:
- •ANC \> 1500/µL
Exclusion Criteria
- •Life expectancy of less than 3 months or Karnofsky performance status \< 70
- •New line of systemic therapy planned
- •Concomitant treatment with other experimental drugs
- •Local therapies (radiation, surgery, topical anti-cancer treatment, intralesional therapy, laser treatment) at the target lesion(s) less than 4 weeks before the start of cyclophosphamide. Biopsy is allowed.
- •Chemotherapy or targeted therapy \< 4 weeks before the start of cyclophosphamide
- •Hormone therapy change within the last 3 months
- •Uncontrolled coagulation disorders
- •Patients receiving therapeutic anticoagulants that cannot be stopped temporarily for repeat biopsy. Aspirin or anti-aggregants are allowed.
- •Patients with a known immune-deficiency disorder or receiving immune-suppressive treatment
- •Known allergy or intolerance for cyclophosphamide
Arms & Interventions
Cyclophosphamide
Intervention: Cyclophosphamide
Cyclophosphamide
Intervention: Stereotactic body radiotherapy
Outcomes
Primary Outcomes
Identification of the immunological effects, in peripheral blood and tumor biopsies, of the combined treatment with radiation and cyclophosphamide
Time Frame: 1.5 years
Biopsies will be divided for 1) flowcytometric analysis (CD4 and CD8 tumor infiltrating lymphocytes, Tregs, dendritic cell subsets) and 2) immune histochemistry (CD8 tumor infiltrating lymphocytes, Foxp3+ Tregs). Immunomonitoring in peripheral blood by flow-cytometric analysis of leukocyte subsets involved in tumor-related immune responses: NK and T-cell subsets, dendritic cell subsets and myeloid-derived suppressor cells. Cytokine secretion patterns will be investigated using FACS and ELISA. Immune monitoring: Before the first session of radiation, 4 weeks after radiotherapy and 3 months after radiotherapy.
Secondary Outcomes
- Evaluation of the clinical/radiographical response of irradiated metastases(1.5 years)
- Evaluation of the response of non-irradiated metastases (the so-called "abscopal effect").(1.5 years)