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standard of care has changed
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| Name | Class |
|---|---|
| Genentech, Inc. | INDUSTRY |
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Approximately 40-60 % of cutaneous melanomas select for a mutation in a protein called BRAF which is part of a signaling pathway called the Mitogen Activated Protein Kinase (MAPK) pathway. When BRAF is mutated the MAPK pathway remains active allowing for melanoma to grow. Vemurafenib is an oral treatment which blocks the activity of BRAF which leads to decreasing the activity of the MAPK pathway. When patients with melanoma expressing specific mutation in BRAF are treated with vemurafenib approximately 50% will develop a response to treatment with shrinkage of tumor. When compared to a standard chemotherapy called dacarbazine used to treat melanoma, treatment with vemurafenib leads to a statistically significant overall survival or living longer benefit. Because of this survival benefit vemurafenib was Food and Drug Administration (FDA) approved for the treatment of metastatic melanoma expressing a BRAF mutation called V600E BRAF. There is increasing evidence that the immune system can also be important in affecting melanoma growth and survival and there are immune treatments FDA approved for the treatment of metastatic melanoma. There is some limited evidence that blocking BRAF with vemurafenib may affect the activity of components of the immune system. It is important to better characterize and understand the effects of vemurafenib treatment on various components of the immune system. The purpose of this study is to systematically evaluate the effects of vemurafenib treatment (at FDA approved dosing regimen) on parts of the immune systems called the innate and adaptive immune systems. The hypothesis is that vemurafenib treatment will affect the immune system.
Approximately 40-60 % of cutaneous melanomas select for a mutation in the BRAF protein which is part of a signaling pathway called the Mitogen Activated Protein Kinase (MAPK) pathway. Over 90% of mutations in BRAF occur at position V600 with the most common being a V600E mutation. Mutation at position V600 of BRAF activates the MAPK pathway which facilitates melanoma proliferation and growth. The response rate to treatment with vemurafenib in patients with stage IV melanoma expressing a V600E BRAF mutation is approximately 50%. A phase III study comparing first line treatment with vemurafenib compared to standard dacarbazine chemotherapy demonstrated a statistically significant overall survival benefit in this patient population. Based on this survival benefit vemurafenib was FDA approved for treatment of stage IV melanoma expressing a V600E BRAF mutation. Vemurafenib is administered at a dose of 960 milligrams orally twice daily.
While targeting BRAF can lead to survival benefits in patients with melanoma expressing BRAF mutation it is becoming increasingly apparent that the immune system is important in modulating the growth of melanoma. As such there are immune therapies FDA approved for the treatment of stage IV melanoma including ipilimumab which confers an overall survival benefit by activating the immune system through inhibition of the CTLA-4 protein expressed on certain T-cells. Little is known about how the exposure of different classes of immune cells to vemurafenib modulates the activity of the immune system. We do know that many melanomas express differentiation antigens which could potentially be recognized by the immune system. This recognition could potentially be utilized in the development of novel immunotherapeutic treatment approaches. The pharmacologic inhibition of the MAPK pathway does lead to increased expression of various melanoma differentiation antigens along with improved recognition by antigen-specific T-lymphocytes. Evaluation of a limited number of tumor biopsy specimens suggest that the infiltration of melanomas by CD4+ and CD8+ T-lymphocytes markedly increases following treatment with a BRAF inhibitor. Furthermore the viability and function (determined using assays for cytokine release assays and cytotoxic activity) of T-lymphocytes was not negatively affected by exposure to vemurafenib at concentrations known to cause anti-tumor effects.
The MAPK pathway is a pathway utilized by many cell types including immune cells and cells in the tumor microenvironment. As such vemurafenib could potentially modulate the activity of the MAPK pathway in the melanoma cells, immune cells, and components of the tumor microenvironment. Effects of vemurafenib on tumor cells may directly lead to changes in antigen presentation and effects on the innate and adaptive immune systems could potentially alter recognition of tumor cells and modulate positively or negatively immune recognition and antitumor activity. Therefore, a better understanding of immune modulation induced by anti-BRAF therapy should provide data to model and develop in a more rational fashion therapies which combine BRAF targeted and immune modulatory agents potentially using such agents as ipilimumab or anti-PD1 or anti-PDL1 antibodies.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Vemurafenib | Experimental | 960 mg (four tablets of 240 mg each) of vemurafenib PO BID |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Vemurafenib | Drug | Vemurafenib will be administered at the FDA approved dose of 960 mg approximately 12 hours apart with or without a meal. Vemurafenib is provided at 240-mg film-coated tablets packed in bottles for oral administration. Vemurafenib should be swallowed whole with a glass of water and the medication should not be chewed or crushed. Management of symptomatic adverse events may require dose reductions, treatment interruptions, or treatment discontinuation. Dose reductions below 480 mg twice daily are not recommended. |
| Measure | Description | Time Frame |
|---|---|---|
| Changes in the Immune Cellular Signature in the Blood Circulation | Immuno-fluorescence and flow cytometry will be performed on blood specimens obtained to determine changes in the immune cell signature in the blood on day 8 and day 57 after initiation of vemurafenib treatment as compared to baseline | baseline, day 8, and day 57 |
| Measure | Description | Time Frame |
|---|---|---|
| Changes in the Immune Cellular Signature in the Tumor | Immuno-fluorescence and flow cytometry will be performed on tumor specimens obtained to determine changes in the immune cell signature in the tumor on day 8-10 and day 57 after initiation of vemurafenib treatment as compared to baseline | baseline, day 8-10, and day 57 |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Philip Friedlander, MD, PhD | Icahn School of Medicine at Mount Sinai | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Icahn School of Medicine at Mount Sinai | New York | New York | 11103 | United States |
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| ID | Title | Description |
|---|---|---|
| FG000 | Vemurafenib | 960 mg (four tablets of 240 mg each) of vemurafenib PO BID Vemurafenib: Vemurafenib will be administered at the FDA approved dose of 960 mg approximately 12 hours apart with or without a meal. Vemurafenib is provided at 240-mg film-coated tablets packed in bottles for oral administration. Vemurafenib should be swallowed whole with a glass of water and the medication should not be chewed or crushed. Management of symptomatic adverse events may require dose reductions, treatment interruptions, or treatment discontinuation. Dose reductions below 480 mg twice daily are not recommended. |
| Title | Milestones | Reasons Not Completed | |||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Overall Study |
|
|
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| ID | Title | Description |
|---|---|---|
| BG000 | Vemurafenib | 960 mg (four tablets of 240 mg each) of vemurafenib PO BID Vemurafenib: Vemurafenib will be administered at the FDA approved dose of 960 mg approximately 12 hours apart with or without a meal. Vemurafenib is provided at 240-mg film-coated tablets packed in bottles for oral administration. Vemurafenib should be swallowed whole with a glass of water and the medication should not be chewed or crushed. Management of symptomatic adverse events may require dose reductions, treatment interruptions, or treatment discontinuation. Dose reductions below 480 mg twice daily are not recommended. |
| Units | Counts |
|---|---|
| Participants |
|
| Title | Description | Population Description | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Denominator Units Selected | Denominators | Classes |
|---|---|---|---|---|---|---|---|---|---|
| Age, Continuous | Median |
| Type | Title | Description | Population Description | Reporting Status | Anticipated Posting Date | Parameter Type | Dispersion Type | Unit of Measure | Calculate Percentage | Time Frame | Units Analyzed | Denominator Units Selected | Arm/Group Information | Denominators | Classes | Analyses | |||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Primary | Changes in the Immune Cellular Signature in the Blood Circulation | Immuno-fluorescence and flow cytometry will be performed on blood specimens obtained to determine changes in the immune cell signature in the blood on day 8 and day 57 after initiation of vemurafenib treatment as compared to baseline | Data not collected | Posted | baseline, day 8, and day 57 |
|
5 months
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| ID | Title | Description | Deaths (Affected) | Deaths (At Risk) | Serious Events (Affected) | Serious Events (At Risk) | Other Events (Affected) | Other Events (At Risk) |
|---|---|---|---|---|---|---|---|---|
| EG000 | Vemurafenib | 960 mg (four tablets of 240 mg each) of vemurafenib PO BID Vemurafenib: Vemurafenib will be administered at the FDA approved dose of 960 mg approximately 12 hours apart with or without a meal. Vemurafenib is provided at 240-mg film-coated tablets packed in bottles for oral administration. Vemurafenib should be swallowed whole with a glass of water and the medication should not be chewed or crushed. Management of symptomatic adverse events may require dose reductions, treatment interruptions, or treatment discontinuation. Dose reductions below 480 mg twice daily are not recommended. |
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| Term | Organ System | Source Vocabulary | Assessment Type | Notes | Statistical Information |
|---|---|---|---|---|---|
| Tinnitus | Ear and labyrinth disorders | CTCAE (4.0) | Non-systematic Assessment |
Too few subjects to assess for correlation. Also no subject underwent tissue tumor biopsy which were not mandatory.
| Title | Organization | Phone | Extension | |
|---|---|---|---|---|
| Dr. Philip A Friedlander | Icahn School of Medicine at Mount Sinai | 212-824-8584 | philip.friedlander@mssm.edu |
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| ID | Term |
|---|---|
| D008545 | Melanoma |
| D009477 | Hereditary Sensory and Autonomic Neuropathies |
| ID | Term |
|---|---|
| D018358 | Neuroendocrine Tumors |
| D017599 | Neuroectodermal Tumors |
| D009373 | Neoplasms, Germ Cell and Embryonal |
| D009370 | Neoplasms by Histologic Type |
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| ID | Term |
|---|---|
| D000077484 | Vemurafenib |
| ID | Term |
|---|---|
| D013449 | Sulfonamides |
| D000577 | Amides |
| D009930 | Organic Chemicals |
| D013450 | Sulfones |
| D013457 |
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|
| Changes in Transcriptional Profile in the Blood |
Global changes in the blood transcriptome in response to vemurafenib therapy will be performed using gene expression arrays. Change in the blood transcriptosome on day 8 and day 57 as compared to baseline. |
| baseline, day 8, and day 57 |
| Change in Transcriptional Profile in Tumor | Global changes in the transcriptosome of tumor associated immune cells in response to therapy will be performed using gene expression arrays. The transcriptosome in tumor will be compared on purified tumor immune cells obtained from a pretreatment tumor biopsy performed at baseline and a second biopsy obtained after starting treatment and obtained between days 8-10. | baseline and day 8-10 |
| Changes in Dendritic Cell Function in Blood | change in dendritic cell function at day 8 and day 57 as compared to baseline | baseline day 8, and day 57 |
| Changes in Dendritic Cell Function in Tumor | Changes in dendritic cell function in tumor on day 8-10 as compared to baseline | baseline and day 8-10 |
| Changes in Macrophage Function in Blood | Changes in macrophage function in blood at day 8 and day 57 as compared to baseline | baseline, day 8, and day 57 |
| Changes in Macrophage Function in Tumor | changes in macrophage function in tumor on day 8-10 as compared to baseline | baseline and day 8-10 |
| Changes in Global T Cell Function in Blood | changes in global T cell function in blood on day 8 and day 57 as compared to baseline | baseline, day 8, and day 57 |
| Changes in Global T Cell Function in Tumor | Changes in Global T cell function in Tumor on day 8 as compared to baseline | baseline and day 8-10 |
| Changes in Tumor Antigen Specific T Cell Function in Blood | Changes in Tumor Antigen Specific T cell Function using CD154 induction assay on day 8, day 15 and day 126 as compared to baseline | baseline, day 8, day 15 and day 126 |
| Changes in Histocytometry of Tumor | Changes in Histocytometry of tumor on day 8-10 as compared to baseline. Histocytometry is a novel microscopic analytical method (Gerner et al. 2012) which combines the advantages of flow cytometry and Microscopic techniques. This techniques allows for the visualization and quantification of phenotypically complex cellular subsets and provides spatial and cell-cell interactions. | baseline and day 8-10 |
| Response to Vemurafenib Treatment | Response to vemurafenib treatment based on changes in tumor burden using CT or MRI imaging studies. Response are categorized as complete response (CR), partial response (PR), progressive disease (PD), and stable disease (SD), | up to 57 days |
| Number of Participants Who Developed of Cutaneous Squamous Cell Carcinomas | Number of participants who developed cutaneous squamous cell carcinomas while on the study | up to 5 months |
| years |
|
| Sex: Female, Male | Count of Participants | Participants |
|
|
| Secondary | Changes in the Immune Cellular Signature in the Tumor | Immuno-fluorescence and flow cytometry will be performed on tumor specimens obtained to determine changes in the immune cell signature in the tumor on day 8-10 and day 57 after initiation of vemurafenib treatment as compared to baseline | data not collected, no patients had research tumor biopsies | Posted | baseline, day 8-10, and day 57 |
|
|
| Secondary | Changes in Transcriptional Profile in the Blood | Global changes in the blood transcriptome in response to vemurafenib therapy will be performed using gene expression arrays. Change in the blood transcriptosome on day 8 and day 57 as compared to baseline. | Data not collected | Posted | baseline, day 8, and day 57 |
|
|
| Secondary | Change in Transcriptional Profile in Tumor | Global changes in the transcriptosome of tumor associated immune cells in response to therapy will be performed using gene expression arrays. The transcriptosome in tumor will be compared on purified tumor immune cells obtained from a pretreatment tumor biopsy performed at baseline and a second biopsy obtained after starting treatment and obtained between days 8-10. | Data not collected. No patients had research tumor biopsies. | Posted | baseline and day 8-10 |
|
|
| Secondary | Changes in Dendritic Cell Function in Blood | change in dendritic cell function at day 8 and day 57 as compared to baseline | Data not collected | Posted | baseline day 8, and day 57 |
|
|
| Secondary | Changes in Dendritic Cell Function in Tumor | Changes in dendritic cell function in tumor on day 8-10 as compared to baseline | Data not collected. No patients had research tumor biopsies. | Posted | baseline and day 8-10 |
|
|
| Secondary | Changes in Macrophage Function in Blood | Changes in macrophage function in blood at day 8 and day 57 as compared to baseline | Data not collected | Posted | baseline, day 8, and day 57 |
|
|
| Secondary | Changes in Macrophage Function in Tumor | changes in macrophage function in tumor on day 8-10 as compared to baseline | Data not collected. No patients had research tumor biopsies. | Posted | baseline and day 8-10 |
|
|
| Secondary | Changes in Global T Cell Function in Blood | changes in global T cell function in blood on day 8 and day 57 as compared to baseline | Data not collected. | Posted | baseline, day 8, and day 57 |
|
|
| Secondary | Changes in Global T Cell Function in Tumor | Changes in Global T cell function in Tumor on day 8 as compared to baseline | Data not collected. No patients had research tumor biopsies. | Posted | baseline and day 8-10 |
|
|
| Secondary | Changes in Tumor Antigen Specific T Cell Function in Blood | Changes in Tumor Antigen Specific T cell Function using CD154 induction assay on day 8, day 15 and day 126 as compared to baseline | Data not collected. | Posted | baseline, day 8, day 15 and day 126 |
|
|
| Secondary | Changes in Histocytometry of Tumor | Changes in Histocytometry of tumor on day 8-10 as compared to baseline. Histocytometry is a novel microscopic analytical method (Gerner et al. 2012) which combines the advantages of flow cytometry and Microscopic techniques. This techniques allows for the visualization and quantification of phenotypically complex cellular subsets and provides spatial and cell-cell interactions. | Data not collected. No patients had research tumor biopsies. | Posted | baseline and day 8-10 |
|
|
| Secondary | Response to Vemurafenib Treatment | Response to vemurafenib treatment based on changes in tumor burden using CT or MRI imaging studies. Response are categorized as complete response (CR), partial response (PR), progressive disease (PD), and stable disease (SD), | Posted | Count of Participants | Participants | up to 57 days |
|
|
|
| Secondary | Number of Participants Who Developed of Cutaneous Squamous Cell Carcinomas | Number of participants who developed cutaneous squamous cell carcinomas while on the study | Posted | Count of Participants | Participants | up to 5 months |
|
|
|
| 0 |
| 3 |
| 0 |
| 3 |
| 3 |
| 3 |
| Pain | General disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Weight Loss | Metabolism and nutrition disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Hypotension | Cardiac disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Fatigue | General disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Anemia | Blood and lymphatic system disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Hypoalbuminemia | Metabolism and nutrition disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Hyponatremia | Metabolism and nutrition disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Insomnia | Psychiatric disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Hypocalcemia | Metabolism and nutrition disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Chills | General disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Alkaline Phosphatase Increased | Investigations | CTCAE (4.0) | Non-systematic Assessment |
|
| Hyperkalemia | Metabolism and nutrition disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Fall | Injury, poisoning and procedural complications | CTCAE (4.0) | Non-systematic Assessment |
|
| Rash | Skin and subcutaneous tissue disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Fever | General disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Arthralgias | Musculoskeletal and connective tissue disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Headache | Nervous system disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Anterior Uveitis | Eye disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Hypernatremia | Metabolism and nutrition disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Cough | Respiratory, thoracic and mediastinal disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Myalgia | Musculoskeletal and connective tissue disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| White Blood Cell Decreased | Blood and lymphatic system disorders | CTCAE (4.0) | Non-systematic Assessment |
|
| Electrocardiogram QT corrected Interval Prolongation | Investigations | CTCAE (4.0) | Non-systematic Assessment |
|
| Hypoglycemia | Endocrine disorders | CTCAE (4.0) | Non-systematic Assessment |
|
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| D009369 | Neoplasms |
| D009380 | Neoplasms, Nerve Tissue |
| D018326 | Nevi and Melanomas |
| D012878 | Skin Neoplasms |
| D009371 | Neoplasms by Site |
| D012871 | Skin Diseases |
| D017437 | Skin and Connective Tissue Diseases |
| D009421 | Nervous System Malformations |
| D009422 | Nervous System Diseases |
| D020271 | Heredodegenerative Disorders, Nervous System |
| D019636 | Neurodegenerative Diseases |
| D011115 | Polyneuropathies |
| D010523 | Peripheral Nervous System Diseases |
| D009468 | Neuromuscular Diseases |
| D000013 | Congenital Abnormalities |
| D009358 | Congenital, Hereditary, and Neonatal Diseases and Abnormalities |
| D030342 | Genetic Diseases, Inborn |
| Sulfur Compounds |
| D007211 | Indoles |
| D006574 | Heterocyclic Compounds, 2-Ring |
| D000072471 | Heterocyclic Compounds, Fused-Ring |
| D006571 | Heterocyclic Compounds |
| SD |
|