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Spots Global Cancer Trial Database for Immunotherapy Study in Borderline Resectable or Locally Advanced Unresectable Pancreatic Cancer

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Trial Identification

Brief Title: Immunotherapy Study in Borderline Resectable or Locally Advanced Unresectable Pancreatic Cancer

Official Title: A Phase III Study of Chemotherapy With or Without Algenpantucel-L (HyperAcute®-Pancreas) Immunotherapy in Subjects With Borderline Resectable or Locally Advanced Unresectable Pancreatic Cancer

Study ID: NCT01836432

Study Description

Brief Summary: Unfortunately, despite the best clinical efforts and breakthroughs in biotechnology, most patients diagnosed with pancreatic cancer continue to die from the rapid progression of their disease. One primary reason for this is that the disease is typically without symptoms until significant local and/or distant spread has occurred and is often beyond the chance for cure at the time of the diagnosis. The lack of any treatment to substantially increase long term survival rates is reflected by the poor outcomes associated with this disease, specifically time to disease progression and overall survival. However, another important part of the body is now being looked at as a target for therapy against this disease - the immune system. Scientists have clearly shown that pancreatic tumor cells produce a number of defective proteins, or express normal proteins in highly uncharacteristic ways, as part of this cancer. In some cancers, these abnormalities can cause an immune response to the cancer cells much in the way one responds to infected tissue. In progressive cancers however, the immune system fails to effectively identify or respond to these abnormalities and the cancer cells are not attacked or destroyed for reasons not yet fully understood. This clinical trial proposes a new way to stimulate the immune system to recognize pancreatic cancer cells and to stimulate an immune response that destroys or blocks the growth of the cancer. This new method of treatment helps the immune system of pancreatic cancer patients to "identify" the cancerous tissue so that it can be eliminated from the body. As an example, most people are aware that patients with certain diseases may require an organ transplant to replace a damaged kidney or heart. After receiving their transplant, these patients receive special drugs because they are at great danger of having an immune response that destroys or "rejects" the transplanted organ. This "rejection" occurs when their immune system responds to differences between the cells of the transplanted organ and their own immune system by attacking the foreign tissue in the same way as it would attack infected tissue. When the differences between foreign tissues and the patient's body are even larger, as with the differences between organs from different species, the rejection is very rapid, highly destructive, and the immunity it generates is longlasting. This is called hyperacute rejection and the medicine used to immunize patients in this protocol tries to harness this response to teach a patient's immune system to fight their pancreatic cancer just as the body would learn to reject a transplanted organ from an animal. To do this, Algenpantucel-L immunotherapy contains human pancreatic cancer cells that contain a mouse gene that marks the cancer cells as foreign to patient's immune systems. The immune system therefore attacks these cancer cells just as they would attack any truly foreign tissue, destroying as much as it can. Additionally, the immune system is stimulated to identify differences (aside from the mouse gene) between these cancer cells and normal human tissue as foreign. This "education" of the immune system helps treat the patient because pancreatic cancer cells already present in a treated patient are believed to show some of the same differences from normal tissue as the modified pancreatic cancer cells in the product. Due to these similarities, the immune system, once "educated" by the Algenpantucel-L immunotherapy, identifies the patient's cancer as foreign and attacks. The chemotherapy combination to be used in this study has been shown to improve survival in advanced pancreatic cancer and is being combined with an experimental pancreatic cancer immunotherapy that stimulates the immune system to recognize and attack the cancer. One goal of this study is to determine whether chemotherapy and immunotherapies can work cooperatively to increase anti-tumor effects to levels beyond what would be seen with either treatment alone. In this experimental study, all patients are given a strong combination of anti-tumor chemotherapies while some patients are also given injections of an immunotherapy drug consisting of two types of pancreatic cancer cells that we have modified to make them more easily recognized and attacked by the immune system. We propose to test this new treatment protocol in patients with locally advanced pancreatic cancer to demonstrate that treatment with the immunotherapy increases the time until the tumor progresses or increases overall survival when given in combination with the current standard of care therapy for this disease.

Detailed Description: This protocol attempts to treat pancreatic cancer therapy using a naturally occurring barrier to xenotransplantation in humans to increase the efficacy of immunizing patients against their pancreatic cancer. In this protocol, the transfer of the murine α(1,3) galactosyltransferase \[α(1,3)GT\] gene to immunotherapy component cells results in the cell surface expression of α(1,3)galactosyl-epitopes (αgal) epitopes on membrane glycoproteins and glycolipids. These epitopes are the major target of the hyperacute rejection response. This response occurs when organs are transplanted from lower animal donor species into primates and results in rapid destruction of transplanted tissue and an augmented response against transplant antigens, including antigens not related to the αgal epitopes. Human hosts have pre-existing anti-α-gal antibodies that are thought to result from chronic immunological stimulation due to exposure to α-gal epitopes that are naturally expressed on normal gut flora and these antibodies may comprise up to 1% of serum immunoglobulin G (IgG). Opsonization and lysis of the immunotherapy component cells mediated by this antibody is believed to increase the efficiency of antigen processing by targeting vaccine components to antigen presenting cells via the Fcγ receptor.

Eligibility

Minimum Age: 18 Years

Eligible Ages: ADULT, OLDER_ADULT

Sex: ALL

Healthy Volunteers: No

Locations

Arizona Cancer Center, Tucson, Arizona, United States

Cedars-Sinai Medical Center, Los Angeles, California, United States

Sutter Institute for Medical Research, Sacramento, California, United States

California Pacific Medical Center, San Francisco, California, United States

Stamford Hospital, Stamford, Connecticut, United States

Boca Raton Regional Hospital, Boca Raton, Florida, United States

University of Florida, Gainesville, Florida, United States

University of Miami, Miami, Florida, United States

USF Tampa General, Tampa, Florida, United States

H. Lee Moffitt Cancer Center, Tampa, Florida, United States

Illinois Cancer Specialists, Arlington Heights, Illinois, United States

Indiana University Health Goshen Center for Cancer Care, Goshen, Indiana, United States

Indiana University, Indianapolis, Indiana, United States

University of Kansas Cancer Center, Westwood, Kansas, United States

University of Louisville, Louisville, Kentucky, United States

Beaumont CCOP, Royal Oak, Michigan, United States

Virginia Piper Cancer Institute, Minneapolis, Minnesota, United States

Renown Regional Medical Center, Reno, Nevada, United States

Jersey Shore University Medical Center, Neptune, New Jersey, United States

Mount Sinai Medical Center, New York, New York, United States

Wake Forest Baptist Health, Winston-Salem, North Carolina, United States

The Ohio State University, Columbus, Ohio, United States

University of Oklahoma, Oklahoma City, Oklahoma, United States

Oregon Health and Science University, Portland, Oregon, United States

Thomas Jefferson University, Philadelphia, Pennsylvania, United States

University of Tennessee Medical Center, Knoxville, Tennessee, United States

University of Texas Southwestern Medical Center, Dallas, Texas, United States

Baylor College of Medicine, Houston, Texas, United States

University of Virginia, Charlottesville, Virginia, United States

University of Washington - Seattle Cancer Center Alliance, Seattle, Washington, United States

Vince Lombardi Cancer Center, Green Bay, Wisconsin, United States

University of Wisconsin, Madison, Wisconsin, United States

Contact Details

Useful links and downloads for this trial

Clinicaltrials.gov

Google Search Results

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