Using novel light-scattering techniques, researchers have found the first evidence that early stage pancreatic cancer causes subtle changes in part of the small intestine.
The easily monitored marker may ultimately allow early detection for a disease notorious for having few obvious symptoms, the primary reason pancreatic cancer killed more than 33,000 Americans last year.
The new detection techniques, developed with support from the National Science Foundation (NSF), produce an optic fingerprint from the altered tissue and then enhance the data for a clearer diagnosis.
The researchers scanned tissue samples from 19 people already diagnosed with pancreatic cancer and 32 without the disease. They properly distinguished patients with cancer at an accuracy approaching 100 percent. The clearest results came from patients in the earliest stages of the disease.
Pancreatic cancer is so deadly, in part, because early detection is so difficult. The pancreas can become dangerously inflamed if examined directly, so routine inspections for at-risk patients are usually not an option.
The results build upon prior studies with colon cancer and support the "field effect" hypothesis that suggests initial cancer stages, even pre-cancerous lesions, can cause minute, potentially detectable changes throughout an entire organ. If similar results are found in other organs, the effect could have broad impact in the timely treatment of breast cancer, lung cancer and others.
The team of engineers from Northwestern University in Evanston, Ill., and physicians from Evanston-Northwestern Healthcare (ENH), reported the findings in the Aug. 1, 2007, Clinical Cancer Research.
"This novel technology uses light to probe tissue architecture at submicron scale. We are excited about this technology because it enables sensing subtle changes in tissue that otherwise are undetectable by conventional microscopic examination," said Northwestern engineer Vadim Backman, an NSF CAREER awardee who led the development of the new technologies and is a co-author on the research.
By studying tissue extracted from an area adjacent to the pancreas, the researchers were able to screen all 51 patients with little risk of inflammation or other complications.
While clinical use is perhaps three to five years in the future, and ongoing studies are needed to confirm the results, the researchers hope the tests can eventually be done without the biopsy.
"We were so encouraged by the successes with colon cancer that we decided to drive the research in a new direction. With colon cancer, you have time, even years, to treat it successfully. Unfortunately, for pancreatic cancer it's not only critical to detect it early, or even before it becomes cacnerous, but in many cases it is really the only hope," said Leon Esterowitz, the NSF program officer who has been supporting this research.
Because the study uses tissue samples taken from each patient's duodenum, the uppermost section of the small intestine which can be accessed during endoscopies, doctors could potentially generate earlier diagnoses by examining low-risk patients as part of routine examinations.
The next stages of the pancreatic cancer research trials incorporate some examinations that are biopsy-free and use a shoebox-sized fiber-optic version of the new system, a device now being tested during colonoscopies.
"Besides improving on the technology, we need to determine whether other medical conditions including other cancer types or diseases of the pancreas such as chronic pancreatitis or acute pancreatitis can be distinguished with our technology from pancreatic cancer. It is also important for us to validate our prediction rule on a larger number of pancreatic cancer cases as well as different control groups." said co-author Randall Brand, a gastroenterologist from ENH and an expert on pancreatic cancer.
In trials that began before the pancreas research, the researchers saw encouraging results with colon cancer detection in a study of 500 patients. The new approach also predicted, with 100 percent accuracy, polyps in patients diagnosed with a simultaneous colonoscopy.
Because the experimental procedure only scans the outer few centimeters of the colon and does not require the uncomfortable cleansing process required for a colonoscopy, the researchers believe the approach will encourage more people to get screened before they develop symptoms of disease.