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Graphic representation of falloposcope image resolution.

UA Researchers Make Next Move in Fight Against Ovarian Cancer

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UA Researchers Make Next Move in Fight Against Ovarian Cancer

Sept. 26, 2018
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A little scope with big impact could increase survival rates for cancer patients.

Ovarian cancer claims the highest mortality rate of all gynecologic cancers, as high as 70 percent -- in part because the disease is rarely detected earlier than stage 3 or 4. When the disease is discovered early in its development, however, survival rates are high, so an effective screening technique for early detection could not only save lives, but drastically improve their quality.

With a $863,000, three-year grant from the United States Army, Jennifer Barton, director of the BIO5 Institute and professor of biomedical engineering, biosystems engineering, electrical and computer engineering and optical sciences, is continuing her research into a disposable falloposcope to detect early-stage ovarian cancer. A falloposcope is an endoscope used to image the fallopian tubes, where researchers now believe ovarian cancer originates.

Jennifer Barton
Jennifer Barton

While Barton and her team have conducted studies to demonstrate the feasibility of a minimally invasive, inexpensive and highly sensitive falloposcope, this funding will allow them to ready the device for the clinic and test it for the first time in vivo, or in a living person.

“Previous studies were great for showing that the idea was sound, but of course there’s a lot of engineering that goes into building something that is safe, robust and easy to use in a surgical setting,” Barton said.

Reducing Unnecessary Procedures

Certain factors, including a strong family or personal history of breast or ovarian cancer, endometriosis and alterations in the BRCA1 and BRCA2 genes, can increase a woman’s risk of contracting ovarian cancer, so physicians often counsel these women to have their ovaries and fallopian tubes removed as a precaution.

“The problem is that even if you have these genetic mutations in the BRCA gene, you’re still probably not going to get ovarian cancer,” Barton said. “But if you do get it, the outcome is likely to be poor. The consequences are so bad that women with these mutations and women with strong family histories of ovarian cancer are just counseled to have their ovaries and fallopian tubes removed.”

Prophylactic salpingo-oophorectomy, or precautionary removal of healthy ovaries and fallopian tubes, isn’t a simple procedure, nor is it without consequence. It means loss of fertility, hormone replacement therapy to counteract the early onset of menopause, and the psychological toll that comes with both. The risk of cardiovascular disease after menopause, or after the procedure, increases as well.

“If you could go in to screen for cancer, and tell with certainty that a person is perfectly fine -- and have them return for another screening down the line -- then women wouldn’t be having these life-altering surgeries unless they’re absolutely necessary,” Barton said. “For women whose screenings show evidence of cancer, we could recommend they go ahead with the surgery, but at least they would know it was necessary, and maybe we could delay it to when they’re 45 instead of 35.”

Testing In Vivo

Barton’s collaborators include Dr. Kenneth Hatch, UA professor in the Division of Gynecologic Oncology, and Dr. John M. Heusinkveld, UA assistant professor and associate director of the Division of Female Pelvic Medicine and Reconstructive Surgery. Both are part of the Department of Obstetrics and Gynecology. She also has a team of optical sciences graduate students and recently graduated engineers helping with fabrication of the falloposcopes.

“I really like bridging the gap between medicine and engineering,” said Gabriella Romano, a recent biomedical engineering graduate who works in Barton’s lab. “I think there are a lot of problems to be solved in the realm of cancer research.”

While Drs. Hatch and Heusinkveld will be testing the new device in real volunteers, they’ll be doing it as safely as possible, by only testing the device in patients already scheduled for a hysteroscopy or fallopian tube removal, and in those willing to volunteer as test subjects. Essentially, the falloposcope will be tagging along with the hysteroscope, adding very little time to the procedure and virtually no additional risk to the patient.

“If we were just doing a hysteroscopy, a possible risk to the patient would be damage to the fallopian tubes,” Dr. Heusinkveld said. “But in this case, we’re taking the tubes out anyway, so it essentially eliminates risk to the volunteer.”

In fact, if the falloposcope does, by some chance, damage the fallopian tubes, Barton and her team will be able to examine the damage to the removed tissue to see what went wrong, and make adjustments accordingly.

While this study will not answer the question of whether or not researchers can actually detect early ovarian cancer in vivo, it will show that they can conduct the falloposcope procedure in a living human and gain quality images.

“Ideally, this study will leave us with a really robust imaging system for getting high-quality images of normal fallopian tubes and ovaries, and procedures that work smoothly every time in the operating room,” Barton said. “Thus, we’ll have our baseline to start our next study, which would be to do this in high-risk women who are undergoing salpingo-oophorectomy.”

Barton's Cancer-Detection Tools