From PeoplePets.com Photo byÂ Jonathan Sprague
At first glance, cancer researcher Michael McCullochâ€™s lab at the Pine Street Foundation in San Rafael, Calif., looks predictably humdrum â€“ a computer, a few beakers and some vials. And yet, if you look a little closer, thereâ€™s something downright peculiar about the place. Most notably, the water bowls, leashes and the roll of paper towels used for sopping up slobber.
For the past 10 years, McCulloch, an acupuncturist by training, has been exploring whether the sensitive nose of his furry, four-legged research subjects can detect cancer. And after hearing accounts of canines that reportedly saved the lives of their human owners by sniffing, pawing and barking at their tumors (long before being diagnosed by a physician), he has been grappling with a thought-provoking theory: If a dog can do that spontaneously, that suggests they can be trained to do it.
The idea isnâ€™t as far-fetched as it sounds, insists Dr. J. Leonard Lichtenfeld, the American Cancer Society’s deputy chief medical officer. “An enormous amount of research is being done to find those proteins present in small quantities in the bloodstream that may signal cancer,” Lichtenfeld tells PEOPLE. “That a dog could smell these is definitely within the realm of possibility.”
McCulloch first became aware of the concept that certain diseases can be detected in a personâ€™s breath from an ancient medical text in the early 1980s while studying acupuncture in Taiwan and mainland China. In 2003, he and his colleagues at the Pine Street Foundation began collecting breath samples from nearly a hundred lung and breast cancer patients. Next, they went to work developing a technique to train a group of dogs to sniff out the samples in much the same way law-enforcement personnel teach canines to use their noses to find narcotics and explosives.
What they learned was truly explosive. It turned out his canine research subjects and their sensitive noses could detect lung cancer 99 percent of the time and had an 88-percent accuracy rate for breast cancer. What McCulloch thinks the dogs are detecting is metabolic waste “from the tumor cells, which is chemically different from normal cells. The waste travels through the bloodstream and is exhaled out through the lungs.”
McCulloch recently began working on a follow-up study funded by the federal government and private donations. Last year, they began collecting breath samples from women recently diagnosed with ovarian cancer, known as a particularly aggressive, fast-growing type of cancer cell rarely detected in its early stages. Once again, McCulloch and his team set out to determine if the dogs could be trained to accurately locate the samples â€“ held in fist-sized plastic tubes â€“ when hidden amongst four other similar tubes containing breath samples from healthy adults.
Although the full results of the study wonâ€™t be known until December, so far the canines have displayed uncanny accuracy. Which leads McCulloch to wonder if perhaps some day a womanâ€™s breath sample might prove to be a more accurate and earlier way to detect ovarian cancer than the commonly used blood test or ultrasound?
“What does all this mean?” asks McCulloch. “I think part of the answer is that whenever you see dogs greeting each other out on the street, sniffing each other out, theyâ€™re probably asking a very simple question: â€˜Howâ€™s your health today?â€™ “