Product images courtesy of Auris Health
Lung cancer kills about 150,000 Americans each year. But when it is detected early, survival rates improve exponentially. UConn Health is the first hospital in New England to use a new robotic technology to diagnose cancer sooner, getting patients the treatment they need and saving lives.
Supporters of U.S. Supreme Court Justice Ruth Bader Ginsburg breathed a collective sigh of relief this winter after two cancerous nodules were successfully removed from her left lung through a lobectomy. Ginsburg’s cancer was found during the routine testing done after the fit 85-year-old fractured several ribs in a fall, and for a moment the diagnosis cracked the seemingly invincible façade of the octogenarian icon.
Although Ginsburg’s cancer was found by chance, her story is a great example of how early detection and swift action can improve the likelihood of survival for lung cancer, the deadliest cancer for both men and women in the U.S. by a wide margin. More people die of lung cancer each year than of colon, breast, and prostate cancers combined, and more than half of people with lung cancer die within a year of being diagnosed, according to the American Lung Association.
But when the cancer is detected early, before it spreads beyond the lungs, the five-year survival rate jumps from 5 percent to 56 percent. The problem is, just 16 percent of lung cancer diagnoses come at an early stage, American Lung Association statistics show. Since lung cancer is the second most common cancer in both men and women, proper screening for those at risk could save tens of thousands of lives.
A revolutionary precision technology now at UConn Health is making early diagnosis easier than ever.
UConn Health is the first hospital in New England and among the first in the nation to offer robotic bronchoscopy on the Monarch platform from Auris Health, allowing physicians to quickly diagnose lesions detected through low-dose CT scans, including those that are small or in hard-to-reach parts of the lung.
“Before this technology, the targets would’ve had to be bigger. I wouldn’t be able to make certain angles without the robotic arm to navigate,” says Dr. Omar Ibrahim, UConn Health director of thoracic oncology and interventional pulmonology. “I have a higher degree of confidence and accuracy with this than with prior equipment.
“The ability to diagnose the cancers at an earlier stage will allow us to surgically manage the disease,” he says. “This is the only chance for a cure.”
The Monarch platform’s advanced, precision endoscope allows physicians to access hard-to-reach parts of the lungs and their bronchi and to diagnose lesions earlier than ever before.
With its user-friendly, video-game-style controller, the Monarch platform allows the physician to move the endoscope up and down, left and right, forward and backward through a lung and its bronchi. Buttons on the controller make the scope of view bigger or smaller, while others control suction or irrigation. Procedures are done in the operating room under general anesthesia. Within about an hour, the doctor will biopsy the suspicious nodule and a lymph node for analysis by a pathologist. The patient can go home the same day.
If cancer is confirmed in the lung, it will then be staged to see how far it has advanced. A team of cancer specialists then develop an individualized treatment plan that is ideal for the patient and their specific type and stage of cancer. A patient’s treatment plan might include surgery to remove a small portion of the lung or the entire lung, radiation therapy, chemotherapy, medications,
Not only does earlier diagnosis improve patients’ chances for survival, but it also helps reduce unnecessary stress, says Wendy Thibodeau, the lung cancer nurse navigator at UConn Health’s Carole and Ray Neag Comprehensive Cancer Center.
“We have had patients where initial and subsequent biopsies are inconclusive. A decision then has to be made: remove the nodule surgically, or watch it for growth,” Thibodeau says.
“This can be stressful on a patient. They either have to go through a significant procedure they may not have needed or wait to see if the nodule gets worse. This technology will give us better accuracy for appropriate tissue sampling, making the decision more clear.”
Routine screenings of high-risk patients — those with histories of smoking, especially — using low-dose CT scans and minimally invasive techniques help detect lesions and diagnose more people all the time.
The Monarch platform is the next step in improving outcomes for lung cancer patients, and Ibrahim sees even more groundbreaking advances on the horizon.
“Within the next year or two, this technology should allow us to treat lesions with radiofrequency ablation [a minimally invasive procedure that uses heat to destroy cancer cells],” Ibrahim says. “Diagnosis and treatment could be done all at the same time.”
In his time at UConn Health, Ibrahim has worked to improve the experience of UConn Health’s lung cancer patients, particularly through a multidisciplinary team that allows patients to come to one clinic to see a variety of doctors.
“Since we’ve enhanced and personalized the way we care for lung cancer, the number of lung cancer patients at UConn Health has quickly increased,” says Ibrahim. “Time to diagnosis and treatment is tremendously shorter, and patients are happier with the quality of their care.”
He believes the robotic bronchoscopy technology will allow the team to deliver even better results.
“The accuracy of this is going to pan out to be second to none,” says Ibrahim. “I think this is the tip of the iceberg in diagnosis, and the therapeutic aspect of it, which will evolve over time, is really exciting. Being at the forefront of that is amazing.”
Dr. Omar Ibrahim, UConn Health director of thoracic oncology and interventional pulmonology, demonstrates the Monarch technology.