Andrew Harder wondered for three years if he had prostate cancer. In 2009, he had routine blood work that revealed an elevated prostate-specific antigen (PSA) level. When PSA is above 4 nanograms per milliliter of blood, it can be one of the first signs of a prostate tumor. Harder's PSA was 9.
By the time Harder saw a urologist, it had skyrocketed to 20. His doctor recommended the traditional next step: a transrectal ultrasound (TRUS) biopsy, which involves taking random tissue samples from 12 cross sections of the prostate.
‘Magnetic resonance imaging and targeted biopsy for the prostate have provided relief for patients who have not been able to get an accurate diagnosis. When caught early, prostate cancer is highly treatable.’
Over the course of two years, Harder, 60, an MRI technologist, would have three TRUS biopsies. They were all inconclusive. "It is frustrating to have a bunch of biopsies with a rising PSA and no proof of cancer," Harder said.
After Harder's third biopsy, his urologist was ready to throw in the towel, and that's when Harder was referred to Jinxing Yu, M.D., at VCU Health. By then, Harder's PSA was around 30. Yu is the director of oncologic and prostate imaging in the Department of Radiology at VCU. Over the past five years, he has developed diagnostic techniques using MRI technology to investigate difficult cases like Harder's.
After one MRI, Yu found Harder's tumor. After that, Yu performed a targeted biopsy guided by the MRI scanner, allowing him to take tissue samples directly from the tumor. Harder finally had a diagnosis.
In 2012, he started on a treatment plan: hormone therapy for six months to shrink the tumor and prostate, and then external beam radiation to finish the job. Today, his PSA is normal.
Other patients who continue to hit a brick wall with negative results from TRUS biopsies yet persistently high PSA levels may not be as fortunate.
"A patient had 10 TRUS biopsies and his doctors still couldn't find a tumor," Yu said. "If you do not have this kind of advanced imaging, sometimes a patient runs into a situation when a tumor can't be found and treated because it's too late - it has already metastasized. He ends up diagnosed with cancer only after the tumor has spread to his bone or lymph nodes years later."
Precise imaging leads to detection
Magnetic resonance imaging and targeted biopsy for the prostate have provided relief for patients like Harder who have not been able to get an accurate diagnosis. When caught early, prostate cancer is highly treatable.
Much like someone would have an MRI to investigate the cause of back pain, the technology gives doctors eyes on what is happening in prostate tissue. VCU Medical Center is one of the major teaching hospitals in the country doing advanced multiparametric MRI, which involves taking three different types of imaging sequences of the prostate.
Each of the sequences - T2 weighted imaging, diffusion-weighted imaging and dynamic contrast enhanced imaging - tells a story, and together they can be used to make a diagnosis with more than 90 percent accuracy.
Interpreting a prostate MRI to be able to correctly diagnose cancer is a skill that can take years to develop. Yu and his team look for certain patterns that are typical of cancer on each of the different sequences.
"If we put those characteristic features together from each sequence then we can say with a high degree of confidence that this area is concerning for cancer and potentially target it for biopsy," said Sarah Winks, M.D., an attending physician in the Department of Radiology.
An MRI can also help determine how aggressive a tumor is, Yu said, and indicates if the tumor extends outside of the prostate and involves other areas - all information that helps urologists and radiation oncologists determine the best course of treatment.
Traditional meets emerging technology
In addition to enhancing detection of prostate cancer, magnetic resonance technology also enhances the biopsy process with a procedure called magnetic resonance/ultrasound fusion biopsy. MRI scans are overlaid with real-time ultrasound images to guide the biopsy needle to the tumor.
In 2014, VCU Health's Department of Radiology, supported by the Division of Urology in the Department of Surgery, purchased ultrasound/MRI fusion biopsy equipment. Prior to this, Yu's team had performed targeted MRI biopsies with the patient being moved in and out of the MRI scanner as the needle was guided to the target area - a sort of stop-motion procedure that could take up to an hour. The new equipment has simplified and shortened the process to about 20 minutes.
A study published in 2015 by the Center for Cancer Research found that fusion biopsy is 30 percent more accurate in diagnosing high-risk, aggressive cancers than a TRUS biopsy. It is also much better at finding tumors in the anterior part of the prostate, near where Harder's tumor was located. Yu credits the technology and also having a dedicated team that can perform multiparametric-MRI, read the MRI scans and conduct biopsies with a very high success rate.
"At most places, there will be a radiologist reading the MR image and a clinician performing the biopsy. The person reading the image and person putting in the needle is different," Yu said. "Sometimes you don't get the same result. We do both. That's one of our strengths."
New path to diagnosis
Yu has seen how MRI technology has changed prostate patients' care. "Five years ago, 95 percent of patients with prostate cancer or a high PSA would never get any imaging," Yu said. "Right now, I think probably 50 or 60 percent get imaging."