Next-Generation Imaging Key to Fighting Advanced Prostate Cancer

Study shows more advanced and accurate imaging improves diagnosis and disease detection


Koh
Koh

An excerpted version of this article appears below.  Read the full article in the March print issue of RSNA News and access the Radiology study linked below.

Prostate cancer will affect one out of every nine men in their lifetimes, making it one of the most commonly diagnosed cancers and one of the leading causes of cancer death among men. But next-generation imaging modalities continue to make advances in defining the presence and extent of the disease, helping physicians deliver better care.

In a review article in Radiology, “Imaging Diagnosis and Follow-up of Advanced Prostate Cancer: Clinical Perspectives and State of the Art,” researchers analyze whole-body MRI, molecular imaging with combined PET and CT, and combined PET and MRI using various radiopharmaceuticals.

“We wanted to look at what are the imaging technologies that can help physicians to refine their understanding of the disease,” said Dow-Mu Koh, MD, a study author. “We are always trying to improve patient outcomes.”

Prostate cancer often spreads to the bones, lymph nodes, liver, lungs and — rarely — the brain. Up to 62% of patients with newly diagnosed metastatic prostate cancer have metastatic disease confined to the skeletal system. But both CT and bone scanning have limitations in detecting disease and treatment success, which contributes to poor patient outcomes, according to the Radiology study.

Through more accurate local staging, earlier detection of metastatic disease, and assessment of treatment response, next-generation imaging may improve the assessment of advanced stage prostate cancer and patient survival.

Imaging Improves Sensitivity,  Specificity, Accuracy

In terms of assessing advanced prostate cancer, researchers determined that PET/ CT is significantly superior to CT alone in terms of specificity and sensitivity. In one meta-analysis of 609 patients, the sensitivity and specificity of radiolabeled choline derivatives C11 and 18F choline PET/CT for pelvic lymph node metastases were 62% and 92%, respectively. Using CT, diagnostic sensitivity in detecting nodal masses is approximately 40% in patients with prostate cancer, according to the review.

Researchers determined that whole-body diffusion-weighted (DW) MRI and molecular imaging will play increasing roles in defining the presence and extent of metastatic disease.

Whole-body DW MRI, which does not require contrast, can be used to assess tumor response without the ‘flare’ phenomenon, which can occur post-treatment and mislead early response assessment. Whole-body DW MRI can also depict complications, such as malignant spinal cord compression, fractures, or genitourinary tract obstructions.

In terms of detecting bone metastases, whole-body MRI has proven to be more sensitive than bone scanning and choline PET/CT on a per-patient basis, although choline PET/CT showed higher specificity in one study, Dr. Koh said.

“Our review finds that the next-generation imaging tools are clearly much more sensitive, specific and accurate in demonstrating advanced disease in bones and soft tissue,” Dr. Koh said.

For More Information

Access the Radiology study, “Imaging Diagnosis and Follow-up of Advanced Prostate Cancer: Clinical Perspectives and State of the Art.”

Read the full article in the March print issue of RSNA News and access the Radiology study linked above.