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New Imaging Test Can Detect Amyloid-Related Heart Failure
A type of heart failure caused by a build-up of amyloid can be accurately diagnosed and prognosticated with a new imaging technique, eliminating the need for a biopsy, according to a study led by researchers at Columbia University Medical Center (CUMC).
The technique may also detect the condition—called transthyretin-related cardiac amyloidosis (ATTR-CA)—before it progresses to advanced heart failure, said study leader Mathew S. Maurer, MD. The findings were published in JAMA Cardiology.
“This is a huge advance for patients with ATTR-CA, which is under-recognized and often misdiagnosed,” said co-first author Adam Castano, MD. “This test will spare certain patients from having to undergo a biopsy in order to get a definitive diagnosis. Many people with ATTR-CA are frail and elderly, so being able to avoid a biopsy, even when it can be done with a less-invasive catheter-based procedure, is a significant step forward.”
ATTR-CA is one of many types of amyloidosis, a condition in which a protein breaks down and forms fibrils that deposit in organs and tissues, eventually causing the organs to fail. In ATTR-CA, the transthyretin protein breaks down and forms amyloid fibrils, which mainly accumulate in the heart, disrupting its function. Different types of amyloidosis require different treatments; therefore, obtaining an accurate diagnosis is critical.
ATTR-CA resulting from a normal variant of the transthyretin protein has a prevalence of approximately 32% in patients with heart failure over the age of 75 years at autopsy. The prevalence in hospitalized patients with heart failure is approximately 13%. ATTR-CA can also result from a mutated form of the transthyretin protein, which can be inherited from one generation to the next. The prevalence of inherited ATTR-CA is not known, but the most common mutation in the United States is present in 3% to 4% of African-Americans.
The diagnostic tool evaluated in the study was derived from bone scintigraphy, a form of single-photon emission computed tomography (SPECT) that is conventionally used to detect bone cancer. In bone scintigraphy, patients are injected with a radioactive isotope with a particular affinity for bone that has remodeled because of bone cancer. Early on, researchers noticed that the isotope technetium 99m pyrophosphate (Tc 99m PYP) also gravitates to amyloid deposits in the heart, a defining characteristic of ATTR-CA.
The researchers examined the diagnostic accuracy of the Tc 99m PYP test for ATTR-CA in a retrospective study of 179 amyloidosis patients (121 with ATTR and 50 with other types) who were evaluated at three leading amyloidosis centers (CUMC, the Mayo Clinic, and Boston University School of Medicine). The imaging scans were compared with tissue biopsy results––the “gold standard” for diagnosing ATTR.
The researchers found that the imaging test was able to correctly identify ATTR in 91% of patients diagnosed with the disease, and was able to rule out ATTR-CA in 92% of those with other forms of amyloidosis or no amyloidosis.
The findings build on a recent international study published in Circulation, which showed that the test was highly reliable in diagnosing ATTR-CA and that when another form of amyloid called light-chain was ruled out with a blood test, a confirmatory biopsy was no longer needed.
The current study adds to these findings with the development of a computer algorithm that provides an objective analysis of the scans. Currently, radiologists assign a visual score of 0, 1, 2, or 3 to each scan, depending on the concentration of isotope that collects in the heart. The algorithm used in the study automatically calculates a more-quantitative score, comparing the concentration in the heart with a similar area in the opposite side of the chest.
Using this algorithm, the team found that patients with a ratio of 1.6 or greater were approximately four times more likely to die from ATTR-CA during the median follow-up period of one year compared with those with a ratio of less than 1.6.
At present, there are no effective treatments for ATTR-CA. However, several promising drugs for the disease are in phase 3 clinical trials.
“Ideally, we’ll be able to use this imaging test to detect ATTR-CA well before it develops into advanced heart failure, and then intervene with one of these new therapies, but further study of this test is required to determine how early in the natural history of this disease it can detect amyloid in the heart,” Castano said.
Source: Medical Xpress; August 24, 2016.