Latest news with #CCTA
Medscape
2 days ago
- Health
- Medscape
Jun 20 2025 This Week in Cardiology
Please note that the text below is not a full transcript and has not been copyedited. For more insight and commentary on these stories, subscribe to the This Week in Cardiology podcast , download the Medscape app or subscribe on Apple Podcasts, Spotify, or your preferred podcast provider. This podcast is intended for healthcare professionals only. In This Week's Podcast For the week ending June 20, 2025, John Mandrola, MD, comments on the following topics: a big, deep dive into CTA and fractional flow reserve CT, and a sobering report on the new EVOQUE valve. Mark Petrie from the UK writes to correct my description of the CRAAFT-HF trial. I mistakenly said it was a surgical vs catheter ablation trial, but Dr Petrie said that they were actually randomizing to atrial fibrillation (AF) ablation plus heart failure with reduced ejection fraction (HFrEF) medical therapy vs HFrEF medical therapy alone in patients with left ventricular dysfunction. Saturday is the first day of summer. Where has the time gone? There is a spot at the halfway point of our 5 AM ride, about 20 miles out in the country that the sun rises over a farm on a hill. It's a hot spot on the ride but once a year I try to convince the crew to stop for a photo. Imaging and Behavior Change Five Reasons I Don't Believe an Imaging Test Improves Outcomes My friends in Edinburgh, who have been leaders in the use of coronary computed tomographic angiography (CCTA), report on a nested substudy within the SCOT-HEART 2 trial. Let's start with SCOT-HEART 1, which randomized symptomatic patients (stable CP) to receive CTA plus standard care vs standard care alone — which often included functional stress testing. CCTA-led care led to a significantly lower rate of death from cardiovascular (CV) death and nonfatal myocardial infarction (2.3 vs 3.9%). This seemed like a big win for CCTA, but the controversy centered on the fact that the small delta in statin use in the two groups (more in the CTA) was nowhere near enough to drive the large reduction in myocardial infarction (MI). For instance, I cited Andrew Foy, who calculated that to believe statin therapy drove SCOT-HEART, you'd have to believe statins have a number needed to treat (NNT) of 3, not its normal 50-100. Nonetheless, the use of CCTA is different in cost-constrained systems like Scotland. In Scotland, it is used to reduce coronary angiography and PCI. Knowledge of coronary artery disease (CAD) is used to guide medical therapy, and there is no incentive to do more angiography. In the United States, CCTA is used as a cash machine, because the nanosecond an American patient and American doctor see CAD, the patient gets a hotline to the cath lab and PCI. The problem, of course, with anatomical testing is that you can have twinge of chest pain from a cramp and if you have incidental CAD, boom, you now have lifelong dependence on antiplatelet. Now to the SCOT-HEART 2 trial, which is a randomized controlled trial (RCT) using CTA. The study question is this: Is screening with CTA more clinically effective than CV risk scoring with an equation? The plan is to enroll at least 6000 people (not patients, people ) in Scotland who are at risk of heart disease to CTA-guided management vs equation-guided management. They will use an equation called ASSIGN, which is like the pooled cohort equation (it only uses outcome data from Scotland) and includes the social deprivation score. Those in the equation (or standard care) arm get lifestyle advice and lipid-lowering therapy (LLT) for 10-year risk > 10%. Those in the CTA arm get lifestyle advice for normal CTA, lifestyle advice, plus LLT and aspiring for non-obstructive disease, and for those with obstructive disease, they get lifestyle advice, LLT, aspirin, ACE inhibitor plus review by a cardiologist. At 5 years, the primary outcome is coronary death or MI. There are lots of secondary outcomes. JAMA Cardiology has published a nested cohort study within SCOT-HEART 2 looking at a primary outcome of the proportion of participants who achieved the National Institute for Health and Care Excellence (NICE) recommendations for diet, BMI, smoking and exercise. Diet, smoking and exercise were self-reported, and weight, BMI, and step count were measured. The study population included 400 people enrolled over 4 years, which does not seem like a lot. At 6 months, those in the CTA screening were more likely to meet the primary composite endpoint of compliance with the NICE recommendations for diet, BMI, smoking and exercise — it was 17% vs 6%. These seem low but that's because people had to reach all four of the components. The relative risk increase was an odds ratio of 3.4 times more likely to achieve these four goals in the CTA group. Other secondary findings were that fewer participants in the CTA group were recommended for LLT (51% vs 75%). That's because the risk score placed more above 10% but with normal CTA, LLT was not given. Even though fewer LLTs were recommended with CTA, acceptance of LLT was higher in the CTA group, 77% vs 46%. In the end, statistically similar numbers of patients took LLT in both groups (44% vs 35%). Antiplatelet use was much higher in the CTA group, 40% vs 0.5%. The authors broke down secondary outcomes based on whether CTA showed disease, and this associated with slightly lower weight, BMI, waist circumference, blood pressure, total and LDL cholesterol concentrations, and greater improvements in daily step count. Another interesting twist was that 100 individuals in the CTA arm were given a verbal report of their CTA and the 100 were shown their images. No differences were seen in the two subgroups for the primary and secondary outcomes. The authors were pretty calm in their conclusions. They note these interesting observations, that CTA resulted in more accurate risk stratification where some patients with high equation risk had no disease and some patients with low equation risk had disease. CTA did increase acceptance of lipid-lowering therapy as well as increase the proportion of patients reaching lifestyle goals. The obvious take-home message here is that this data supports the seeing-is-believing idea. The editorialists wrote enthusiastically that: 'the results of this nested randomized clinical trial within the SCOT-HEART 2 study are striking. A preventive strategy incorporating CCTA appeared to be not only more precise but also more motivating to participants and clinicians. CCTA reclassified 1 in 3 individuals based on 10-year risk score, targeting therapy to those who were assumed to derive greatest benefit.' I laud the Edinburgh team for doing SCOT-HEART 2. But the differences in verbal acceptance of lifestyle, or LLT use, or aspirin use, or tiny blood pressure (BP) changes are not what we care about. The only outcome is MI or coronary death. When you submit a person with no disease to medical imaging, it ought not be for motivation. It should only be for their health benefit. The changes in lifestyle or drug use or more precise risk stratification are made up surrogate endpoints that have meaning only if there is a difference in outcomes. I strongly oppose the use of imaging to scare patients into taking statins or not eating chips. In Scotland, the downstream effects of CTA may be different than in the US. Here, it is highly likely that seeing disease will affect future interventions. Let's say there is mild disease noted on a screening CTA. Maybe the US patient is given statins and aspirin. Well, what do you think happens in the months or years to come the next time that patient has a twinge of CP? It's right to the ER and then the cath lab for stents or bypass. We need to celebrate the fact that SCOT-HEART 2 will be done, but until then, we need to resist the urge to image our patients based on minor differences in surrogate endpoints, some of which are self-reported. Heart disease treatment and prevention is simple: it's lifestyle (including diet and exercise), possibly lipid-lowering therapy. Imaging is not required and should not be done until there is evidence it improves outcomes. Symptoms Don't Always Indicate the Severity of Coronary Artery Disease JACC-CV Interventions has published a research letter looking at the association between cardiac symptoms and coronary plaque. I will call this a back-to-the-future study with modern imaging confirming a lesson that Dr Bernard Lown described a half-century ago Only now we get to toss around terms like fractional flow reserve, total plaque atheroma, and — sit down for this one — artificial intelligence–enabled quantitative coronary plaque analysis (AI-QCPA) tools. I will speak about the letter, which is modest, but the main thing that happened is that it caused me to look into the FFR-CT data. And OMG. The researchers used data from the ADVANCE registry, which was a 5000-patient registry from multiple centers done to assess how often FFR-CT changes management vs regular CT. The sample included about 4300 patients who referred for coronary CT and had a coronary lesion. Symptoms were characterized by a) squeezing chest or neck pain, b) pain precipitated by exertion, c) relieved by nitrates or rest. Typical angina had all three; atypical angina had 2 of 3, noncardiac had one, and there was also a group with dyspnea only. There were five groups of patients: 25% no symptoms 10% dyspnea only 6% noncardiac 37% atypical chest pain 22% typical angina Now pause. The authors had total plaque volume and FFR-CT on each of these patients. Then they just did correlations. And they found, with these correlations: Only typical angina had a positive correlation with plaque atheroma. Typical angina also correlated strongly with negative values of FFR-CT. The authors also noted, surprisingly, that atypical chest pain, noncardiac chest pain, and dyspnea each correlated with higher FFR-CT, greater than 0.8 suggestive of normal flow. The authors and imaging proponents seem excited about this. In a Medscape news article, one of the authors says: 'Even having no symptoms was not a reliable indicator of cardiovascular health in these patients. Just because a patient doesn't report any symptoms doesn't mean there is no atherosclerosis.' Also quoted in the news article, Matthew Budoff, MD, a cardiologist at UCLA said: 'cardiologists rely heavily on symptoms to determine how severe cardiovascular disease is, but the new research is beginning to dispel that idea.' Budoff also added that: 'the new findings support the idea CT angiography should be a bigger part of the diagnostic process, so clinicians can look not only at whether a patient has stenosis but also go beyond to see if they have any atherosclerosis or plaque that might be a target for medical therapy.' This letter seems so funny to me. One of the first lessons we were taught at Indiana University in the 1990s was that when a patient presented with typical angina and even a positive stress test, that catheterization would show left main or severe triple vessel disease about 10%, it would be normal in 10%, and somewhere in between in 80%. In other words, symptoms are a very unreliable marker of CAD. Now we have a study that uses have artificial intelligence (AI), CT, FFR, and multivariable regression to confirm something that's as old as the hills. I don't agree with Dr Budoff that cardiologists rely heavily on symptoms. At least not in many places in the US. The main requirement for a stress test in the US is insurance coverage and the main requirement for a cath is a wrist. We don't rely on symptoms. We rely on imaging and angiography. I have this saying that I don't say too much anymore but think often: If every stress imaging machine broke for a month, heart disease outcomes would not change. I wonder whether this also applies to CTA imaging and surely to FFR-CT. A colleague tells me that FFR-CT adds $1500 to basic CTA. I find that shocking. Now I want to go to the advance registry paper in 2018. The main value in this research letter was a kick in the butt to go back to the original evidence for this FFR-CT business, the publication of the ADVANCE registry in the European Heart Journal in 2018. First author Fairbairn. This will be a trigger warning because this is one of those things you can't unsee or unhear. ADVANCE registry included about 5000 patients with symptoms concerning for CAD and atherosclerosis on CCTA. The authors recorded the basic info, symptoms, CCTA and FFR-CT findings were recorded along with treatment plans. They also had 90-day outcomes. For each enrolled patient, a clinical management review committee used data from coronary CTA to determine the management plan using the following criteria: (a) optimal medical therapy, (b) percutaneous coronary intervention (PCI), (c) coronary artery bypass graft surgery (CABG), or (d) more information required. The primary endpoint of the registry is the reclassification rate between the management plan based on coronary CTA alone vs CTA plus FFR-CT. Two teams came up with the original plan based only on CTA. A site team and a blinded core team from Duke. The primary endpoint was the reclassification of the treatment plan from the CT-FFR results. The primary results were that it changed management in about two-thirds of the cases. It was hard for me to see a pattern in the reclassification. The authors tell us later that the majority of subjects were safely deferred to medical management alone, and only a minority required 'further testing.' A second finding was that rate of no significant disease at angiography was significantly lower in patients who had a positive FFR < 0.8 (about 15%) vs > 0.8 (44%). Odds ratio for no significant disease was 0.19 for a positive FFR (that is < 0.8) A third finding was that 19 MACE events happened in the 90 days after the study, 10 of them were death, and all happened in the FFR < 0.8 category — 19 vs 0. The authors concluded that FFR-CT was great. It guided management, helped predict no disease, and even had a strong association with MACE events. They noted this: 'FFR-CT led to a recommendation of invasive coronary angiography (ICA) in only 40% of subjects in a cohort with an anatomic obstructive disease rate of 72%, and subjects referred for ICA downstream were significantly more likely to have obstructive disease at ICA if they had a positive FFR-CT.' And this: 'Importantly, a negative FFR-CT was associated with an excellent short-term prognosis, as none of the 1600 subjects with negative FFR-CT experienced death, MI, or unplanned hospitalization for ACS and urgent revascularization.' A colleague in imaging advises me that this was one of the major studies cited to establish FFR-CT. My gosh, this is terrible. What a mess. First of all, the study was sponsored by HeartFlow. It was a late-breaker at ESC in 2018. I must have had jet lag because I missed it. Much of my criticism follows a Twitter thread from my friend Venk Murthy at University of Michigan. A primary endpoint in change in management in a voluntary registry sponsored by the company is about as weak an endpoint as you can get. Why isn't this a measurement of clinical psychology? What if you chose, say, in a non-industry-funded study, a doctor team skeptical of FFR-CT. I bet few would be swayed by the CT-FFR results. Another problem was that most of the FFR-CT values were abnormal in the left anterior descending artery (LAD) and were between 0.7-0.85. We know this from the IQR values. But now I will cite a study from Christopher Cook in Darrell Francis' group published in JAMA Cardiology 2017. What this London group found is that when doing a systematic review of all studies measuring the diagnostic accuracy of FFR-CT, they found that values just under the cutoff of 0.8 (that is, between 0.7 and 0.8) had the lowest accuracy — only 46% accurate. Pause there. That's like a coin flip. Cook et al report that if you want accuracy from FFR-CT, say 82% overall accuracy threshold, you needed values lower than 0.63 or above 0.83. And if you wanted more stringent 95% and 98% diagnostic accuracy thresholds from FFR-CT, you needed values lower than 0.53 or above 0.93, and lower than 0.47 or above 0.99, respectively. A third issue is that most of the patients (77%) were nontypical angina — either atypical or non-cardiac pain. But we know from the Manesh Patel seminal NEJM paper from 2010 that when patients with atypical symptoms go to cath, the chance of obstructive disease is low — regardless of the results of stress testing. In fact, a positive stress test only changed the likelihood of having CAD from 35% to 41%; hence, my stance that if every stress imaging machine broke, CV outcomes would hardly change. The point in citing this seminal paper is that most patients in the ADVANCE registry study — the 77% with atypical symptoms — should not have had a change in management. A fourth issue is that the MACE events are 100% noise — 19 vs 0. And 10 deaths in the first 90 days. I can't even believe they mentioned MACE events. The CI for the odds ratio goes from 1.2 to 326. The P-value, however, was calculated to be significant at .039, which is crazy. So, in sum, this is one of the weakest, late-breaking, practicing-changing trials I have seen. It's a psychology experiment and we have no idea a) which treatment strategy was best, and b) what meaning is there in changing a treatment strategy without knowing which one is correct. If we wanted to know about FFR-CT, it's simple: you randomize people to care with the HeartFlow FFR-CT vs those without. Then you measure outcomes — MI, CV deaths, even urgent revascularization. But this was not done. Instead, FDA approves the HeartFlow, proponents and key opinion leaders speak highly of it, these studies are not highly criticized, and CT scans get $1500 added to them. HeartFlow was approved de novo in 2014 but received a 2019 clearance for 'virtual modeling.' When I asked my AI friend Claude to explain the difference between the two designations — 2014 and 2019 — one of the 'significant' points was a business model expansion wherein the original FFR-CT was a one-time diagnostic test, but the 'planner (the virtual modeling) creates additional revenue opportunities for each patient who needs intervention.' And then this: the 2019 decision Expands HeartFlow's market from diagnosis into treatment planning. My AI program Claude must not know I am a critical appraiser because it then wrote: Physicians can now use HeartFlow for the entire patient journey: diagnosis → treatment planning → post-intervention assessment. This creates much stronger physician adoption and stickiness. And it makes the cost–benefit analysis more favorable since one CT scan can support multiple clinical decisions. The 2019 Planner approval was huge for HeartFlow because it transformed them from a diagnostic company into a comprehensive coronary care platform. Instead of just answering "Does this patient need a catheterization?", they can now answer: "Exactly how should we treat this patient's disease?" This is why HeartFlow's valuation and market penetration accelerated significantly after 2019. They weren't just competing with stress tests anymore; they were competing with the entire invasive workup process. I had no idea this stuff was happening. What a tragic waste of money. This may be one of the lowest value medical interventions I have seen. And you think I am wrong to be hopeful about FDA new leadership. Regulators should have required an RCT. Since they did not require and RCT, physicians should. Companies are not nefarious. They simply jump over the bar we hold for them. In this case the bar was ridiculously low. Speaking about lax FDA regulation, JACC has published a sobering research letter on the transcatheter tricuspid valve replacement called the EVOQUE valve. This one is also really scary. On this I hardly need commentary; I can just tell you the data. First author was Lior Lupu. FDA approved the valve in February 2024. This was based on the pivotal TRISCEND II trial, which was driven quality-of-life measures, not hard outcomes, and was not blinded. Thus, placebo effects were surely present. The group of authors from Washington, DC used the MAUDE database at FDA, which stands for Manufacturer and User Facility Device Experience. It contains information about device malfunctions, injuries, and deaths associated with medical devices that have been reported by manufacturers, healthcare facilities, and users. The main weakness of MAUDE is that there is no denominator and it's voluntary. In the year since approval, the research team found 150 reports on EVOQUE that describe 158 events. 1. Bradycardia or high degree atrioventricular (AV) block was most common (n = 70 or 44%) and there were 2 deaths. 66 of the 70 required pacemakers. Most were detected at the implant however a third were seen later between days 3 and 90. 2. Device malposition, migration, or embolization occurred in 33 patients (20.9%), causing 6 deaths. Most events were diagnosed within 3 months: 76% intraprocedurally, 14% within 2 days, and 7% between 3 days and 3 months. Management included transcatheter valve-in-valve implantation in 10 cases (eg, SAPIEN-in-Evoque), with 2 requiring a second valve for optimization. Two patients underwent transcatheter treatment for paravalvular leak, while 16 required surgery. 3. EVOQUE leaflet thickening or thrombus was identified in 20 patients (12.7%), with clinical or hemodynamic consequences reported in 16 of the 20. Cases were detected within the first month (56.3%), between months 2 and 6 (25.1%), and after 1 year (18.8%). Management included thrombolysis (n = 4), transcatheter valve-in-valve implantation (n = 2; 1 also had device migration), and surgery (1 patient with severe postprocedural thrombosis with hemodynamic instability). 4. Cardiac tamponade was reported in 8 patients (5.1%), with 5 patients undergoing surgery and 4 deaths. 5. Venous injury or bleeding occurred in 8 patients (5.1%), with 2 deaths. 6. Five cases of ventricular tachycardia, fibrillation, or cardiac arrest were reported: 2 intraprocedurally and 3 postprocedurally (days 0, 4, and 7). 7. Mechanical failure of the delivery catheter was reported in 4 patients (2.5%), all due to nose cone separation. The authors write that while bradycardia, tamponade, valve injury, and valve thrombosis had been reported in the trial, valve malposition, migration, or embolization — the second most frequently reported adverse event in this research letter — were not reported in the trial. So, they were new discoveries. Also, additionally, 3 cases of ventricular arrhythmia or cardiac arrest were reported within the first postprocedural week without a definite etiology. Nose cone separation wherein the nose can go missing into the PA also occurred. Like I said, I hardly need comment because the list of complications is so sobering. Of course, MAUDE has no denominator, but on the other hand it is also voluntary, so this is likely underreporting. I would note that only 237 patients received a valve in the TRISCEND II pivotal trial. There were substantial complications noted. To me, this was quite lax regulation. First, there should have been a trial with a sham procedure. Quality-of-life metrics are meaningless when one group gets a procedure and the other group gets bland white tablets. Second, there should have been more patients in the trial. And third, the approval should have been contingent on a required database, such as that with TAVR. This report is really scary given the number of deaths. In fact, mortality from tricuspid valve surgery is the main reason transcatheter techniques were designed. In the transcript, I highlighted in orange font the number of deaths. I counted 14 deaths and 5 cases of ventricular tachycardia/cardiac arrest. Proponents may cite the learning curve, but I doubt it because I read that the company did a slow rollout where centers who were part of the trial were first. And you wonder why I am a medical conservative and slow adopter.
Medscape
09-06-2025
- Health
- Medscape
Low-Dose Colchicine May Help Stabilize Coronary Plaques
The LoDoCo2 trial found a reduced cardiovascular risk with low-dose colchicine in patients with chronic coronary disease. In this substudy, attenuation of pericoronary adipose tissue did not differ between patients receiving low-dose colchicine and those receiving placebo; however, people taking colchicine had a higher volume of dense calcified plaque, indicating improved plaque stability. METHODOLOGY: Elevated attenuation of pericoronary adipose tissue and a high burden of noncalcified plaque have been linked to adverse coronary outcomes caused by plaque rupture and instability; statins mitigate these risks by promoting plaque calcification. This cross-sectional substudy of the LoDoCo2 trial investigated if treatment with low-dose colchicine would attenuate coronary inflammation, as evidenced by less attenuation of pericoronary adipose tissue in 151 patients with chronic coronary disease (mean age, 64.4 years; 14% women). Patients were randomly assigned to receive either low-dose colchicine (0.5 mg once daily; n = 79) or placebo (n = 72). All patients had previously undergone coronary stenting at enrollment and were on antiplatelet and/or anticoagulant therapy; high-intensity statin therapy consisted of 40 mg and 80 mg doses of atorvastatin. After a median treatment duration of 28 months, coronary CT angiography (CCTA) was performed to evaluate the attenuation of pericoronary adipose tissue in the proximal segments of epicardial coronary arteries and to assess plaque characteristics. TAKEAWAY: Median attenuation did not differ significantly between the patients receiving colchicine and those receiving placebo. Compared with patients receiving placebo, those receiving colchicine showed a higher calcified plaque burden (adjusted difference, 2.4%), higher calcified plaque volume (adjusted difference, 59 mm 3 ), and higher volume of dense calcified plaque (adjusted difference, 61.5 mm 3 ; P < .05 for all). ), and higher volume of dense calcified plaque (adjusted difference, 61.5 mm ; < .05 for all). In patients on low-intensity statin therapy, colchicine treatment was associated with a lower burden of low-attenuation plaque, an effect not observed in those receiving high-intensity statins ( P for interaction = .037). IN PRACTICE: Low-dose colchicine was associated with an overall higher volume of calcified plaque, particularly dense calcified plaque, as well as a lower burden of low-attenuation plaque in participants treated with colchicine and low-intensity statins,' the researchers wrote. 'Although the cross-sectional design of the study limits causal inference, these are features of plaque stability and may partly explain the reduction in risk of cardiovascular events associated with colchicine in patients with chronic coronary disease.' SOURCE: This study was led by Aernoud T L Fiolet, MD, PhD, of University Medical Centre Utrecht, Utrecht, the Netherlands. It was published online on May 19, 2025, in Heart . LIMITATIONS: The researchers conducted this cross-sectional analysis at the end of treatment, without any baseline or temporal studies. This study had relatively fewer women than the proportion of women with cardiovascular disease in the general population. Additional imaging modalities were not used to confirm the findings from CCTA. DISCLOSURES: This study received grants from the Australian National Institutes of Health/National Heart, Lung, and Blood Institute, Withering Stichting Nederland, the Netherlands Heart Foundation, and the Netherlands Organisation for Health Research and Development. One author reported receiving software royalties from Cedars-Sinai Medical Center. Another author reported giving presentations, and three authors reported serving as consultants for pharmaceutical and healthcare companies without receiving any personal fees.
Yahoo
21-05-2025
- Health
- Yahoo
PREVENT equation accurately estimated 10-year CVD risk and those with calcium buildup
Research Highlights: The American Heart Association's PREVENTTM risk calculator accurately identified participants who had calcium buildup in their heart arteries and those who had a higher future heart attack risk, in an analysis of about 7,000 adults in New York City referred for heart disease screening. The PREVENT scores also predicted future heart attack risk. Embargoed until 4 a.m. CT/5 a.m. ET Wednesday, May 21, 2025 (NewMediaWire) - May 21, 2025 - DALLAS The PREVENTTM risk calculator helped to identify people with plaque buildup in the arteries of the heart, in addition to predicting their risk of a future heart attack, according to new research published today in the Journal of the American Heart Association, an open access, peer-reviewed journal of the American Heart Association. In addition, when combining PREVENT and a coronary calcium score, risk prediction was further improved, with patients with the highest risk of heart attack matched the group of participants who had a heart attack during the follow-up period. "These findings are important because when we can better predict a patient's risk of heart attack, we can also tailor care and determine who may benefit from treatment to prevent a heart attack, such as cholesterol-lowering medications," said corresponding author Morgan Grams, M.D., Ph.D., the Susan and Morris Mark Professor of Medicine and Population Health at New York University's Grossman School of Medicine in New York City. The PREVENT (Predicting Risk of cardiovascular disease EVENTs) risk calculator, released by the American Heart Association in 2023, can estimate 10-year and 30-year risk for heart attack, stroke, heart failure or all three in adults as young as age 30. PREVENT factors in age, blood pressure, cholesterol, body mass index, Type 2 diabetes status, social determinants of health, smoking and kidney function to estimate future risk of heart attack, stroke or heart failure. One tool for screening heart health is coronary computed tomography angiography (CCTA), a non-invasive imaging test that visualizes plaque buildup in the heart's arteries. From the CCTA, patients are given a coronary artery calcium (CAC) score, which helps to inform decisions about heart disease prevention and treatment, including when it may be appropriate to prescribe cholesterol-lowering medications. In this study, researchers investigated whether the PREVENT score matched the level of calcium buildup according to the CAC score. In addition, they used the PREVENT risk assessment and coronary artery calcium scores, separately and in combination, to predict future heart attack risk and assessed the accuracy of each with the participants who had a heart attack during the follow-up period. They reviewed electronic health records for nearly 7,000 adults who had had CCTA screening at NYU Langone Health in New York City between 2010 and 2024. The analysis found that for all participants: The PREVENT tool-estimated risk of a heart attack was low (less than 5%) for 43.6% of patients; mildly elevated (5%-7.5%) for 15.8% of the participants; moderately increased (7.5%-20%) for 34.4.%; and high (more than 20%) for 6.2% of people in the study. PREVENT scores were directly correlated with CAC scores, meaning those who had high PREVENT scores, indicating a higher risk of heart attack, matched the group who had higher CAC scores. PREVENT risk ranked as low-to-mildly elevated was associated with CAC of less than or equal to 1, which indicates low risk of heart attack. PREVENT risk ranked as moderate-high was associated with participants who had a CAC score higher than 100, which indicates moderate-to-high risk of heart attack. Researchers then added the CAC score to the PREVENT tool to calculate risk of future heart attack, and, together, they more accurately identified the participants who were at higher risk and who had a heart attack during the follow-up period. "The findings illustrate that PREVENT is accurate in identifying people who may have subclinical risk for cardiovascular disease, meaning blocked arteries before symptoms develop," said Grams. "This study used a real-world set of patients, so our findings are important in shaping future guidelines on the use of the PREVENT calculator and coronary computed tomography angiography." Study co-author and American Heart Association volunteer expert Sadiya Khan, M.D., MSc., FAHA, said the CAC score can help classify risk for heart disease by analyzing calcium buildup. "CT scans to evaluate for coronary calcium and extent of coronary artery calcium buildup may be useful when patients are uncertain if they want to start lipid-lowering therapy or if lipid-lowering therapy should be intensified. We have so many tools in our armamentarium for reducing risk of heart attack, we want to be able to optimize treatments for patients, and especially those with higher risk," said Khan, who chaired the writing group for the Association's 2023 Scientific Statement announcing PREVENT, Novel Prediction Equations for Absolute Risk Assessment of Total Cardiovascular Disease Incorporating Cardiovascular-Kidney-Metabolic Health. Study details, background and design: More than 9 million electronic health records at NYU Langone Health in New York City were reviewed and included adults who had coronary computed tomography angiography performed between 2010 and 2024. Participants in this analysis included 6,961 adults between the ages of 30 and 79 years with no history of heart disease. Their average age was 57.5 years; 53% were women, and 77% were noted in the electronic health records as white adults. Participants' CAC scores were compared to the PREVENT scores calculated based on data in the electronic health records including demographics, vital signs, laboratory values and coexisting conditions. Participants who had a heart attack were noted according to the standard ICD-10 diagnosis codes in the electronic health records. Overall, there were 485 heart attacks during the average of 1.2 years of follow-up. Investigators evaluated the accuracy of using PREVENT or CAC score vs. both PREVENT and CAC combined to predict heart attack risk and compared this to data for patients with an ICD-10 code for heart attack. The study had several limitations, including that patients were screened at a single institution and the majority of participants were noted as white, so the findings may not be generalizable to other people. The analysis only included people who had undergone coronary calcium screening, and electronic health records were the sole source of data. In addition, the follow-up time was short at 1.2 years, and the presence of non-calcified plaque in the heart's arteries was not assessed. Finally, the study may overestimate the prevalence of coronary artery calcium in low-risk people since participants in this study were referred for CCTA/CAC score by a health care professional, which means they may have more heart disease risk factors than the general population. Co-authors, disclosures and funding sources are listed in the manuscript. Studies published in the American Heart Association's scientific journals are peer-reviewed. The statements and conclusions in each manuscript are solely those of the study authors and do not necessarily reflect the Association's policy or position. The Association makes no representation or guarantee as to their accuracy or reliability. The Association receives more than 85% of its revenue from sources other than corporations. These sources include contributions from individuals, foundations and estates, as well as investment earnings and revenue from the sale of our educational materials. Corporations (including pharmaceutical, device manufacturers and other companies) also make donations to the Association. The Association has strict policies to prevent any donations from influencing its science content. Overall financial information is available here. Additional Resources: Multimedia is available on the right column of release link. After May 21, 2025, view the manuscript online. AHA news release: New scientific research will test PREVENT risk calculator among diverse groups (Feb. 2024) AHA news release: Leading cardiologists reveal new heart disease risk calculator (Nov. 2023) Follow AHA/ASA news on X @HeartNews Follow news from the Journal of the American Heart Association @JAHA_AHA ### About the American Heart Association The American Heart Association is a relentless force for a world of longer, healthier lives. Dedicated to ensuring equitable health in all communities, the organization has been a leading source of health information for more than one hundred years. Supported by more than 35 million volunteers globally, we fund groundbreaking research, advocate for the public's health, and provide critical resources to save and improve lives affected by cardiovascular disease and stroke. By driving breakthroughs and implementing proven solutions in science, policy, and care, we work tirelessly to advance health and transform lives every day. Connect with us on Facebook, X or by calling 1-800-AHA-USA1. For Media Inquiries and AHA/ASA Expert Perspective: 214-706-1173 Bridgette McNeill: For Public Inquiries: 1-800-AHA-USA1 (242-8721) and
Associated Press
21-05-2025
- Health
- Associated Press
PREVENT equation accurately estimated 10-year CVD risk and those with calcium buildup
Research Highlights: Embargoed until 4 a.m. CT/5 a.m. ET Wednesday, May 21, 2025 ( NewMediaWire ) - May 21, 2025 - DALLAS — The PREVENTTM risk calculator helped to identify people with plaque buildup in the arteries of the heart, in addition to predicting their risk of a future heart attack, according to new research published today in the Journal of the American Heart Association, an open access, peer-reviewed journal of the American Heart Association. In addition, when combining PREVENT and a coronary calcium score, risk prediction was further improved, with patients with the highest risk of heart attack matched the group of participants who had a heart attack during the follow-up period. 'These findings are important because when we can better predict a patient's risk of heart attack, we can also tailor care and determine who may benefit from treatment to prevent a heart attack, such as cholesterol-lowering medications,' said corresponding author Morgan Grams, M.D., Ph.D., the Susan and Morris Mark Professor of Medicine and Population Health at New York University's Grossman School of Medicine in New York City. The PREVENT (Predicting Risk of cardiovascular disease EVENTs) risk calculator, released by the American Heart Association in 2023, can estimate 10-year and 30-year risk for heart attack, stroke, heart failure or all three in adults as young as age 30. PREVENT factors in age, blood pressure, cholesterol, body mass index, Type 2 diabetes status, social determinants of health, smoking and kidney function to estimate future risk of heart attack, stroke or heart failure. One tool for screening heart health is coronary computed tomography angiography (CCTA), a non-invasive imaging test that visualizes plaque buildup in the heart's arteries. From the CCTA, patients are given a coronary artery calcium (CAC) score, which helps to inform decisions about heart disease prevention and treatment, including when it may be appropriate to prescribe cholesterol-lowering medications. In this study, researchers investigated whether the PREVENT score matched the level of calcium buildup according to the CAC score. In addition, they used the PREVENT risk assessment and coronary artery calcium scores, separately and in combination, to predict future heart attack risk and assessed the accuracy of each with the participants who had a heart attack during the follow-up period. They reviewed electronic health records for nearly 7,000 adults who had had CCTA screening at NYU Langone Health in New York City between 2010 and 2024. The analysis found that for all participants: 'The findings illustrate that PREVENT is accurate in identifying people who may have subclinical risk for cardiovascular disease, meaning blocked arteries before symptoms develop,' said Grams. 'This study used a real-world set of patients, so our findings are important in shaping future guidelines on the use of the PREVENT calculator and coronary computed tomography angiography.' Study co-author and American Heart Association volunteer expert Sadiya Khan, M.D., MSc., FAHA, said the CAC score can help classify risk for heart disease by analyzing calcium buildup. 'CT scans to evaluate for coronary calcium and extent of coronary artery calcium buildup may be useful when patients are uncertain if they want to start lipid-lowering therapy or if lipid-lowering therapy should be intensified. We have so many tools in our armamentarium for reducing risk of heart attack, we want to be able to optimize treatments for patients, and especially those with higher risk,' said Khan, who chaired the writing group for the Association's 2023 Scientific Statement announcing PREVENT, Novel Prediction Equations for Absolute Risk Assessment of Total Cardiovascular Disease Incorporating Cardiovascular-Kidney-Metabolic Health. Study details, background and design: The study had several limitations, including that patients were screened at a single institution and the majority of participants were noted as white, so the findings may not be generalizable to other people. The analysis only included people who had undergone coronary calcium screening, and electronic health records were the sole source of data. In addition, the follow-up time was short at 1.2 years, and the presence of non-calcified plaque in the heart's arteries was not assessed. Finally, the study may overestimate the prevalence of coronary artery calcium in low-risk people since participants in this study were referred for CCTA/CAC score by a health care professional, which means they may have more heart disease risk factors than the general population. Co-authors, disclosures and funding sources are listed in the manuscript. Studies published in the American Heart Association's scientific journals are peer-reviewed. The statements and conclusions in each manuscript are solely those of the study authors and do not necessarily reflect the Association's policy or position. The Association makes no representation or guarantee as to their accuracy or reliability. The Association receives more than 85% of its revenue from sources other than corporations. These sources include contributions from individuals, foundations and estates, as well as investment earnings and revenue from the sale of our educational materials. Corporations (including pharmaceutical, device manufacturers and other companies) also make donations to the Association. The Association has strict policies to prevent any donations from influencing its science content. Overall financial information is available here. Additional Resources: ### About the American Heart Association The American Heart Association is a relentless force for a world of longer, healthier lives. Dedicated to ensuring equitable health in all communities, the organization has been a leading source of health information for more than one hundred years. Supported by more than 35 million volunteers globally, we fund groundbreaking research, advocate for the public's health, and provide critical resources to save and improve lives affected by cardiovascular disease and stroke. By driving breakthroughs and implementing proven solutions in science, policy, and care, we work tirelessly to advance health and transform lives every day. Connect with us on Facebook, X or by calling 1-800-AHA-USA1. For Media Inquiries and AHA/ASA Expert Perspective: 214-706-1173 Bridgette McNeill: [email protected] For Public Inquiries: 1-800-AHA-USA1 (242-8721) and
Business Wire
06-05-2025
- Health
- Business Wire
AI Meets Value-Based Care: Cleerly and Cardiac Care Alliance Join Forces to Revolutionize Heart Disease Detection
DENVER--(BUSINESS WIRE)-- Cleerly, the leader in cardiovascular imaging, and Cardiac Care Alliance, leader in value-based cardiovascular care solutions, today announced a strategic partnership to enhance cardiovascular care delivery across the healthcare ecosystem. This collaboration will integrate Cleerly's advanced AI-powered coronary artery assessment technology with Cardiac Care Alliance's cardiovascular care network. This collaboration will integrate Cleerly's advanced AI-powered coronary artery assessment technology with Cardiac Care Alliance's cardiovascular care network. Share As part of this partnership, Cardiac Care Alliance's offering to payers and practices will include Cleerly's Artificial Intelligence–Quantitative Coronary Tomography (AI-QCT) technology. The goal is to ensure symptomatic patients undergo Cleerly's noninvasive assessment, when appropriate, prior to cardiac catheterization procedures, helping direct the right patients to the catheterization laboratory while avoiding unnecessary testing and associated costs for others. The initiative will launch initially with cardiology practices in Texas, with plans for broader implementation. Cardiac Care Alliance improves access to care and reduces overall unnecessary spending through collaboration with cardiologists, primary care providers, patients, health systems, and payers, while Cleerly's AI-QCT technology provides comprehensive, standardized assessment of coronary artery disease based on noninvasive Cardiac Computed Tomography Angiography (CCTA). Studies comparing Cleerly's technology with invasive gold standards have demonstrated high accuracy in assessing the presence, extent, and composition of coronary atherosclerotic plaque, superior to consensus readings from Level 3 Expert Physician Readers 1. "We're always seeking ways to expand access to life-saving heart care, and by combining our networks, both organizations can reach more providers and patients," said Prakash Patel, MD, CEO and Chairman of Cardiac Care Alliance. "This partnership represents our commitment to providing solutions that are both clinically effective and economically sustainable. Cardiovascular disease currently costs the US healthcare system approximately $233 billion annually, and is the most costly chronic condition in the US, roughly 11% of total healthcare expenditures 2. Delivering care that can provide early detection and guide clinical decisions to the right interventions to improve outcomes and reduce unnecessary costs, are critical to addressing this growing healthcare challenge." "This collaboration with Cardiac Care Alliance marks Cleerly's first value-based care partnership, representing an important milestone in our mission to transform cardiovascular care," said Dr. James Min, founder and CEO of Cleerly. "By detecting coronary artery disease with greater precision and more accurately through noninvasive means, we can help guide personalized care decisions that improve outcomes while reducing healthcare costs. With cardiovascular costs projected to increase to over $1 trillion by 2035 as the population ages 3, and hospital readmissions for cardiac conditions among the most common and costly within Medicare 4, we're strongly focused on the fact that many cardiovascular conditions are treatable when caught early, potentially saving countless lives." About Cleerly Cleerly is the company on a mission to eliminate heart attacks by creating a new standard of care for heart disease. Through its FDA-cleared solutions driven by artificial intelligence, Cleerly supports comprehensive phenotyping of coronary artery disease, as determined from advanced noninvasive CT imaging. Cleerly's approach is grounded in science, based on millions of images from over 40,000 patients. Led by a world-class clinical and technical team, Cleerly enhances health literacy for each and every stakeholder in the coronary care pathway. For more information, please visit: About Cardiac Care Alliance Cardiac Care Alliance is revolutionizing cardiovascular care through an innovative, integrated, and partnership-driven model. By empowering providers, payers, health systems, and patients with timely access to high-quality care, patient outcomes are improved while optimizing costs. This value-based approach prioritizes quality and measurable health improvements. Cardiac Care Alliance is committed to proactive, personalized, and patient-centered care models that make cardiovascular healthcare more seamless, accessible, and coordinated. Through strategic partnerships, the alliance enhances care delivery, drives better outcomes, and creates sustainable, cost-effective solutions. To learn more, visit:
