August 29th, 2011
Shortfalls in Secondary Prevention Particularly Acute in Poor Countries
Larry Husten, PHD
It shouldn’t come as a surprise, but an international epidemiological study shows large shortfalls in the use of established drugs for secondary prevention. The shortfalls are dramatically acute in poor countries, said Salim Yusuf, who presented the results of the Prospective Urban Rural Epidemiological (PURE) study at the ESC in Paris on Sunday. The paper was published simultaneously in the Lancet.
The PURE investigators enrolled 153,996 people in 17 countries at different levels of economic development. They identified 5650 people with a history of CHD and 2292 with a history of stroke and ascertained whether these individuals were taking antiplatelet drugs, beta-blockers, ACE inhibitors or ARBs, or statins. Antiplatelet drugs were used by 62% of patients with CVD in high-income countries compared with 8.8% in low-income countries. A similar pattern was observed for beta-blockers (40.0% vs. 9.7%), ACE inhibitors or ARBs (49.8% vs. 5.2%), and statins (66.5% vs. 3.3%).
This study appears to be the first to seek an accurate assessment of the use of drugs for secondary prevention in the community. Previous studies have been hospital based or based on patients who are seeing a physician and who are therefore much more likely to be offered treatment.
The investigators also found that drugs were more likely to be used in urban than in rural areas, though the difference was more pronounced in low-income countries. The economic status of the countries had a bigger effect on drug use than individual factors such as age, sex, education, or other risk factors. Among the study’s many other findings, women and smokers had significantly lower rates of drug use.
The results, said Yusuf, “represent a colossal human tragedy” caused by the “substantial underutilization of proven therapies.” The Lancet authors concluded that “efforts to increase the use of effective and inexpensive drugs for prevention of cardiovascular disease are urgently needed, and would substantially reduce disease burden within a few years.”
August 29th, 2011
ESC: A Closure Device and a Warfarin Substitute for High-Risk AFib Patients
Stephen Fleet, MD
How can we manage a patient with atrial fibrillation and contraindications to warfarin therapy such as recurrent severe bleeding — a common scenario in clinical practice? Data from the manufacturer-sponsored ASAP study (ASA Plavix Feasibility Study with WATCHMAN Left Atrial Appendage Closure Technology) provides some hope, beyond what we had learned from the Protect AF trial. Annkathrin Braut, of the Frankfurt Cardiovascular Center, presented preliminary results from ASAP.
This feasibility study of Watchman device implantation enrolled 125 high-risk atrial fibrillation patients from the Czech Republic and Germany. All had contraindications to warfarin, so instead they were given clopidogrel (for 6 months) and aspirin (planned as lifelong therapy). The average CHADS2 score was 2.7.
Of the enrollees, 93% had successful device implantation. Complications to date have included 1 episode of cardiac tamponade, 2 episodes of device embolization requiring retrieval, and 1 femoral artery pseudoaneurysm. During about 10 months of follow-up, 4 episodes of device-related thrombus (requiring heparin therapy) occurred, and 3 patients developed ischemic stroke.
The investigators suggest that Watchman device implantation without warfarin overlap is a safe, feasible strategy and that LAA closure is a viable alternative in high-risk atrial fibrillation patients who have contraindications to warfarin.
The ESC audience in Paris raised two main concerns: (1) about giving aspirin and clopidogrel to patients already known to have had a high incidence of bleeding with warfarin; and (2) about the occurrence of 3 ischemic strokes in this relatively small cohort.
August 28th, 2011
Anatomical vs. Physiological Assessment of Coronary Artery Disease
Stephen Fleet, MD
Just as the great voleur Willie Sutton robbed banks because “that’s where the money is,” why don’t we just look for coronary artery disease (CAD) directly in the coronary arteries?
At the ESC meeting today in Paris, Bharati Shivalkar of Belgium reviewed the assessment of CAD utilizing coronary CT angiography (anatomical) vs. the usual standard of care, stress testing (physiological).
Several studies, including CT-STAT and ROMICAT, have demonstrated cost and time savings — as well as safety — using an initial strategy of coronary CT angiography (64-slice or better) in the emergency room for the evaluation of low- to medium-risk patients whose symptoms suggest acute coronary syndrome but who lack evidence of significant ECG changes or elevated biomarkers. Patients with a negative coronary CT angiography scan have nearly a 100% negative predictive value for significant CAD and may safely be discharged from the ER. Those with >70% stenosis should proceed to cardiac catheterization with a view toward revascularization. Those with intermediate findings may proceed to diagnostic stress testing.
A future study, PROSPECT, will compare coronary CT angiography with stress testing in patients admitted to the hospital with chest pain.
Barriers to the increased use of coronary CT angiography in the ER include radiation safety concerns (partially addressed by newer dose-reducing strategies) and availability of the technology and expertise. False-positive studies may also lead to unnecessary invasive angiography.
My view is that old habits die hard, and most clinicians are accustomed to the stress-testing algorithm even though this approach is often slow, expensive, and perhaps outdated for certain patient groups.
August 28th, 2011
A “Straight A” Trial: Answers About Apixaban from ARISTOTLE
Samuel Goldhaber, MD
ESC 2011 is being held in a gigantic venue called the Exposition Center, close to Charles de Gaulle Airport. This enormous campus is the perfect place to showcase ESC, which can now boast that it’s the biggest cardiology meeting in the world. Its attendance and registration numbers surpass those of AHA and ACC. And the scientific quality of the presentations is excellent.
That is the backdrop for the presentation of ARISTOTLE, where Chris Granger unveiled results of an 18,000-plus patient megatrial of apixaban versus warfarin for stroke prevention in patients with nonvalvular atrial fibrillation. Imagine a trial with about 1000 institutions participating from 39 countries. Try to think of the logistics involved in a randomized double-dummy protocol: Each patient underwent finger-stick INR testing; and half of the test results were sham INRs, leading to dose adjustment of the placebo for warfarin.
The presentation auditorium was aptly named “Paris,” and all seats (I’m guessing at least 3000) were filled. We knew from a manufacturer press release 2 months ago that apixaban was superior to warfarin for both efficacy and safety. But we didn’t know the magnitude of the difference between the two groups. Prior to the presentation, there were more questions than answers.
Questions Answered by Today’s Presentation
- Was the time within the therapeutic range (TTR) for warfarin acceptable (defined by most clot experts as 60% or greater)? Yes. It was 62%.
- Were there any subgroups that didn’t benefit from apixaban’s improved efficacy over warfarin’s? No.
- Were there any types of major bleeding that occurred more often in the apixaban group? No.
- Did the reduction in stroke and reduction in major bleeding ultimately translate into a lower all-cause mortality rate in the apixaban group? Yes.
The ARISTOTLE investigators can be proud of the rigor with which they conducted this trial. If anyone doubted that we’ve entered a new era for stroke prevention in nonvalvular atrial fibrillation, fear no more.
August 28th, 2011
ARISTOTLE Finds the Golden Mean of Anticoagulation
Larry Husten, PHD
In ancient Greece the philosopher Aristotle thought the golden mean was the desirable middle between two extremes, one of excess and the other of deficiency. In cardiology, apixaban may be the golden mean of anticoagulation, achieving the ideal balance of reduced strokes and deaths without causing any additional bleeding complications.
The Apixaban for Reduction in Stroke and Other Thromboembolic Events in Atrial Fibrillation (ARISTOTLE) study compared warfarin with apixaban (5 mg twice daily) in 18,201 patients who had AF and at least one additional risk factor for stroke. The overachieving trial demonstrated that apixaban was not only noninferior to warfarin in efficacy, but it was also superior. Further, treatment with apixaban resulted in a statistically significant reduction in mortality and reduced the risk of major bleeding. The results of ARISTOTLE were presented by Christopher Granger on Sunday morning at the European Society of Cardiology meeting in Paris and published simultaneously in the New England Journal of Medicine.
Here are the key details:
After 1.8 years of follow-up, stroke or systemic embolism (the primary endpoint) occurred in 212 out of 9120 apixaban-treated patients versus 265 out of 9081 warfarin-treated patients:
- Yearly rate: 1.27% in the apixaban group versus 1.60% in the warfarin group (HR, 0.79; 95% CI, 0.66-0.95; P<0.001 for noninferiority, P=0.01 for superiority)
Major bleeding occurred in 327 of the apixaban recipients versus 462 of the warfarin recipients.
- Yearly rate: 2.13% versus 3.09% (HR 0.69; 95% CI, 0.60-0.80; P<0.001)
Death occurred in 603 apixaban-treated patients versus 669 warfarin-treated patients.
- Yearly rate: 3.52% versus 3.94% (HR 0.89; 95% CI, 0.80-0.998; P=0.047)
- Yearly rate of death from cardiovascular causes: 1.80% versus 2.02% (HR 0.89; 95% CI, 0.76-1.04)
Hemorrhagic stroke occurred in 40 apixaban recipients versus 78 warfarin recipients.
- Yearly rate: 0.24% versus 0.47% (HR 0.51; 95% CI, 0.35-0.75; P<0.001)
Ischemic or uncertain stroke occurred in 162 apixaban-treated patients versus 175 warfarin-treated patients.
- Yearly rate: 0.97% versus 1.05% (HR 0.92; 95% CI, 0.74-1.13; P=0.42)
Stroke, systemic embolism, MI, or death from any cause occurred in 810 apixaban recipients versus 906 warfarin recipients.
- Yearly rate: 4.85% versus 5.49% (HR, 0.88; 95% CI, 0.80-0.97; P=0.01)
The results were consistent across a broad range of subgroups. Of note, there were no significant differences among geographic regions. There was a greater reduction in major bleeding associated with apixaban in nondiabetics compared with diabetics (P=0.003 for interaction) and in patients with moderate or severe renal impairment compared with those with mild or no renal impairment (P=0.03 for interaction).
The investigators calculated that for every 1000 patients treated with apixaban instead of warfarin for 1.8 years,
- stroke would be avoided in 6 patients,
- major bleeding would be avoided in 15 patients, and
- death would be avoided in 8 patients.
Comparing their results with the RE-LY trial of dabigatran, the authors wrote that apixaban “appears to combine the advantages of each of the two doses of dabigatran, with both a greater overall reduction in the rate of stroke and a lower rate of bleeding than the rates with warfarin.” They also noted that in the ROCKET-AF trial, rivaroxaban lowered intracranial hemorrahge and fatal bleeding but was not better than warfarin in other major bleeding. They listed possible reasons for the differences in trials of the three drugs: “differences in the doses of drugs, the pharmacokinetic and pharmacodynamic properties of the drugs, patient populations, or other features of the clinical-trial design.”
They also noted that the 3 novel anticoagulants (apixaban, dabigatran, and rivaroxaban) have all demonstrated a lower risk for hemorrhagic stroke compared with warfarin, suggesting “a specfic risk associated with warfarin, possibly related to its inhibition of multiple coagulation factors or interaction between warfarin and tissue factor VIIa complexes in the brain.”
In an accompanying editorial, Jessica Mega called the ARISTOTLE results “impressive” and wrote that “a new era of anticoagulation in patients with atrial fibrillation appears to be emerging.” She said that all three newer anticoagulants significantly reduce hemorrhagic stroke and have similar effects on mortality, though the difference in mortality was significant only in ARISTOTLE. The three drugs, she writes, “have been shown to have a more favorable bleeding profile than warfarin and are at least as efficacious.”
In an interview for CardioExchange, Christopher Granger, the first author of the study, said that the investigators felt “as though we hit the sweet spot” with the drug in the trial, achieving greater efficacy in preventing stroke while also producing a “really remarkable reduction in major bleeding, and all with a drug that’s really very well tolerated” and that has produced “no real safety signal.”
In addition, Granger said that the results in the United States appear to be consistent with the overall trial, although a detailed analysis has not yet been performed.
Granger speculated that after the forthcoming ENGAGE AF-TIMI 48 trial with edoxaban, “there will not be another large trial with a a warfarin comparator.”
August 26th, 2011
The Power of Zero on JUPITER
Anita Vashi, MD, MPH
This voluntary contribution from Dr. Nasir, the principal investigator of a recent study published in the Lancet, is an extension of his remarks in a recent panel discussion
Background: The study showed that people with low LDL levels and high C-reactive protein levels may benefit from coronary artery calcium scans to identify the folks who are most likely to benefit from statin therapy. Data came from 950 people enrolled in the Multi-Ethnic Study of Atherosclerosis (MESA) who had met the entry criteria for the JUPITER study.
What was the aim of our Lancet study?
I believe, at least in the news media discussion, the focus has been more on the comparative role of the predictive value of CAC and CRP for cardiovascular events. Although part of the subanalysis and our findings again demonstrate the superior predictive value of CAC versus CRP, it is important to keep in mind that the results apply only to those individuals with LDL <130 mg/dL.
The real aim of the study was to assess this question: “Is everyone meeting JUPTER criteria at the same risk and will all benefit similarly with aggressive lipid-lowering pharmacotherapy, or can we selectively identify those likely to benefit more (e.g., those who have the highest risk for events). More important, can we identify a group at such a low risk that they are unlikely to derive significant benefit from aggressive pharmacotherapy on the basis of absence of CAC?”
Why is the predictive value of CAC more robust than that of any other marker? What is the evidence about the value of CAC=0?
While the presence of CAC represents actual disease, risk factors such as cholesterol levels or hsCRP represent only one of many factors that may (or may not) ultimately cause coronary heart disease. As a result in primary prevention settings, the absence of CAC features as among the most powerful “negative indicators” for development of a coronary event. This assumption is really based on our group’s extensive work showing that absence of CAC confers a very low risk for future CVD events and mortality in a large meta-analysis (JACC Cardiovasc Imaging 2009; 2:675), the findings of which were subsequently confirmed in a large retrospective study (JACC Cardiovasc Imaging 2009; 2:692) and a multiethnic prospective study (Am Heart J 2009; 158:554).
What are the implications of our study findings? Treat more or less?
The implications of our study are in response to critics who assert that CAC testing will lead to more downstream costs, whereas we have shown the opposite — that it can actually be used as a tool to withhold aggressive management as well any further testing in nearly half of the 6.5 million individuals who are now candidates for long-term statin therapy based on JUPITER criteria. Such individuals should still be counseled regarding aggressive lifestyle interventions; however, it is clear that they will be less likely to benefit from aggressive (and costly) pharmacologic interventions.
In my view, the strongest role of CAC testing is in its “power of zero,” which is a relatively novel concept and critical in this era of rising costs, polypharmacy, etc. Since hsCRP and almost all other nonspecific markers cannot really rule out disease, they can be used to raise risk estimates and, thus, are inextricably tied to more treatment and downstream cost.
Can we extrapolate from the JUPITER trial and our study that those with higher CAC benefit from treatment?
One often-raised criticism is that no RCT has shown that treating those with higher CAC will improve outcomes. I would like to point to some interesting observations, especially if we limit our discussion to the JUPITER population.
- JUPITER has clearly shown a benefit of aggressive lowering, even among patients with normal LDL but elevated hsCRP, to reduce the risk for future CVD events within a follow-up of nearly 2.5 years.
- In our study, we have observed that among those meeting JUPITER criteria, 47% had no CAC and the event was minimal over the next 5.8 years (almost twice the follow-up of the JUPITER trial).
- It is very clear that those with CAC=0 are highly unlikely to benefit from very aggressive therapy, even if we assume a 54% event reduction with statin therapy (much greater than reported within JUPITER), as the NNT5 still remains very high. It’s very simple: You need events to eventually intervene and reduce them.
- This finding naturally then leads us to ask: If those with absent CAC within the JUPITER population are not the ones likely benefiting, then which subgroup is achieving the maximum risk reduction with statin therapy, as shown in this landmark trial by Ridker et al. (N Engl J Med 2008; 359:2195)?
- Although it will continue be an educated guess that we cannot prove (as CAC testing was not done in the JUPITER study), I believe, in light of my above arguments, that the reduction in events seen within JUPITER was very likely in those with present and varying degrees of CAC.
Are these results enough to change practice?
At least in my practice, I would not hesitate to consider CAC testing among patients like those in the JUPITER population, to withhold treatment from those with CAC=0, and to continue to focus on lifestyle-modification strategies. I agree that good points have been raised by many sides. Although an RCT has the ability to provide the most convincing data, if funded, such a trial would take close to 10 years to complete. Furthermore, I would like to see verification of our findings in other cohorts.
However, for now, we cannot ignore the current data. As highlighted by Dr. Kaul in our previous panel discussion, the main unanswered question is whether to advocate selective therapeutic targeting or unconditional treatment of all those meeting JUPITER criteria. While neither approach is “wrong,” we must continue to study this area and advance the dialogue among all pertinent stakeholders about how best to answer this question. The status quo is definitely not an option.
August 25th, 2011
“Numbers Traps” in Clinical Practice
John E Brush, MD
As we make clinical decisions every day, we assess probabilities in a subjective fashion. And in doing so, we tend to fall into very predictable traps — traps we can get better at avoiding if we learn about how they ensnare us. That requires familiarizing ourselves with a bit of history.
Several decades ago Casscells and colleagues published the results of an interesting experiment (N Engl J Med 1978; 299:999). They asked 60 Harvard medical students, residents, and attending physicians the following question: “If a test to detect a disease whose prevalence is 1/1000 has a false positive rate of 5%, what is the chance that a person found to have a positive result actually has the disease, assuming that you know nothing about the person’s symptoms or signs?”
Interestingly, only 11 of 60 (18%) participants gave the correct answer. What is your answer? If you guessed 95%, you are in good company — but wrong. Twenty-seven of the 60 (45%) gave that incorrect response. The correct answer is actually 2%.
How can we explain such poor performance on a question that seems straightforward and very clinically relevant? Cognitive psychologists would say the high error rate was because the question expressed the false-positive rate as a percentage rather than as a natural frequency. Gigerenzer, Cosmides and Tooby, and others say that the mind has evolved to understand natural frequencies and that our intuition frequently fails when probabilities are presented in other formats such as percentages (Med Decis Making 1996; 16:273; Cognition 1996; 58:1).
To test this theory, Cosmides and Tooby performed a second set of experiments. First they posed Casscells’ original question to a group of Stanford undergraduates. They found that this group fell into the same trap as the Harvard group: Only 3 of 25 (12%) gave the correct answer. Then they phrased the question in a different way using natural frequencies: “One out of every 1000 Americans has disease x. A test has been developed to detect when a person has disease x. Every time the test is given to a person who has the disease, the test comes out positive. But sometimes the test also comes out positive when it is given to a person who is completely healthy. Specifically, out of every 1000 people who are perfectly healthy, 50 of them test positive for the disease…”
When the question was asked using natural frequencies, 19 of 25 participants (76%) got the correct answer. These and other experiments demonstrate that our intuition can be set up to succeed or to fail by how questions are framed. Simply changing the way numbers are formatted can have a dramatic effect on how well we reason.
I suspect that many subjects in the original experiment did not see a quick answer, so they guessed that the true positive rate was the complementary probability of the false positive rate of 5%. The percentage format encourages this error because it causes people to lose track of what the denominator, or reference class, represents. Probabilities presented as natural frequencies force people to recognize that the false-negative rate and the true positive rate have different denominators and are not complementary probabilities. It then becomes more obvious that one has to create either a 2×2 table or a branching algorithm to determine the true positive rate based on the incidence of disease and the false-positive rate.
There are other ways our intuition can be fooled by how numbers are framed. For example, expressing treatment effects as relative risk reduction rather than absolute risk reduction or number needed to treat can exaggerate a treatment effect. That type of exaggeration can be used as a sales gimmick by those who are trying to push a product. Any shopper who has seen products priced at $9.99 rather than $10.00 knows that our intuition can be tricked by how numbers are presented.
The Casscells experiment also illustrates a fallacy known as base-rate neglect, which I will discuss in the next post in this blog series. For now, here’s a brief probability problem that comes in part from Reichlen et al. (N Engl J Med 2009; 361:858). See if you can solve it. I present it here as a multiple-choice question, for purposes of illustration. Choose your answer, and then discuss your thinking about the question and about probability fallacies in general in the comments. But please don’t give away the answer to other readers.
An emergency department decides to perform serum troponin testing on all patients with any type of chest complaint. They suspect that the incidence of documented myocardial infarction in this subgroup is only about 1%, but they are determined not to miss a single MI. They choose a high-sensitivity troponin assay with a sensitivity of 95% and a specificity of 80%. For one of these patients with a positive troponin, what are the odds of having an MI?
Sorry, there are no polls available at the moment.
August 24th, 2011
ARISTOTLE at ESC: What to Look for When the Data Are Unveiled
Samuel Goldhaber, MD
At 11:54 a.m. on August 28 in Paris (5:54 a.m. U.S. east coast time), I can almost imagine a huge drop in cell phone call volume as the ARISTOTLE presentation begins at ESC. The ESC exposition site is right next to Charles de Gaulle airport. Will a temporary “no fly zone” be declared? We know from a terse press release this past June that the factor Xa inhibitor apixaban, at 5 mg twice daily, prevented more strokes than warfarin and was associated with less major bleeding than warfarin in this megatrial of about 18,000 patients at more than 1000 study locations in over 3 dozen countries.
Atrial fibrillation is the most preventable cause of thromboembolic stroke. Warfarin for stroke prevention has a narrow therapeutic window, with an optimal dose yielding an International Normalized Ratio between 2.0 and 3.0. The higher the INR, the more likely a hemorrhagic catastrophe such as massive gastrointestinal or intracranial bleed is to occur; the lower the INR, the more likely it is that the patient will have a thrombotic stroke.
The promise of novel oral anticoagulants such as apixaban is that they are administered in a fixed dose, without the need for any routine laboratory coagulation monitoring or dose adjustment. However, the premise remains that the more intensive the anticoagulation, the more likely hemorrhage is to ensue. The apt expression: “You can’t get something for nothing.”
Yet apixaban had previously hinted that it might break this longstanding rule. In the AVERROES trial (N Engl J Med 2011; 364:806), involving 5599 patients with nonvalvular atrial fibrillation, apixaban cut the risk for stroke in half over aspirin. The trial had to be stopped after only half the subjects were enrolled because continuing treatment was considered unethical. Yet major bleeding with apixaban occurred no more often than with aspirin.
As we anticipate the oral presentation of ARISTOTLE at ESC, I’ve listed 10 items to ponder:
1. What is the magnitude of stroke reduction with apixaban versus that with warfarin?
2. What is the magnitude of reduction in major hemorrhage?
3. Will any plausible mechanism be presented to explain the simultaneous finding of less thrombosis and less hemorrhage with apixaban?
4. Was apixaban a winner in all countries or, as in some other recent drug megatrials, were results in North America either better or worse than the overall results?
5. What was the time within the therapeutic range (TTR) among patients randomized to warfarin?
6. How good was the double-blinding?
7. What proportion of patients in both groups continued to comply with medication from enrollment until study termination?
8. What were the average and median CHADS and CHADS-VASC scores among patients enrolled in ARISTOTLE?
9. Even though the “punch line” was announced in a press release in June, will the “awe factor” overwhelm the packed crowd at the auditorium when ARISTOTLE is presented?
10. How will apixaban compare with dabigatran and rivaroxaban, even though there are no head-to-head studies?
Stay tuned!
August 24th, 2011
Ambulatory BP Monitoring Gains NICE Recommendation in UK
Larry Husten, PHD
Ambulatory blood pressure (ABP) monitoring is receiving a strong endorsement in the UK from NICE (National Institute for Health and Clinical Excellence). The recommendation is based on a cost-effectiveness study published in the Lancet.
Kate Lovibond and colleagues found that compared with additional measurements in the clinic or home measurements, ABP monitoring was highly cost-effective in patients 40 years or older with a screening blood pressure measurement over 140/90 mm Hg. The results were consistent in men and women, across all age groups, and across a broad range of assumptions.
In most subgroups, ABP monitoring both improved health and reduced costs, the authors reported. For men and for women over 50, the use of ABP resulted in cost savings, prompting the investigators to write that ABP monitoring “was the dominant strategy for men and women of most ages.”
The savings in cost were largely due to the greater specificity of ABP, resulting in fewer people undergoing treatment. The authors concluded that “for most people” ABP monitoring ” should be seriously considered” before antihypertensive treatment is initiated.
In a Lancet press release, senior author of the paper, Richard McManus said that “ambulatory monitoring allows better targeting of blood pressure treatment to those who will receive most benefit. It is already undertaken in some general practices and whilst implementation on a wide scale will need to be phased in to allow training and acquisition of new equipment, it is cost saving in the long term as well as more effective and so will be good for patients and doctors alike.”
August 23rd, 2011
William Kannel, Former Framingham Heart Study Director, Dead at 87
Larry Husten, PHD
William Kannel, the cardiovascular epidemiologist who helped find most of the major risk factors for cardiovascular disease during his lifelong association with the Framingham Heart Study (FHS), died on Saturday at the age of 87. Indeed, Kannel coined the term “risk factor” in a 1961 article in Annals of Internal Medicine.
Kannel “made the courageous decision to refuse medical interventions for cancer and chose to die with dignity with the help of hospice, family and friends,” according to an obituary on the Boston University Medical School website.
Kannel grew up in New York City. He graduated from the Medical College of Georgia in Augusta and trained in internal medicine in the U.S. Public Health Service at Staten Island, New York.
Kannel joined the FHS in 1950 and served as its director from 1966 until 1979. He then served as the principal investigator of the study from 1979 until 1987. He was a professor of medicine at Boston University and continued work as a Framingham investigator until recently.
He is survived by his wife, 4 children, 12 grandchildren, and 23 great-grandchildren.
Further reading:
NEJM Journal Watch — Recent Cardiology Articles- Exercise as Medicine for Preventing Colon Cancer Recurrence
- Intensive Blood Pressure Control: Do the Benefits and Harms Vary with Baseline Cardiovascular Risk?
- Lifestyle Modifications in the Treatment of Atrial Fibrillation
- Shingles Vaccination Probably Protects Against Heart Disease
- Is Routine Defibrillation Testing Necessary for Patients Undergoing Subcutaneous ICD Implantation?