AstraZeneca Settles

Here is the latest in the parade of legal settlements of cases of alleged wrong-doing by health care organizations.  As reported by Duff Wilson in the New York Times,
The pharmaceutical company AstraZeneca said Thursday that it had reached a $520 million agreement to settle two federal investigations and two whistle-blower lawsuits over the sale and marketing of its blockbuster psychiatric drug Seroquel.

One of the investigations related to 'selected physicians who participated in clinical trials involving Seroquel,' AstraZeneca disclosed in a government filing. The other case related to off-label promotion of the drug.

Seroquel was the top-selling antipsychotic drug in America. It had $17 billion in sales in the United States since 2004, according to IMS Health, a research firm.

Tony Jewell, a company spokesman, declined to be more specific about the physicians or clinical trials under investigation. He said the company was in final negotiations to settle the whistle-blower suits and reach a corporate integrity agreement with the Justice Department.

The name of the whistle-blowers and other details of the suits remained sealed in federal court. Stephen A. Sheller, a lawyer in Philadelphia for the whistle-blowers, and Patricia Hartman, a spokeswoman for the United States attorney in Philadelphia, both declined to comment.

Here we go again. As the Times article noted,
AstraZeneca, based in Britain, joins a list of drug makers that have paid billions to settle inquiries initiated by complaints from former company insiders.

Earlier this year, Eli Lilly & Company paid $1.4 billion over its marketing of Zyprexa, another antipsychotic drug. And Pfizer announced it would pay $2.3 billion, including a record $1.195 billion criminal fine, mostly over its painkiller Bextra, which has been withdrawn from the market.

Does anyone really still believe that integrity agreements, and settlements assessed against huge corporations deter such profitable bad behavior? A half a billion dollar one-time settlement is just a small cost of doing business for a company that sold $17 billion worth of the offending drug in the last five years. As in the case of many other previously announced settlements, it appears that nobody who authorized, directed, or implemented the bad behavior that led to the settlement will suffer any sort of negative consequences.

We previously discussed allegations that AstraZeneca manipulated and suppressed clinical research, and organized deceptive marketing campaigns in support of Seroquel sales (here, and here).  If we do not discourage such practices, they will continue to bias the clinical evidence making expensive drugs and devices seem more effective and less dangerous than they really are.  Is it any wonder that we over-use and over-pay for these products?  Anyone seriously interested in reforming health care to improve quality and access while moderating costs ought to pay attention to behavior that leads to such over-use and over-payment. 

(However, there may be hope.  Perhaps in the future there will be more effective deterrence.  A recent indictment named not only the device company Stryker Biotech (a subsidiary of Stryker Corporation), but also its former CEO and three managers.)

An Alliance on Mental Illness or for Pharmaceutical Companies?

A recent article by Gardner Harris in the New York Times focused on the financial links among health care corporations and not-for-profit disease (or patient) advocacy groups.
A majority of the donations made to the National Alliance on Mental Illness, one of the nation’s most influential disease advocacy groups, have come from drug makers in recent years, according to Congressional investigators.

The alliance, known as NAMI, has long been criticized for coordinating some of its lobbying efforts with drug makers and for pushing legislation that also benefits industry.

Last spring, Senator Charles E. Grassley, Republican of Iowa, sent letters to the alliance and about a dozen other influential disease and patient advocacy organizations asking about their ties to drug and device makers. The request was part of his investigation into the drug industry’s influence on the practice of medicine.

The mental health alliance, which is hugely influential in many state capitols, has refused for years to disclose specifics of its fund-raising, saying the details were private.

But according to investigators in Mr. Grassley’s office and documents obtained by The New York Times, drug makers from 2006 to 2008 contributed nearly $23 million to the alliance, about three-quarters of its donations.

Even the group’s executive director, Michael Fitzpatrick, said in an interview that the drug companies’ donations were excessive and that things would change.

However, he tried to downplay the influence of the pharmaceutical industry on the Alliance.
'I understand that NAMI gets painted as being in the pockets of pharmaceutical companies, and somehow that all we care about is pharmaceuticals,' Mr. Fitzpatrick said. 'It’s simply not true.'

Note the careful wording of this denial, though. He did not deny that most of what NAMI cares about is pharmaceuticals.

Moreover, the article suggested how cozy pharmaceutical companies and the Alliance's leadership have become.
The close ties between the alliance and drug makers were on stark display last week, when the organization held its annual gala at the Andrew W. Mellon Auditorium on Constitution Avenue in Washington. Tickets were $300 each. Before a dinner of roasted red bell pepper soup, beef tenderloin and tilapia, Dr. Stephen H. Feinstein, president of the alliance’s board, thanked Bristol-Myers Squibb, the pharmaceutical company.

'For the past five years, Bristol-Myers has sponsored this dinner at the highest level,' Dr. Feinstein said.

He then introduced Dr. Fred Grossman, chief of neuroscience research at Bristol-Myers, who told the audience that 'now, more than ever, our enduring relationship with NAMI must remain strong.'

Documents obtained by The New York Times show that drug makers have over the years given the mental health alliance — along with millions of dollars in donations — direct advice about how to advocate forcefully for issues that affect industry profits.

In a letter today to the NY Times, NAMI Executive Director Fitzpatrick tried again to correct "misimpressions."
First, the National Alliance on Mental Illness, or NAMI, has always disclosed corporate and foundation sources of revenue. Until this year, specific amounts remained private for competitive fund-raising reasons.

Second, your estimate that pharmaceutical companies account for three-quarters of “donations” has been misinterpreted as a share of NAMI’s total annual budget — which is actually about 50 percent.

Perusal of the 2008 NAMI Annual Report does include this impressive list of "Corporate Partners":
Abbott
Alexza Pharmaceuticals
Amazon
AstraZeneca
Blue Cross Blue Shield
Bristol-Myers Squibb
College of Psychiatric and Neurologic
Pharmacists
Corcept Therapeutics
Cyberonics
Delivery Agent, Inc.
Forest Laboratories
GEO Care
GoodSearch.com
The Health Central Network
Janssen Pharmaceutica
Eli Lilly and Company
Magellan Health Services
McNeil Pediatrics
Neuronetics
Novartis
Otsuka America Pharmaceuticals
Pfizer
PhRMA
RF Binder
Sanofi-Aventis
Shire
Solvay
Validus Pharmaceuticals
WellPoint
Wyeth
YTB Travel Network

The NAMI web-site now includes lists of specific corporate donations that individually exceeded $5000 since the beginning of 2009. So far this year, the biggest pharmaceutical corporate donors appear to be AstraZeneca ($350,000), Bristol-Myers-Squibb ($506,205), and Eli Lilly ($675,500). 

Looking at the latest Form 990 filed on behalf of NAMI with the US Internal Revenue Service (available from GuideStar here)  provides more interesting detail. (Keep in mind that the 2008 form covers July 1, 2007 to June 30, 2008.)   This form listed the organization's total revenue as $13,788,288, and expenses as $12,796,205.  These expenses included $1,785,060 (13.9%) for management and $1,520,637 (11.9% ) for fund-raising.  The form listed eight NAMI executives who made more than $100,00 a year, including Mr Fitzpatrick ($210,685 total compensation).

So, in summary, it appears that corporate donations, mainly from a few large pharmaceutical companies, supply a substantial portion, (maybe half, if I read the letter by Mr Fitzpatrick correctly) of the annual budget of NAMI. About one-quarter of that budget is spent on administration and fund-raising, including six-figure salaries for at least eight executives.  So who do you expect would more easily get access to the $200K+/year NAMI Executive Director, an executive of a pharmaceutical firm that supplies more than $500,000 a year, or a NAMI member who pays $35 dues?

Here we have another example of a respected patient advocacy organization which gets a substantial portion of its revenue from (presumably the marketing departments of) a few large pharmaceutical companies.  (See another example here.)  Its well-paid executive director can at best bring himself to deny that the only purpose of the organization is to support pharmaceutical marketing and lobbying.  It seems reasonable that for supplying half the budget, the pharmaceutical companies expect considerable help not only with marketing but also with advocacy of policies that favor their corporate goals. 

As I have said before, I do not have a problem with pharmaceutical and other health care corporations marketing their products, and expressing their views on policy. I do have a problem with corporate marketing or policy advocacy is disguised as grass-roots, not-for-profit education and advocacy.  If ostensibly not-for-profit disease (or patient) advocacy organizations like NAMI want to continue to accept corporate money, they should make it clear that they speak for their corporate donors as well as, and probably with priority over their members and patients with the diseases of interest.  Well-intentioned people who pay their dues, and/or make small contributions to NAMI to help the mentally ill might want to consider whether they are likely to have any influence compared to the individual pharmaceutical executives who oversee $500,000+ a year corporate donations.

ADDENDUM (2 November, 2009) - See also comments on the Furious Seasons blog.

Failing to Report Adverse Effects of Treatments

We have frequently advocated the evidence-based medicine (EBM) approach to improve the care of individual patients, and to improve health care quality at a reasonable cost for populations. Evidence-based medicine is not just medicine based on some sort of evidence. As Dr David Sackett, and colleagues wrote [Sackett DL, Rosenberg WM, Muir Gray JA, Haynes RB, Richardson WS. Evidence-based medicine; what it is and what it isn't. BMJ 1996; 312: 71-72. Link here. ]


Evidence based medicine is the conscientious, explicit, and judicious use of current best evidence in making decisions about the care of individual patients. The practice of evidence based medicine means integrating individual clinical expertise with the best available external clinical evidence from systematic research.

One can find other definitions of EBM, but nearly all emphasize that the approach is designed to appropriately apply results from the best clinical research, critically reviewed, to the individual patient, taking into account that patient's clinical characteristics and personal values.

When making decisions about treatments for individual patients, the EBM approach suggests using the best available evidence about possible benefits and harms of treatment, so that the treatment chosen is most likely to maximize benefits and minimize harms for the individual patient. The better the evidence about specific benefits and harms applicable to a particular patient, the greater will be the likelihood that a particular decision based on this evidence will result in the best possible outcomes for the patient.

A new study in the Archives of Internal Medicine focused on how articles report adverse effects found by clinical trials. [Pitrou I, Boutron I, Ahmad N et al. Reporting of safety results in published reports of randomized controlled trials. Arch Intern Med 2009; 169: 1756-1761. Link here.] The results were not encouraging.

The investigators assessed 133 articles reporting the results of randomized controlled trials published in 2006 in six English language journals with high impact factors, that is, the most prestigious journals, including the New England Journal of Medicine, Lancet, JAMA, British Medical Journal, and Annals of Internal Medicine. They excluded trials with less common designs, such as randomized cross-over trials. The majority of trials (54.9%) had private, or private mixed with public funding.

The major results were:
15/133 (11.3%) did not report anything about adverse events
36/133 (27.1%) did not report information about the severity of adverse events
63/133 (47.4%) did not report how many patients had to withdraw from the trial due to adverse events
43/133 (32.3%) had major limitations in how they reported adverse events, e.g., reporting only the most common events (even though most trials do not enroll enough patients to detect important but uncommon events).

The authors concluded, "the reporting of harm remains inadequate."

An accompanying editorial [Ioannidis JP. Adverse events in randomized controlled trials: neglected, distorted, and silenced. Arch Intern Med 2009; 169: 1737-1739. Link here] raised concerns about why the reporting of adverse events is so shoddy:
Perhaps conflicts of interest and marketing rather than science have shaped even the often accepted standard that randomized trials study primarily effectiveness, whereas information on harms from medical interventions can wait for case reports and nonrandomized studies. Nonrandomized data are very helpful, but they have limitations, and many harms will remain long undetected if we just wait for spontaneous reporting and other nonrandomized research to reveal them. In an environment where effectiveness benefits are small and shrinking, the randomized trials agenda may need to reprogram its whole mission, including its reporting, toward better understanding of harms.

Pitrou and colleagues have added to our knowledge about the drawbacks of the evidence about treatments that is publicly available to physicians and patients when making decisions about treatment. Even reports of studies with the best designs (randomized controlled trials) in the best journals seem to omit important information about the harms of the treatments they test.

It appears that the majority of the reports that Pitrou and colleagues studied received "private" funding, presumably meaning most were funded by drug, biotechnology, or device companies and were likely meant to evaluate the sponsoring companies' products. However, note that this article did not analyze the relationship of funding source to the completeness of information about adverse effects.

Nonetheless, on Health Care Renewal we have discussed many cases in which research has been manipulated in favor of the vested interests of research sponsors (funders), or in which research unfavorable to their interests has been suppressed. Therefore, it seems plausible that sponsors' influence over how clinical trials are designed, implemented, analyzed and reported may reduce information about the adverse effects of their products reported in journal articles. Trials may be designed not to gather information about adverse events. Analyses of some adverse events, or some aspects of these events may not be performed, or if performed, not reported. The evidence from clinical research available to make treatment decisions consequently may exaggerate the ratios of certain drugs' and devices' benefits to their harms.

Patients may thus receive treatments which are more likely to hurt than to help them, and populations of patients may be overtreated. Impressions that treatments are safer than they actually are may allow their manufacturers to overprice them, so health care costs may rise.

The article by Pitrou and colleagues adds to concerns that we physicians may too often really be practicing pseudo-evidence based medicine when we think we are practicing evidence-based medicine. We cannot judiciously balance benefits and harms of treatments to make the best decisions for patients when evidence about harms is hidden. Clearly, as Ioannidis wrote, we need to "reprogram." However, what we need to reprogram is our current dependence on drug and device manufacturers to pay for (and hence de facto run) evaluations of their own products. If health care reformers really want to improve quality while controlling costs, this is the sort of reform they need to start considering.

NB - See also the comments by Merrill Goozner in the GoozNews blog.

Heart Attack Risk Reduction: The Low-Hanging Fruit

Dr. Yongsoon Park and colleagues recently published a great article in the British Journal of Nutrition titled "Erythrocyte fatty acid profiles can predict acute non-fatal myocardial infarction". Stated simply, the title says that the fat in your red blood cell membranes, which reflects dietary fat composition, can predict your likelihood of having a heart attack*. More accurately than standard measures of heart attack risk such as blood cholesterol.

Let's cut to the data. The investigators examined the fat composition of red blood cells in people who had suffered a heart attack, versus an equal number who had not. Participants who had heart attacks had less omega-3, more long-chain omega-6, and particularly higher trans fat in their red blood cells. In fact, 96% of the heart attack patients had elevated trans fat levels, compared to 34% of those without heart attacks. This is consistent with a number of other studies showing a strong association between blood levels of trans fat and heart attack risk (ref).

92% of heart attack patients were in the lowest category of EPA in their red blood cells, as opposed to 32% of those without heart attacks. EPA is an omega-3 fat that comes from fish, and is also made by the body if there's enough omega-3 alpha-linolenic acid (think flax and greens) around and not too much linoleic acid (industrial vegetable oil) to inhibit its production. 96% of heart attack patients were in the lowest category for alpha-linolenic acid, compared to 34% of the comparison group. 0% of the heart attack patients were in the highest category for alpha-linolenic acid.

62% of heart attack patients were in the highest category of arachidonic acid (AA), compared to 34% of the comparison group. AA is made from linoleic acid, and is also found in animal foods such as eggs and liver. Animal foods from pasture-raised animals are lower in AA than their conventionally-raised counterparts, and also contain more omega-3 fats to balance it.

The investigators found that low omega-3, high AA and high trans fats in red blood cells associate with heart attack risk far better than the Framingham risk score, a traditional and widely-used measure that incorporates age, sex, smoking status, total cholesterol, HDL, hypertension and diabetes.

If the associations in this study represent cause-and-effect, which I believe they do based on their consistency with other observational studies and controlled trials, they imply that we can have a very powerful effect on heart attack risk by taking a few simple steps:
  1. Avoid trans fat. It's found in margarine, shortening, refined soy and canola oils, many deep fried foods and processed foods in general.
  2. Avoid industrial vegetable oils and other sources of excess omega-6. Eating pastured or omega-3 eggs, rather than conventional eggs, can help reduce dietary AA as well.
  3. Ensure a regular intake of omega-3 fats from seafood, or small doses of high-vitamin cod liver oil or fish oil. Flax oil is also helpful, but it's an inferior substitute for fish oil.
This study was conducted in Korea. It's a striking confirmation that basic nutritional principles span races and cultures, likely affecting disease risk in all humans.

In the future, I hope that most doctors will measure blood fatty acids to predict heart attack risk, with more success than current approaches. Instead of measuring cholesterol and prescribing a statin drug, doctors will prescribe fish oil and easy-to-follow diet advice**. Fortunately, some doctors are beginning to measure red blood cell fatty acid levels in their patients. The forward-thinking cardiologist Dr. William Davis has discussed this on his blog here. Take a good look at the graphs he posted if you get the chance.


*The title of the study is misleading because it implies a prospective design, in which blood fatty acids would be measured and volunteers followed to see who develops heart disease at a later time point. This study was cross-sectional (also called case-control), meaning they found people who had just had a heart attack and measured their blood fatty acids retrospectively. The other study I referenced above was prospective, which is a nice confirmation of the principle.

**"Eat butter on your toast. Ditch the margarine."

Heart Attack Risk Reduction: The Low-Hanging Fruit

Dr. Yongsoon Park and colleagues recently published a great article in the British Journal of Nutrition titled "Erythrocyte fatty acid profiles can predict acute non-fatal myocardial infarction". Stated simply, the title says that the fat in your red blood cell membranes, which reflects dietary fat composition, can predict your likelihood of having a heart attack*. More accurately than standard measures of heart attack risk such as blood cholesterol.

Let's cut to the data. The investigators examined the fat composition of red blood cells in people who had suffered a heart attack, versus an equal number who had not. Participants who had heart attacks had less omega-3, more long-chain omega-6, and particularly higher trans fat in their red blood cells. In fact, 96% of the heart attack patients had elevated trans fat levels, compared to 34% of those without heart attacks. This is consistent with a number of other studies showing a strong association between blood levels of trans fat and heart attack risk (ref).

92% of heart attack patients were in the lowest category of EPA in their red blood cells, as opposed to 32% of those without heart attacks. EPA is an omega-3 fat that comes from fish, and is also made by the body if there's enough omega-3 alpha-linolenic acid (think flax and greens) around and not too much linoleic acid (industrial vegetable oil) to inhibit its production. 96% of heart attack patients were in the lowest category for alpha-linolenic acid, compared to 34% of the comparison group. 0% of the heart attack patients were in the highest category for alpha-linolenic acid.

62% of heart attack patients were in the highest category of arachidonic acid (AA), compared to 34% of the comparison group. AA is made from linoleic acid, and is also found in animal foods such as eggs and liver. Animal foods from pasture-raised animals are lower in AA than their conventionally-raised counterparts, and also contain more omega-3 fats to balance it.

The investigators found that low omega-3, high AA and high trans fats in red blood cells associate with heart attack risk far better than the Framingham risk score, a traditional and widely-used measure that incorporates age, sex, smoking status, total cholesterol, HDL, hypertension and diabetes.

If the associations in this study represent cause-and-effect, which I believe they do based on their consistency with other observational studies and controlled trials, they imply that we can have a very powerful effect on heart attack risk by taking a few simple steps:
  1. Avoid trans fat. It's found in margarine, shortening, refined soy and canola oils, many deep fried foods and processed foods in general.
  2. Avoid industrial vegetable oils and other sources of excess omega-6. Eating pastured or omega-3 eggs, rather than conventional eggs, can help reduce dietary AA as well.
  3. Ensure a regular intake of omega-3 fats from seafood, or small doses of high-vitamin cod liver oil or fish oil. Flax oil is also helpful, but it's an inferior substitute for fish oil.
This study was conducted in Korea. It's a striking confirmation that basic nutritional principles span races and cultures, likely affecting disease risk in all humans.

In the future, I hope that most doctors will measure blood fatty acids to predict heart attack risk, with more success than current approaches. Instead of measuring cholesterol and prescribing a statin drug, doctors will prescribe fish oil and easy-to-follow diet advice**. Fortunately, some doctors are beginning to measure red blood cell fatty acid levels in their patients. The forward-thinking cardiologist Dr. William Davis has discussed this on his blog here. Take a good look at the graphs he posted if you get the chance.


*The title of the study is misleading because it implies a prospective design, in which blood fatty acids would be measured and volunteers followed to see who develops heart disease at a later time point. This study was cross-sectional (also called case-control), meaning they found people who had just had a heart attack and measured their blood fatty acids retrospectively. The other study I referenced above was prospective, which is a nice confirmation of the principle.

**"Eat butter on your toast. Ditch the margarine."

Who Should Sponsor Comparative Effectiveness Research?

We have tried to argue why comparative effectiveness research is a good idea. To cut and paste what I wrote in a previous post,

Physicians spend a lot of time trying to figure out the best treatments for particular patients' problems. Doing so is often hard. In many situations, there are many plausible treatments, but the trick is picking the one most likely to do the most good and least harm for a particular patient. Ideally, this is where evidence based medicine comes in. But the biggest problem with using the EBM approach is that often the best available evidence does not help much. In particular, for many clinical problems, and for many sorts of patients, no one has ever done a good quality study that compares the plausible treatments for those problems and those patients. When the only studies done compared individual treatments to placebos, and when even those were restricted to narrow patient populations unlike those patient usually seen in daily practice, physicians are left juggling oranges, tomatoes, and carburetors.
Comparative effectiveness studies are simply studies that compare plausible treatments that could be used for patients with particular problems, and which are designed to be generalizable to the sorts of patients usually seen in practice. As a physician, I welcome such studies, because they may provide very useful information that could help me select the optimal treatments for individual patients.

Because I believe that comparative effectiveness studies could be very useful to improve patient care, it upsets me to see this particular kind of clinical study get caught in political, ideological, and economic battles.

In particular, we have discussed a number of high profile attacks on comparative effectiveness research, which often have featured arguments based on logical fallacies. While some of the people making the attacks have assumed a conservative or libertarian ideological mantle, one wonders whether the attacks were more driven by personal financial interests. For example, see our blog posts here, here, here, and here. On the other hand, we discussed a clear-headed defense of comparative effectiveness research by a well-known economist most would regard as libertarian here.

Comparative effectiveness research has been discussed as an element of health care reform in the US. It turns out that the current version of the health care reform bill in the US Senate has a provision to create a Patient Centered Outcome Research Institute, which presumably would become the major organization which could sponsor comparative effectiveness research.

This institute, however, would not be a government agency (despite the name that makes it sound like it would be part of the National Institutes of Health). Moreover, here is a description of the Board of Governors who would run the institute from the current version of the bill :

BOARD OF GOVERNORS.—
(1) IN GENERAL.—The Institute shall have a Board of Governors, which shall consist of 15 members appointed by the Comptroller General of the United States not later than 6 months after the date of enactment of this section, as follows:
(A) 3 members representing patients and health care consumers.
(B) 3 members representing practicing physicians, including surgeons.
(C) 3 members representing private payers, of whom at least 1 member shall represent health insurance issuers and at least 1 member shall represent employers who self-insure employee benefits.
(D) 3 members representing pharmaceutical, device, and diagnostic manufacturers or developers.
(E) 1 member representing nonprofit organizations involved in health services research.
(F) 1 member representing organizations that focus on quality measurement and improvement or decision support.
(G) 1 member representing independent health services researchers.


Thus, only 3/15 members of the governing board would represent the patients who ultimately reap the benefits or suffer the harms produced by medical diagnosis and treatment. Further, 6/15 members represent for-profit corporations which stand to make more or less money depending on how particular comparative effectiveness studies come out. Also, 3/15 members would be physicians, some of who may get paid more to deliver particular treatments (e.g., procedures) than others (e.g., providing advice about diet and exercise).

We often discuss how clinical research sponsored by organizations with vested interest in the research turning out to favor their products or services may be manipulated to favor these interests, and sometimes suppressed if it does not. In the US, there are few unconflicted sources of sparse funds to support comparative effectiveness research. (The most significant current source is the Agency for Healthcare Research and Quality, AHRQ. For full disclosure, I have been an ad hoc reviewer of grants for that agency.)

The current draft of legislation would create the largest potential sponsor for comparative effectiveness research, but would make that organization report to representatives of for-profit companies whose profits may be affected by the results of such research. In my humble opinion, this is not much of an advance. Comparative effectiveness research controlled by corporations that stand to profit or lose depending on its results will forever be suspect.

If the government is going to support comparative effectiveness research, it ought to make sure such research is not run by people with vested interests in the outcomes coming out a certain way. I may be biased myself, but why not let the research be sponsored by AHRQ, an agency with relevant experience and no axe to grind vis a vis any particular product or service?

Clinic's medical files vanish

At "Data Malpractice on T-Mobile Sidekick: But Don't Worry, Your Medical Data is Safe", on Oct. 16 I wrote:

One of the promises made about healthcare IT is that your medical data is "safer" in electronic form than in paper form. The Hurricane Katrina example of paper records being destroyed is often used as a poster example of the dangers of paper records.

However, the risk of electronic storage of information, especially the talk of national EMR's stored on the "cloud" (an amorphous term meaning distributed storage "out there" whose physical sites and boundaries are supposedly irrelevant from the user's perspective) has also been under-reported.

Personal customer data had been "lost" from many of T-Mobile USA's Sidekick devices due to a computer malfunction, although the data was apparently recovered eventually, apparently through luck rather than good engineering.

I expressed concern that such mishaps could affect clinical IT. I did not have to wait long for such a case to appear. Less than one week.

Below is a story of a Canadian clinic that lost two years of electronic health records:

Clinic's medical files vanish

By Ryan Cormier, Edmonton Journal

October 21, 2009

During a recent investigation into whether a patient's confidentiality had been breached at the Fairview Medical Clinic, an investigator asked for a log of who had accessed the complainant's file. When the clinic responded that it had automated his records in 2004 but only had files from 2006 on, alarm bells rang.

"That raised a lot of questions," said Leahann McElveen, an investigator with the office of the information and privacy commissioner.

The clinic had permanently lost two years worth of health files that include patient information on visits, prescriptions, lab reports, doctor's notes and other information. The loss happened when the clinic switched from one electronic medical records system to another.

"They were two similar systems intended to do the same thing," McElveen said. "However, they weren't coded the same way behind the scenes. It's not that the records fall into the wrong hands, they just don't exist anymore."


*POOF*.

Deinstallation of one system in favor of another is not uncommon. EHR data may become unavailable due to lack of data portability and the expense of data migration, or in this case apparently due to preventable technical problems.

It is essential for clinical IT users to have robust disaster recovery and business continuity solutions, and take great care when performing actions that can lose large amounts of data very fast. This adds to clinical IT cost, and a concern is that some users might skimp on these capabilities.

This must be discouraged.

(To the reader: do you back up your own PC or Mac reliably?)

-- SS

Washington Post Article: Electronic medical records not seen as a cure-all

Regarding the very well done Sunday Oct. 25, 2009 story in the Washington Post "Electronic medical records not seen as a cure-all" by staff writer Alexi Mostrous - signup may be required for access - I have several observations.

(Not including the observation that Mr. Mostrous probably deserves an award for being the first major newspaper reporter to broach this topic in a serious and balanced manner.)

First, I believe healthcare IT can live up to all the predictions made about its benefits - but only if done well. There is massive complexity behind those two words "done well", and that is HIT's key stumbling block in 2009. I believe we are only in the adolescent stage of knowing how to "do health IT well."

Second, I should point out that the intended consequences of health IT include, among many other things, the following "hiding in plain sight" (i.e., not often verbalized) intended consequences:

  • The improvement of medicine ... in the context of protection of patient rights established over centuries of development of modern medicine.
  • The improvement of IT itself through cross disciplinary collaboration between IT and medicine, of the science of IT (computer science), the social aspects of computerization ("sociotechnical issues"), and improvement of the our understanding of the intersection of medicine and computers.

Instead, we largely have the opposite. Patients' rights are trampled, and hostility and territoriality has arisen between clinicians (including medical informaticists) and IT, groups that rarely if ever interacted in hospitals ten or twenty years ago.

Of concern, when scientific study sections evaluate NIH grant proposals calling for testing of new IT that involves patients, patient protections and informed consent processes are a paramount concern since such activities are considered research. Yet, in implementing large clinical IT system in a hospital with new features, there are no formal regulations, and I'm not sure there's even IRB involvement in most cases. Patients do not get the chance to give informed consent to the use of these IT devices mediating their care. Why the difference?

The unintended results of computerization efforts have also included suppression of research on sociotechnical issues and on informatics, which must include study of the downsides of HIT, and of the failures in addition to the study of the successes. That is scientific fact - there is no room for debate, no room for spin on the need for careful study of the downsides of any mission critical domain. One would think there to be a vibrant literature on these issues, Yet searches on massive biomedical databases such as PubMed on, say, "cerner electronic health record" (or other vendors as well) are disappointing to say the least. Further, my own website on HIT difficulties remains nearly unique (PPT) after ten years online. That is not bragging; it is a disturbing finding to me - symptomatic of an industry that somehow has managed to avoid serious scrutiny.

In a field with downsides, there are:

1) those who know about the problems but fail to speak,
2) those who see the problems but fail to act, and
3) those who see, know and speak/write/research the problems.

That said, now on to the Washington Post article:

... bipartisan enthusiasm has obscured questions about the effectiveness of health information technology products, critics say. Interviews with more than two dozen doctors, academics, patients and computer programmers suggest that computer systems can increase errors, add hours to doctors' workloads and compromise patient care.

I would include the bipartisan enthusiasm under the subject header of "irrational exuberance", which itself falls under the header of "lack of domain knowledge." That itself is a consequence of both failure to study the issues, and suppression of those issues by those with an interest in doing so.

health IT's effectiveness is unclear.

The literature is indeed conflicting, and the need for rigorous scientific study has never been more essential considering the commitment of tens of billions of dollars towards health IT. The time for story telling, marketing based on opinion, name calling, leap-of-faith extrapolations of light year dimensions, and other forms of pseudoscience and non-science are over. The time for objective study is now.

The Senate Finance Committee has amassed a thick file of testimony alleging serious computer flaws from doctors, patients and engineers unhappy with current systems.

Being the ranking member of that committee, Sen. Grassley has a fiduciary responsibility to protect Medicare and Medicaid patients (and one might argue, to protect all patients since those programs often serve as models for private insurers). In that regard, the investigation he has initiated is part of his responsibility as a ranking member of Congress. Politics aside (and there are those who will resort to ad hominem "political witch hunt" arguments), he would have been negligent if he had not initiated an inquiry.

Sen. Grassley has taken on the pharma industry and the government's Food and Drug Administration itself, such as in this recent article "FDA fails to follow up on unproven drugs" where he concluded from a GAO study he ordered that "FDA has fallen far short of where it should be for patient safety." He seems quite serious about medical safety.

If only others in Congress had done their job similarly regarding national finance, we might now not be in the worst economic crisis since '29 with many major industries failing.

David Blumenthal, the head of health technology at the Department of Health and Human Services, acknowledged that the systems had flaws. "But the critical question is whether, on balance, care is better than before," he said. "I think the answer is yes."

This sounds uncomfortably like how a pharmaceutical company might respond to doubts about drug effectiveness and safety. In reality it's really irrelevant what he "thinks." Where's the data? Is this a political statement, a personal belief, or a statement backed up by scientific fact that is not cast into doubt by other research results? Our own National Research Council, Joint Commission, and other international organizations have written about their doubts and concerns about HIT [as that IT is designed and implemented in 2009]. If there is rigorous, systematic research weighing pro's and con's to back this assertion, I wish it would be published.

For his statement is really saying "we don't really know how many systems have flaws, we know some do, and we don't really know the full extent of the impact of those flaws, but because there can be some benefits, let's spend $50+ billion before we know the extent of the problems and fix them." I point out research from Harvard forty years ago, when Harvard informatics pioneer Dr. Octo Barnett published the "Ten Commandments of HIT." Two of those commandments were:

... 8. Thou shall be concerned with realities of the cost and projected benefit of the computer system [i.e., ROI - ed.]

10. Be optimistic about the future, supportive of good work that is being done, passionate in your commitment, but always guided by a fundamental skepticism.

The full set is in this post. Somewhere in the past 40 years, the rigorous ROI evaluations (which also must include systematic evaluations of risk, as any businessperson knows) and the fundamental skepticism seem to have gotten lost.

Over the next two months, Blumenthal will finalize the definition of "meaningful use," the standard that hospitals and physicians will have to reach before qualifying for health IT stimulus funds.

This is an example of putting the cart before the horse, and is a semantically-based, self contained logical fallacy of sorts. If a health IT system is harmful, the term "meaningful use" is itself Orwellian. If we don't know if HIT is beneficial, or have doubts, then such as term presupposes that health IT is inherently beneficial. A better term would have been "good faith use" - use based on the faith or hope that health IT will have an overall positive effect. The term "meaningful use" jumps the gun and is more a political slogan than a "meaningful term."

"If you look at other high-risk industries, like drug regulation or aviation, there's a requirement to report problems," said David C. Classen, an associate professor of medicine at the University of Utah who recently completed a study on health IT installations.

This is obvious, the reasons for it are obvious, and the reasons why health IT needs a requirement for problems reporting (one aspect of post-marketing surveillance, the "Phase IV" study as it is known in pharma) is obvious. Yet in 2009, no such requirement exists (see my post "Our Policy Is To Always Have Unabashed Faith In The Computer" for more on why we need reporting requirements.) Why do these requirements simply not exist in HIT?

"It's been a complete nightmare," said Steve Chabala, an emergency room physician at St. Mary Mercy Hospital in Livonia, Mich., which switched to electronic records three years ago. "I can't see my patients because I'm at a screen entering data." Last year, his department found that physicians spent nearly five of every 10 hours on a computer, he said. "I sit down and log on to a computer 60 times every shift. Physician productivity and satisfaction have fallen off a cliff."

The industry in the past has called such physicians "luddites", "resistant to change", "stubborn" etc. However, argumentum ad hominem is a fallacious mode of argument that has no place in a scientific field such as biomedicine. There also seems to be quite a lot of such concerns expressed by a large number of physicians, nurses, etc., and dismissing their concerns with a wave of the hand is cavalier in the extreme - again, these are first principles, without room for argument or debate. Let's study the issues rigorously and scientifically before resorting to ad hominem.

Other doctors spoke of cluttered screens, unresponsive vendors and illogical displays. "It's a huge safety issue," said Christine Sinsky, an internist in Dubuque, Iowa, whose practice implemented electronic records six years ago.

See my eight part series on mission hostile clinical IT here for examples of what Dr. Sinsky is referring to.

She emphasized that electronic records have improved her practice. "We wouldn't want to go back," she said. "But EHRs are still in need of significant improvement."

Yes, not cancellation, but improvement. And, quite importantly, before tens of billions of dollars are spent. Hospitals and physician offices are not an IT development laboratory, since the users of these facilities (patients) have very special rights and the clinicians, very special obligations and responsibilities.

Legal experts say it is impossible to know how often health IT mishaps occur. Electronic medical records are not classified as medical devices, so hospitals are not required to report problems.

That after decades of HIT development, sales and implementation we cannot know with certainty how often mishaps occur is, quite simply, a scandal of major proportions. Quoting an old House of God law, #10: "if you don't take a temperature, you can't find a fever." Another applicable aphorism seen on another discussion board: "you can only be so negligent or craven before the only remaining rationale is that you intended the result."

"Doctors who report problems can lose their jobs," Hoffman said.

I've taken risks with my own career in criticizing health IT, as have my colleagues. Hoffman is not exaggerating.

"Hospitals don't have any incentive to do so [speak out about problems with HIT] and may be in breach of contract if they do."

Imagine the outcry if the same prevailed regarding drugs or medical devices. The cemeteries would be lined with people whose epitaph could read "we bury our mistakes."

While orange-shirted vendor employees "ran around with no idea how to work their own equipment," the internist said, doctors struggled to keep chronically ill patients alive. "I didn't go through all my training to have my ability to take care of patients destroyed by devices that are an impediment to medical care."

This gets to issues I first raised in my website on HIT difficulties: who are these IT personnel, and what are their qualifications, exactly, to be working in mission critical medical environments? How is their competence evaluated?

I think these are questions that need to be answered.

-- SS

Washington Post: EMR's No Cure-All; Sen. Grassley Sends Letter of Inquiry to health IT vendors

Senator Grassley has sent a letter out to ten major health IT vendors seeking information on health IT problems and flaws. The letter can be retrieved from this link (PDF) at the Washington Post. Read the whole thing.

It is linked via a Washington Post story "Electronic medical records not a cure-all", Sunday Oct. 25, 2009, by staff writer Alexi Mostrous. The WaPo article itself seems to require registration. I will comment on the article in future posts.

Addendum 10/25: I have now commented on the article here.

-- SS

"Organisational Ethics Policies; A Primer"

I regret that it took me so long to find an essay on "Organisational Ethics Policies" by Howard Whitton, available from the European U4 Anti-Corruption Resource Center. While it was written with international non-governmental organisations (NGOs) who "administer aid programs" in mind, it seems applicable to all kinds of NGOs and not-for-profit organizations, including those in health care. In the US, most medical schools and their parent universities, most hospitals and academic medical centers, essentially all medical societies and disease advocacy groups, and some insurance companies and managed care organizations are not-for-profit.

The main points of the paper are its summaries of the basic elements of "effective ethics policies."

First, such a policy

- must first have unequivocal authority and the endorsement of boards and senior management, and must be:
o founded on the organisation’s core values, mandate, and ethical principle
o developed in consultation with those affected by it
o realistically achievable
o written in plain language, coherent with other policies, and easily available
o clearly understood by staff, and by other stakeholders
o consistent with the organisation’s policies on rewards and sanctions
o regularly reviewed and evaluated with all stakeholders
o universally applied, and transparently enforced.


The main content areas might include such "major areas of ethical risk" as:
o financial management and accountability standards
o internal and external audit processes
o professional ethics, conduct, and conflict of interest standards
o fair treatment rules for staff and clients
o processes for the prevention of fraud and other abuse of trust
o integrity mechanisms governing proper decision-making
o provision of transparent information to stakeholders
o complaints and whistleblower disclosure processes
o principled policy dispute processes
o transparent and objective evaluation mechanisms.

So, specific policies should include the following functional elements:

o a code of conduct/ethics based on the organisation’s core values
o professional practice standards interpreting the code’s principles
o procedures for managing conflict of interest situations (including the registration of relevant interests and assets of decision makers)
o procedures for offering and accepting gifts and business courtesies
o criteria for the proper use of organisational assets and authority
o prohibition of harassment and discrimination in the workplace
o criteria for protected reporting of unethical or illegal behaviour
o rights of clients to obtain service, including complaint procedures for failure to meet standards
o obligations for accountability and transparency,and information provision
o standards for dealing with confidential and privileged information
o constraints on ancillary and post-separation employment
o standards for providing reasons for administrative decisions.


Also the policies should include:

• A commitment to training staff in the full range of ethics-related activities. Training will improve personal awareness and strengthen the ability to define and manage improper conduct, whether by co-workers, managers, or external stakeholders.
The range of training themes should include the organisation’s integrity system, specific anticorruption measures, harassment-free workplaces, non-discrimination principles, financial management and audit, integrity in procurement practices, donor relations, personal and institutional conflict of interest, accountability, responsibility, procedural fairness, and strategic problem-solving.

• Policies and procedures for regular management reporting to boards and executives, in particular to enable monitoring of matters which may be of particular concern from time to time.

• Independent, external scrutiny of policies provide an important resource for boards and executives for ensuring that espoused core values and actual behaviours are aligned, and to identify areas of policy and management practice requiring
improvement.

• Policies and procedures for protected reporting of improper conduct, both to enhance worker and stakeholder confidence in the integrity of an organisation, and to provide avenues for early detection of inappropriate behaviour. Genuine
whistleblowing must be effectively endorsed, and effectively protected, to ensure the organisation’s credibility.

• Procedures for the sanctioning of improper conduct and failure to meet relevant standards by staff, structured so as to enhance management’s capacity to deal effectively with ethical issues in the workplace.

Such policies cannot be considered ethical panaceas, but in my humble opinion (and based, I believe, on at least a little cognitive psychology), visible, reasonable, clear ethics policies could reduce the sort of bad behavior that Health Care Renewal often discusses on the part of leaders of major health care not-for-profit organizations and NGOs.

So, those of you who work for or are otherwise affiliated with a not-for-profit university, medical school, hospital, academic medical center, medical organization, disease advocacy organization, or insurance company/ managed care organization might want to go through the exercise of answering these questions:
1 - Does your organization have anything that resembles an ethics policy?
2 - If so, which of the characteristics listed above does it have?
3 - Which of the content areas listed above does it include?
4 - Which of the functional and additional elements listed above does it include?

If much is missing, is there an obvious reason for what was omitted? If the policy seems poorly characterized or incomplete, why should it not be improved? Would you feel comfortable suggesting improvements? If not, why not, and what does that say about the organization?

Academic Freedom Curtailed: Censorship Down Under On EHR's for the Emergency Department?

In a stunning development:

The essay on Emergency Department electronic health record (EHR) problems in the Australian state of New South Wales (NSW) by medical informatics professor Dr. Jon Patrick, Health Information Technologies Research Laboratory (HITRL), University of Sydney, that I referenced in my posts "The Story of the Deployment of an ED Clinical Information System ‐ Systemic Failure or Bad Luck" and "NSW Nightmare and Overuse of Computers" appears to have been censored. This apparently occurred at the level of the the government.

The essay was available as item 6 at http://www.it.usyd.edu.au/~hitru/index.php?option=com_content&task=view&id=91&Itemid=146 . Attempts to download now provide a message "This document is not currently available." I do not know if the vendor was involved.

(A copy of vers. 3 of Professor Patrick's report is still available here in PDF; it was a work in progress when it was pulled.) [Oct. 24 - see addendum below - ed.]

This appears to be an overt example of suppression of academic freedom that I believe should receive widespread attention, most especially if there is retaliation of any kind against the professor.

I also believe censorship of a document such as this could escalate to a human rights issue regarding what appears to be deliberate censorship of critical information about IT systems that could possibly be putting large numbers of patients at risk. Imagine if this was a report about potentially defective nuclear reactor control systems or containment processes at biological hazards research sites.

I believe addressing the issues raised in the report would have been a far more responsible approach than censorship.

-- SS

Addendum 10/24: The author of the paper asked me to remove it from my server as well. It is currently unavailable. This situation is in flux and hopefully will be resolved soon. Hopefully, the issues in the report will be addressed.

Note to readers referred here from the Oct. 20 NY Times

Note to readers referred here from the Oct. 20 NY Times story "Steps to Greater Accountability in Medical Education" by Duff Wilson:

This is a multi-author blog. The essay "Nemeroff, Seroquel, and ACCME" by Dr. Bernard Carroll is at this link on the blog.

Medical Informatics, Pharma, Health IT, and Golden Advice That Sits Sadly Unused

In recent correspondences with colleagues I was reminded of a letter I wrote seven years ago that was published in Bio-IT World, a journal about biomedicine focusing mainly on pharma, bioinformatics and related fields.

As the sole formally-trained Medical Informatics specialist at Merck, I wrote:

Medical Informatics MIA [Missing in Action - ed.]
Bio-IT World
August 13, 2002

Dear Bio-IT World:

I enjoyed reading the article "Informatics Moves to the Head of the Class" (June Bio·IT World). Thank you for spotlighting the National Library of Medicine (NLM) training programs in medical informatics and bioinformatics, of which I am a graduate (Yale, 1994).

Bioinformatics appears to receive more media attention and offer more status, career opportunities, and compensation than the less-prestigious medical informatics.

This disparity, however, may impede the development of next-generation medicines. Bioinformatics discoveries may be more likely to result in new medicines, for example via pharmacogenomics, when they are coupled with large-scale, concurrent, ongoing clinical data collection. At the same time, applied medical informatics, as a distinct specialty, is essential to the success of extensive clinical data collection efforts, especially at the point of care.

Hospital and provider MIS personnel are best equipped for implementing business-oriented IT, not clinical IT. Implementing clinical IT in patient-care settings constitutes one of the core competencies of applied medical informaticists.

Informatics specialists with a bioinformatics focus — even those coming from the new joint programs — usually are not proficient in hospital business and management issues that impede adoption of clinical IT in patient care settings. Such organizational and territorial issues are in no small way responsible for the low utilization of clinical IT in patient care settings.

It will be important for medical informaticists focused in the clinical domain and bioinformaticists specializing in the molecular domain to collaborate with other specialists in order to best integrate clinical and genomic data.

Further information on these issues can be found in the book Organizational Aspects of Health Informatics: Managing Technological Change, by Nancy M. Lorenzi and Robert T. Riley (Springer-Verlag, 1995). Various publications from the medical informatics community, such as the American Medical Informatics Association (www.amia.org) and the International Medical Informatics Association (www.imia.org), are also useful.

Scot Silverstein, MD
Director, Published Information Resources & The Merck Index
Merck Research Laboratories


I was also responsible for the entry of the term "Medical Informatics" into the controlled vocabulary pool used for various purposes at Merck.

As far as I can tell, the Medical Informatics talent gap still exists in all major pharmas despite writings on the topic from colleagues as well as myself. With the present turmoil including declining pipelines, mergers and mass layoffs pending in many large pharmas, and even despite Medical Informatics on a fast path to being declared a full medical subspecialty, it is likely this gap will persist for years longer. This is a shame. The field offers insights that can help R&D substantially, and I speak from direct experience from my time in that domain.

I am reminded via all this of another industry that seems to hurt itself via ignoring the advice of Medical Informatics professionals, the health IT industry. Healthcare IT is actually the core competence of Medical Informatics professionals, but those people are under-represented in the higher ranks of the health IT industry as well. Many job postings seek such people, but for lower level roles (as I've posted here in the past), and/or conflate formal training with informal experience and with those who qualify for the title of Medical Informaticist like I qualify (being an amateur radio licensee, extra class) as a professional RF engineer.

The irony is this: the wisdom of the Medical Informatics field on health IT goes back not years, but decades. It is advice that could have made the vendors much higher margins, allowed them to produce better products, avoid the government regulation that is now nearly inevitable (in some EU countries, clinical IT has already been determined to be a medical device requiring regulation), and in many cases, enabled corporate longevity.

Yet the teachings and accumulated wisdom of the field were, and largely still are, ignored, making books such as the new "H.I.T. or Miss: Lessons Learned from Health Information Technology Implementations" necessary even in 2009.

Here is just a small sampling of that wisdom:

Dr. Donald A. B. Lindberg (now Director of the U.S. National Library of Medicine at NIH), 1969:
"Computer engineering experts per se have virtually no idea of the real problems of medical or even hospital practice, and furthermore have consistently underestimated the complexity of the problems…in no cases can [building appropriate clinical information systems] be done, simply because they have not been defined with the physician as the continuing major contributor and user of the information."


Dr. Octo Barnett's [Harvard] health IT Ten Commandments, 1970:
1. Thou shall know what you want to do
2. Thou shall construct modular systems - given chaotic nature of hospitals
3. Thou shall build a computer system that can evolve in a graceful fashion
4. Thou shall build a system that allows easy and rapid programming development and modification
5. Thou shall build a system that has consistently rapid response time and is easy for the non-computernik to use
6. Thou shall have duplicate hardware systems
7. Thou shall build and implement your system in a joint effort with real users in a real situation with real problems
8. Thou shall be concerned with realities of the cost and projected benefit of the computer system
9. Innovation in computer technology is not enough; there must be a commitment to the potentials of radical change in other aspects of healthcare delivery, particularly those having to do with organization and manpower utilization
10. Be optimistic about the future, supportive of good work that is being done, passionate in your commitment, but always guided by a fundamental skepticism.

[Dr. Barnett played a key role in the 2009 National Research Council report about current approaches to health IT being inadequate, Press Release at http://www8.nationalacademies.org/onpinews/newsitem.aspx?RecordID=12572, and full report "
COMPUTATIONAL TECHNOLOGY FOR EFFECTIVE HEALTH CARE: IMMEDIATE STEPS AND STRATEGIC DIRECTIONS. - ed.]


Dr. Morris Collen's Five Rules, 1972
Most common causes of health IT failure:
  • Suboptimal mix of medical and computer specialists … resulting in communications difficulties and in the computer staff underestimating the vast medical needs
  • Gross underestimation of the large amounts of money needed
  • Suboptimal systems approach with serious incompatibilities between modules
  • Unacceptable terminals
  • Inadequate management organization and poor judgment


Dr. R. Friedman, Reasons for slow spread of EMR, 1977:
  • Poor engineering and unreliability
  • Physicians not provided with computer-based applications that exceeded their own capability!
  • Inability to prove a positive effect on patient care
  • Difficulty transferring one application from one institution to another

(All taken from Collen's "A history of Medical Informatics in the United States, 1950-1990".
)


I might add that the PC did not even exist in 1977, unless you consider the Altair and Heathkit H8 "personal computers."

Four-decades-old wisdom like this, and much more, sits out there in the ether and in the Medical Informatics field's professionals like a pot of gold, but is apparently considered as valuable as lead by the HIT - and pharma - industries. I find this amazing - and a pity.

-- SS

NSW Nightmare and Overuse of Computers: Do We Really Need Full EHR's in ED's?

At "From Down Under: The Story of the Deployment of an ED Clinical Information System ‐ Systemic Failure or Bad Luck" I posted excerpts from a paper of the same name by an Australian medical informatics specialist, Professor Jon Patrick from the Health Information Technologies Research Laboratory (HITRL), University of Sydney, about what appears to be an Emergency Department (ED) nightmare. The paper is here. [10/24 note: not available at present at this link or from its author in Australia; I pulled it from the Drexel U. server in the U.S. at the author's request while his right to post it on his department's server in Australia is being discussed Down Under - ed.]

[2010 update: the paper is now at the following link (PDF): A Critical Essay on the Deployment of an ED Clinical Information System - Systemic Failure or Bad Luck, version 6. Prof. Jon Patrick, Health Information Technologies Research Laboratory, University of Sydney, Australia, Dec. 2009.]

Those excerpts should be frightening to anyone who ever gets ill and might need to visit an ED (meaning, all of us).

An ED electronic health record system (EHR) is being installed in an entire Australian state, New South Wales (NSW), with 200+ hospitals that apparently presents a mission hostile user experience and is causing great opposition by critical care physicians in a setting where death can occur - suddenly and irreversibly - in the flash of an eye.

His essay about the problems with complex EHR's (of American design and manufacture, no less) being installed in Australian ED's -- without doubt a highly expensive undertaking -- raises several questions about both the EHR industry and hospitals themselves.

When I was a CMIO at a 1400+ bed hospital system a decade ago, a regional center in a state with very few hospitals at all (Medical Center of Delaware, now Christiana Care Health System), I counseled that the best solution in my opinion for the very, very busy ED was document imaging of paper, supplemented by a nurse/intake triage system to rapidly record and/or confirm basics (e.g., meds/major problems/allergies/vitals) that was interfaced to the main EHR system.

I based this on the assessment that in the ED, a localized and "closed" environment, the incidence of charts getting lost or writing being illegible resulting in adverse outcomes was minimal. ED charts also did not get lost when patients moved to the floors and the information passed along on paper was adequate for quick transfer and acceptance. Therefore we felt images of past ED charts (of paper) would be satisfactory for assisting care in the ED, where time constraints and hectic pace made the type of EHR system and primary data entry described in the Australian paper disadvantageous (and for exactly the reasons described in the above linked essay from Down Under).

Document imaging is a proven technology that works well even in high volume settings. For example I managed a pharma departmental budget of $13 million, as did an entire pharma company, using an enterprise document imaging system.

I've also been startled by the ED EHR installed at the hospital where I take my mother, who unfortunately has needed far too many admissions in recent years than I care to see. Some of the ED staff were my former medical colleagues and even high school classmates. They've told me, in no uncertain terms, that they felt the system was terrible, again for many of the reasons cited in the Australian essay. My own views of it (albeit brief) showed what appeared to be a mission hostile user environment, including multiple very tiny pulldowns, cornucopia-like picklists, and screens.

Most recently that system did not prevent busy ED docs from almost giving my mother Levaquin after her telling the triage nurse it had caused tendon rupture in the past - and the data being entered. They actually brought in a bag of it to hang, and if I'd not been there as medical advocate for my mother they might have given it. Then when she got to the floor, the next day they almost gave it to her again, except by this time mom was her own medical advocate. I trained in that hospital, and as Admitting Officer for the ED held the record for the most number of admissions, ever, in one night (New Year's Eve 1986), when it was beyond crazy, starting out with one of our own physicians being brought in, shot in the chest, and dying after open heart massage just to set the mood.

The surgeons did the cutting. The heart massage was relegated to the physician present who didn't cut - the internal medicine representative - me.

We managed to treat hundreds and admit several dozens of sick patients using paper, and despite our gloomy emotional state not a single error occurred, to my knowledge.

With all this in mind, I raise these questions:

  • Can the EHR industry actually produce a competent ED EHR that can be used by ED physicians to enter detailed data in real time?
  • Do we really need full EHR's in the ED?
  • A related question: is the extent of ED adverse events related to lost or illegible ED charts (that could not be remediated with non-technology-based solutions far less expensive and troublesome than EHR's) known to a significant degree of confidence?
  • Is there trustworthy literature that shows that the time, expense, and resources for a full ED EHR are worth it in terms of clinical outcomes, ROI etc.? (By trustworthy, I mean scientific peer reviewed literature without author conflict of interest - common in biomedicine as readers of this and other healthcare blogs know, e.g., see this link - not glossy pseudo-P.R. health IT throwaway journals.)
  • Considering that the literature on benefits of EHR's in general is equivocal, I should also ask, is there literature that refutes the value of full ED EHR's, or shows it as possibly having a negative return?
Or:

  • Are we over-computerizing healthcare, even specialties and subspecialties where doing so might actually be deleterious due to the nature of their specific medical environments, just because "we can" (and because there is money to be made by some)?
  • Are we doing so based on irrational exuberance, leap of faith, hope, and/or an uncritical belief that if health IT provides benefits to medical domain "A0", it therefore must benefit medical domains and subdomains B1 to B99 through Z1 to Z99 as well?

I am concerned about the probability that the latter is the case.

I think it not unreasonable to ask these questions before we in the United States spend billions of dollars on our own ED's.

-- SS

Butter vs. Margarine Showdown

I came across a gem of a study the other day, courtesy of Dr. John Briffa's blog. It's titled "Margarine Intake and Subsequent Coronary Heart Disease in Men", by Dr. William P. Castelli's group. It followed participants of the Framingham Heart study for 20 years, and recorded heart attack incidence*. Keep in mind that 20 years is an unusually long follow-up period.

The really cool thing about this study is they also tracked butter consumption. So it's really a no-holds barred showdown between the two fats. Here's a graph of the overall results, by teaspoons of butter or margarine eaten per day:

Heart attack incidence increased with increasing margarine consumption (statistically significant) and decreased slightly with increasing butter consumption (not statistically significant). That must have been a bitter pill for Castelli to swallow!

It gets better. Let's have a look at some of the participant characteristics, broken down by margarine consumption:

People who ate the least margarine had the highest prevalence of glucose intolerance (pre-diabetes), smoked the most cigarettes, drank the most alcohol, and ate the most saturated fat and butter. These were the people who cared the least about their health. Yet they had the fewest heart attacks. Imagine that. The investigators corrected for the factors listed above in their assessment of the contribution of margarine to disease risk, however, the fact remains that the group eating the least margarine was the least health conscious. This affects disease risk in many ways, measurable or not. I've written about that before, here and here.

Can this study get any better? Yes it can. The investigators broke down the data into two halves: the first ten years, and the second ten. In the first ten years, there was no significant association between margarine intake and heart attack incidence. In the second ten, the group eating the most margarine had 77% more heart attacks than the group eating none:

So it appears that margarine takes a while to work its magic.

They didn't publish a breakdown of heart attack incidence with butter consumption over the two periods. Perhaps they didn't like what they saw when they crunched the numbers. I find it really incredible that we're told to avoid dairy fat with data like these floating around. The Framingham study is first-rate epidemiology. It fits in perfectly with most other observational studies showing that full-fat dairy intake is not associated with heart attack and stroke risk. In fact, several studies have indicated that people who eat the most full-fat dairy have the lowest risk of heart attack and stroke.


It's worth mentioning that this study was conducted from the late 1960s until the late 1980s. Artificial trans fat labeling laws were still decades away in the U.S., and margarine contained more trans fat than it does today. Currently, margarine can contain up to 0.5 grams of trans fat per serving and still be labeled "0 g trans fat" in the U.S. The high trans fat content of the older margarines probably had something to do with the result of this study.

That does not make today's margarine healthy, however. Margarine remains an industrially processed pseudo-food. I'm just waiting for the next study showing that some ingredient in the new margarines (plant sterols? dihydro vitamin K1?) is the new trans fat.

Butter, Margarine and Heart Disease
The Coronary Heart Disease Epidemic


* More precisely, "coronary heart disease events", which includes infarction, sudden cardiac death, angina, and coronary insufficiency.

Butter vs. Margarine Showdown

I came across a gem of a study the other day, courtesy of Dr. John Briffa's blog. It's titled "Margarine Intake and Subsequent Coronary Heart Disease in Men", by Dr. William P. Castelli's group. It followed participants of the Framingham Heart study for 20 years, and recorded heart attack incidence*. Keep in mind that 20 years is an unusually long follow-up period.

The really cool thing about this study is they also tracked butter consumption. So it's really a no-holds barred showdown between the two fats. Here's a graph of the overall results, by teaspoons of butter or margarine eaten per day:

Heart attack incidence increased with increasing margarine consumption (statistically significant) and decreased slightly with increasing butter consumption (not statistically significant). That must have been a bitter pill for Castelli to swallow!

It gets better. Let's have a look at some of the participant characteristics, broken down by margarine consumption:

People who ate the least margarine had the highest prevalence of glucose intolerance (pre-diabetes), smoked the most cigarettes, drank the most alcohol, and ate the most saturated fat and butter. These were the people who cared the least about their health. Yet they had the fewest heart attacks. Imagine that. The investigators corrected for the factors listed above in their assessment of the contribution of margarine to disease risk, however, the fact remains that the group eating the least margarine was the least health conscious. This affects disease risk in many ways, measurable or not. I've written about that before, here and here.

Can this study get any better? Yes it can. The investigators broke down the data into two halves: the first ten years, and the second ten. In the first ten years, there was no significant association between margarine intake and heart attack incidence. In the second ten, the group eating the most margarine had 77% more heart attacks than the group eating none:

So it appears that margarine takes a while to work its magic.

They didn't publish a breakdown of heart attack incidence with butter consumption over the two periods. Perhaps they didn't like what they saw when they crunched the numbers. I find it really incredible that we're told to avoid dairy fat with data like these floating around. The Framingham study is first-rate epidemiology. It fits in perfectly with most other observational studies showing that full-fat dairy intake is not associated with heart attack and stroke risk. In fact, several studies have indicated that people who eat the most full-fat dairy have the lowest risk of heart attack and stroke.


It's worth mentioning that this study was conducted from the late 1960s until the late 1980s. Artificial trans fat labeling laws were still decades away in the U.S., and margarine contained more trans fat than it does today. Currently, margarine can contain up to 0.5 grams of trans fat per serving and still be labeled "0 g trans fat" in the U.S. The high trans fat content of the older margarines probably had something to do with the result of this study.

That does not make today's margarine healthy, however. Margarine remains an industrially processed pseudo-food. I'm just waiting for the next study showing that some ingredient in the new margarines (plant sterols? dihydro vitamin K1?) is the new trans fat.

Butter, Margarine and Heart Disease
The Coronary Heart Disease Epidemic


* More precisely, "coronary heart disease events", which includes infarction, sudden cardiac death, angina, and coronary insufficiency.