Saturday, May 25, 2019
Chemical Imbalance As Advertising Meme
After a protracted discussion on the previous post, I thought I would go down to the University of Minnesota Biomed library today and look at the drug ads in psychiatric journals at about the time Prozac came out in 1987. I was interested in the trends before and after so I picked the years 1985 to 1995. I also picked the journals the American Journal of Psychiatry, Archives of General Psychiatry (currently JAMA Psychiatry), and the Journal of Clinical Psychiatry. I was going to include JAMA and the New England Journal of Medicine. They had about the same number of ads but none of them in that year contained ads for psychiatric medications.
This kind of search is labor intensive these days. There was a time on the early days of the Internet when entire journals with all of the ads were scanned in. As a subscriber I could have run that search from home. These days, all of the ads are gone and the references are saved as text files only. In order to see historical ads - the hard copy of the original journal needs to be examined. Even then there are some problems. I encountered some bound volumes where the ads were physically removed. There were two to three bound volumes per year and additional copies of the NEJM and JAMA - I may have looked at 75 bound volumes over 4 hours.
In many ways it was a walk down memory lane. Clozaril and Haldol Decanoate ads were especially heavy in the early 1990s. There were ads for medications that I prescribed all of the time like Navane and Pamelor and ads for drugs that I seldom prescribed like Stelazine, Serzone and Luvox. There were ads for new drugs that I would prescribe once like Paxil. It was a reminder that despite all of the advertising - a lot of drugs end up never being prescribed by physicians. My reason for being there was to look for the origins of the term "chemical imbalance" in this advertising.
I decided to embark on this project because of all of the inaccuracy about the term, especially the tendency to blame psychiatrists for it. In my previous post, I attempted to point out that it is a fairly straightforward process to conclude that the human brain does not run on chemical imbalances - just based on the average scientific knowledge of physicians. On the advertising side, I was there for the first National Depression Screening Day in 1990 and that was the first time I heard the term. The event has been criticized as a venue for allowing a pharmaceutical company to showcase their product. I participated in the event for 3 years and the advertising involved was much more subtle than is found today at NAMI walks for example. But the question is whether the advertising meme "chemical imbalance" was introduced at that time. Any event that happened 30 years ago is very hard to track. As the Public Affairs Rep for my District Branch of the APA, I had a lot of files about it that I subsequently trashed. I am guessing there were also some files on disk drives that would have been helpful. This is a reconstruction without that data.
I successfully located the first Prozac ad in AJP from 1988. The graphics are all iPhone photos so there is some distortion. Chemistry is emphasized on page one as in the chemical structure, chemically unrelated to other antidepressants, distinctive chemistry, and the first highly specific and highly potent blocker of serotonin reuptake.
Why is this important? At the time most of the antidepressants being used were tricyclic antidepressants. They could not claim any specificity and in subsequent ads manufacturers start to compare possible side effects based on transporter monoamine protein and receptor affinities. The Prozac molecule was being hyped as being chemically unique and with a better side effect profile. As Prozac started to sell more it became a blockbuster drug for Eli Lilly and at that point the manufacturers of other new antidepressants noted and the competition heated up. There were some direct references to Prozac in the ads from competitors.
The best example is this Wellbutrin ad from AJP in 1991. Prozac is directly mentioned in the ad and reasons are given for choosing Wellbutrin over Prozac. Being non-serotonergic is one of them and this is more of a counter to Prozac advertising as being a unique first highly selective serotonergic drug. It gives little or no weight gain as a reason, but at the time I was seeing obese patients who were taking 80 mg of Prozac because their primary care physicians told them they could lose weight taking it. Of the other bullet points it seems that lack of sexual dysfunction would be the most relevant. The marketing decision in this case was a conscious decision to go after the purported serotonergic effects of Prozac rather discuss the hypothetical mechanism of Wellbutrin. The side effect of Wellbutrin that most physicians are concerned about - seizures - is in the smaller print below the bullet points.
Effexor came up with similar ads. In the late 1980s and early 1990s, synaptosome technology was invented to look at binding affinities of central nervous system medications to specific receptor sites. The quantitative aspects of these studies were generally globalized in the psychiatric literature to qualitative ballpark effects. For example a plus or minus grading system could be used ranging from no effect at a receptor (-) to a robust effect (++++). Effexor advertising used this to compare side effect profiles among the competitive antidepressants at the time.
This ad emphasizes that Effexor is "a structurally novel antidepressant and is chemically unrelated to any other available antidepressant." It shows the table with comparisons to tricyclic antidepressants (TCAs) and selective serotonin reuptake inhibitors (SSRIs) and what might be predicted based on the in vitro synaptosome data with the qualifier that the clinical significance of that data is unknown. Clinically most people are able to tolerate all three classes of medication but some will not. The differences can't be predicted on the basis of the receptor binding studies because of receptor heterogeneity and differences in drug metabolism. For example, I still prescribe TCAs. It is nortriptyline and it is the only one I have ever prescribed. At the doses I prescribe and per the table in the ad - it is as well tolerated as SSRIs and SNRIs (Effexor). The ad appeared in the AJP in April of 1994. On that basis the argument could be made that it is an appeal to the technical expertise of psychiatrists and it should contain this information. That also points to a weakness in my informal advertising study and that is a lack of ads from the non-technical consumer literature from the same period. (see supplementary on a proposal).
I have 30 additional ads from the journals but the themes are roughly the same. An emphasis on medicinal chemistry and the suggestions that some chemistry is better than others. Interestingly, in my previous post the whole point was that this is the kind of argument that would not fly based on what the average physician knows about chemistry and molecular biology. Psychiatrists should know a lot more because the evidence for and against these theories had been reviewed in the psychiatric literature 20 years before these ads came out (1974-2002) (1). And they are engaged in clinical practice and need to be skeptical of newly introduced products and claims.
What I did find so far is unequivocal evidence that the chemical imbalance meme was used to directly market antidepressants to the public. The Zoloft ad embedded at the top of this page from 2001 is the first example. The second example is this Paxil ad from the same year.
That is what I have so far. See the Supplementary below to find out what you can do to complete the story. I don't have a problem with people telling me that their doctor told them that they have a chemical imbalance and their antidepressant is supposed to treat that. I don't have a problem with people saying that their psychiatrist told them that. I do have a problem with people saying that all or even most psychiatrists say this and that psychiatrists are behind this meme.
There is an exaggerated focus on the mechanism of action of medications used for psychiatric indications. I have never heard anyone say their doctor told them about the mechanism of action of antibiotics or even their blood pressure medications. In the case of antibiotics it is clear that people demand them and they don't care what the risks or mechanisms are. This advertising campaign may have something to do with the conversion of folk psychologists to folk psychopharmacologists. A friend of mine also brought up an important aspect of this campaign that is also addressed by these manufacturers and that is legitimacy. For decades people with depression and anxiety were viewed as weak people with a questionable problem. My friend told me that these ads confirmed that she had a serious problem that needed a serious solution and that it was finally acceptable to talk about it. Say whatever you want about Big Pharma advertising but it apparently carried the message that current "Let's Talk About Mental Health" programs do - but over 15 years ago.
The attribution of an advertising meme to psychiatry and psychiatrists despite the fact it has never appeared in 30 years of psychopharmacology texts is not a trivial fact. The advertising videos posted here were viewed by tens of millions of people. I hope to get more information and still have some people to contact. With any luck I will be able to fill in the additional data between the release date of Prozac in 1987 and the ads posted here from 2001.
Please send me anything you might have from those dates.
George Dawson, MD, DFAPA
References:
1. Nathan KI, Schatzberg AF. Mood disorders. in Review of Psychiatry, vol 13. American Psychiatric Press, Washington DC(1994): p.171-184
Supplementary 1:
From the information I posted above it is clear that chemical imbalance was an advertising meme introduced during the height of competition of blockbuster antidepressant drugs. The common Wall Street definition of a blockbuster pharmaceutical is a product that generates sales of a billion dollars a year. There are two important pieces of data that would be useful to complete the story.
The first is earlier ads with the term chemical imbalance. So far, I have two from 2001, but I am certain it appeared before that. I don't have time to search all of the popular literature. If you subscribe to a magazine that has pharmaceutical advertising and keep all of the old volumes - take a look at the editions from about 1987 to 1995. If you see the term chemical imbalance please send me the image with the name and date of the periodical. Let me know if you want credit for finding the image and I will give you full credit.
If you are a current or former pharmaceutical rep or marketing person and have access to any documents or videos with the chemical imbalance phrase please send it to me with the date it was being used. If you have recollections of how it was implemented and when I can also use that information but I am most interested in clear documentation like the videos I have posted. I have no interest in vilifying the pharmaceutical industry and understand the need for marketing and advertising. I am just interested in the origins of this term and how it was implemented.
If you are an APA member and you were involved in the original National Depression Screening Day in 1990 - you may also have some information about this. Please send it to me.
Thanks!
Supplementary 2:
All of the name brand drugs/medications mentioned in this post are currently generics or are no longer manufactured. I have no affiliation with the original manufacturers or the generic drug industry.
Supplementary 3:
There are various Internet sites that attribute the term chemical imbalance to Pfizer or Lilly but they do not appear to be reliable - many appear to be antipsychiatry sites. I would like to hear from people who were there at the time and can provide the necessary proof. In those days (1986-1996) it would have been an internal memo or presentation. Send me a copy if you have it.
Supplementary 4:
I had the opportunity to discuss this issue with a corporate attorney - especially the issue of available emails and memoranda dating back to 1987. He told me that corporations hold this data only as long as the law states they needs to. For example, if the law states the data must be held for 4 years it will be held exactly that long and then everything will be shredded. If this information exists it will probably be in private hands.
Supplementary 5:
I got the expected low level feedback from a Twitter poster who thought he was making some point about this link on the Royal College of Psychiatrists web site suggesting that at least one of the causes of schizoaffective disorder was "a chemical imbalance". I guess he really thought he had made me look foolish especially with the proclamation "You aren't psychiatry - they are."
https://www.rcpsych.ac.uk/mental-health/problems-disorders/schizoaffective-disorder
In fact, I can't tell who wrote this and whether or not it is a psychiatrist. I don't know what the RCP official position is. I was happy to see that they are much more flexible than the anti-psychiatry Twitter posters I encounter. There was a feedback form that I completed and advised them to lose the "chemical imbalance" and that replacing it with "unknown etiology" was preferable. What I would like to see is an exposition of the latest theories and a suggestion that the critics actually read psychiatric literature. They would be less likely to perseverate the same criticism they have used for year after year. This poster also seemed to ignore the fact that the RCP public information was posted in 2015 - that's 14 years after the television ad posted at the top of this page. Royal College of Psychiatrists - the ball is in your court.
Supplementary 6: (added on 1/11/2020): I just learned today from an advertising expert in antidepressants that there was also a Zoloft ad from 2004 that used the term:
"While the cause is unknown, Zoloft can help. It works to correct a chemical imbalance in the brain that may be related to these symptoms."
Reference:
Cristina Hanganu-Bresch. Treat Her with Prozac: Four Decades of Direct-to-Physician Antidepressant Advertising in Drugs Media: New Perspectives on Communication, Consumption, and Consciousness (Hardback) (1st Edition) by Robert C. Macdougall (Editor), Drugs &. Media-Pasta Dura, 340 Pages, Published 2011 ISBN-10: 1-4411-1988-4 / 1441119884 ISBN-13: 978-1-4411-1988-9 / 9781441119889:
Monday, May 20, 2019
The Non-Existent Chemical Imbalance Theory
I keep looking for it and can never find it. The above picture is my stack of psychopharmacology texts dating back to about 1980 and none of them mentions "chemical imbalance". I could add another foot or two to that stack and there still would be no mention of this theory.
Why
is that important? The main reason is that one of the favorite arguments by
anti-psychiatrists is that real psychiatrists believe that psychiatric disorders
are caused by a “chemical imbalance” in the brain. This criticism showed up on
this blog several years ago in a post that I critiqued that was largely a
screed against psychiatrists. Accusing psychiatrists of promoting a chemical
imbalance theory is an almost perfect rhetorical strategy. It uses what
essentially was a marketing device for antidepressants in the late 1980s to
portray psychiatrists as excessively reductionist at the minimum and at the
worst biologically naïve and dishonest.
My
colleague Ron Pies, MD has written a recent piece on the historical,
philosophical, and rhetorical aspects of this argument. What I hope to
accomplish in this post is taking a look at the science behind why no
psychiatrist would consider the brain to be a substrate run by “chemical
imbalances”. Some might find this argument to be quite boring but I can attest
to the fact that the premises used allowed me to state unequivocally to the
first pharmaceutical rep to use the term that no such state exists in the
brain.
The
main factor has to do with how physicians are trained. There’s still a lot of
confusion about whether a psychiatrist is a physician or not. I can assure
anyone reading this that we all are. That means in order to get into medical
school certain prerequisites at the undergraduate level have to be completed.
That includes a year of general chemistry, a year of organic chemistry, and a
year of general physics. A significant number of psychiatrists that I have
encountered were chemistry majors. That training means that physicians in
general have had exposure to physical science and how chemistry works in
solutions and gases. In these basic two
or three component systems there are limited possibilities in terms of reaction
outcomes. Even electrochemical reactions produce electron flow that decays
predictably over time but that is not able to transmit any nuanced signal. In other words the information content in
these systems is low – too low to run biological organisms.
In
the basic science years of medical school biochemistry, neuroanatomy,
neurophysiology, pharmacology, and all of the associated molecular biology
provided medical framework that all of the physical science can be mapped onto.
The study of enzyme and receptor systems highlight the basic concept that the
chemistry involved can only occur because it is in a specific microenvironment.
That microenvironment includes the protein structure of the enzyme or receptor molecules
as well as associated membrane components and cell signaling components. The
intracellular and extracellular environments are exquisitely controlled as is
the synaptic cleft. Many of the reactions involve additional acid-base and
ionic gradients. The degrees of freedom in these many component and many phase
systems are large. They are so large in fact that I have been unable to find an
estimate of degrees of freedom for neurobiological systems.
A good example of the kind of microenvironments and complex interactions that I am taking about is the GABAA receptor depicted diagrammatically below. The GABAA receptor is a transmembrane cylindrical receptor that is a member of the pentameric ligand-gated ion channel superfamily. The diagram is a top down view of the receptor complex cylinder highlighting that it is composed of 5 glycoprotein subunits. Each subunit is composed of 4 domains with one domain that lines the chloride ion channel through the center of the receptor complex. Binding sites on these protein allow for allosteric modification of the cylindrical receptor to facilitate chloride ion influx and fast inhibition of neuronal signals. Allosteric modulation of enzymes and receptors occurs when a molecule reversibly binds to the protein molecule resulting in inhibition or stimulation of the overall process. For example, benzodiazepines bind to a specific site at the α-γ interface leading to increased affinity for GABA at the receptor sites and increased chloride ion influx. Benzodiazepines are the classic allosteric modulators of the GABAA receptor but there are others. Barbiturates, anesthetic agents, neurosteroids and ethanol are also allosteric modulators at the GABAA receptor. The detailed structure of both the benzodiazepine and flumazenil binding sites on the human synaptic GABAA receptor have only recently been detailed (1).
The above paragraph is a glance into the types of systems that modern psychiatry is focused on. In the case of the GABAA receptor global inhibitory effects can be expected at some point, but there are not the product of chemicals floating about inside the body or brain. They are the effects of complex interactions between proteins, positive and negative modulators, neurotransmitter effects, ion fluxes, and additional signaling. The effects result from where these receptors are located in the brain and central nervous system. The education of physicians assures that this level of complexity in the brain is appreciated as both the basis for normal physiology and also the basis for pharmacology and toxicology. It may be tempting to try to simplify things - but real brain function defies simplification. The basic working of the GABA receptor was discovered when I was in medical school back in the 1980s. The lectures in those days showed a simple structure with an arrow showing increased chloride ion permeability but nowhere near the structure that we currently have.
This is one set of receptors and modulators very simplified. To get more of the story read the 22 pages of reference 1. To understand the brain and modern pharmacology much more needs to be understood. Forgetting about the term "chemical imbalance" is a good first step.
George Dawson, MD, DFAPA
This is one set of receptors and modulators very simplified. To get more of the story read the 22 pages of reference 1. To understand the brain and modern pharmacology much more needs to be understood. Forgetting about the term "chemical imbalance" is a good first step.
George Dawson, MD, DFAPA
References:
2: Human GABA-A receptor alpha1-beta2-gamma2 subtype in complex with GABA and flumazenil, conformation A. Detailed structure from the above paper.
Tuesday, May 7, 2019
Suicide Risk After Hospital Discharge
Inpatient psychiatrists in the United States deal with three
problems: suicide risk, aggression risk, and the inability care for oneself or
impaired functional capacity. Those have always been the primary reasons why
people are admitted to psychiatric hospitals. Over the past 30 years there has
been a problem with business intruding on these medical indications. Businesses
and or more specifically managed care companies eventually adopted a single
codeword “dangerousness”. Dangerousness was supposed to encompass all three of
the dimensions but eventually it developed a life of its own. As an example, I
have been asked by insurance company reviewers “Where’s the dangerousness?” whenever
they tried to throw one of my patients out of the hospital and onto the street.
Science or medical principles were not involved, just the economics of being
able to use a word to make money.
The reality of inpatient work is that the people there are
very high-risk for suicide, aggression, and premature death from multiple
causes. There was a study done in Germany about 20 years ago where they looked
at all-cause mortality of people discharged from psychiatric units five years
later and the number was very high. Post discharge suicide rates are much
higher than suicide rates in the general population. These high numbers are
expected because patients and inpatient units are selected for these traits
that predispose to higher mortality and morbidity. The trends have been complicated
by much shorter lengths of stay and bed limitations that means patients with
severe mental illness may be refused admission even if they clearly need it. As
example, since leaving the inpatient setting about 10 years ago, I have
attempted to refer severely ill patients to psychiatric hospitals and they were
turned away at the emergency department. In some cases they were turned away
without being seen by a physician. There are probably a handful of psychiatrists
in the United States who know the type of problem that needs to be treated that
inpatient units and I am one of them.
That situation makes a recent study on risk of suicide after
discharge from inpatient psychiatric care and interesting one. The study was
done in Sweden. It encompassed the years 1973 to 2009. During that time there
were 2,883,088 admissions and presumed discharges. 690,937 patients were
discharged more than once. Most the discharges were men (57.6%). There were no
explicit indications for admission. Patients were followed up and it was
determined that there were 3695 suicides within 30 days of discharge. The
authors calculated a suicide rate of 181/10,000. The discharge diagnosis most associated with
suicide with depression. They gave some rough estimates of the prevalence of
disorders in this population: 34% alcohol use disorder, 15.5% had mood
disorders and (bipolar disorder or depression) and 9.9% had schizophrenia.
Looking at the results according to diagnosis depression was
followed by reaction to crisis or what is probably called an adjustment
disorder in the US, but any specific psychiatric disorder and elevated hazard
ratio for suicide within the first 30 days of discharge relative to the
diagnosis of alcohol use disorder.
Suicide risk was also examined relative to recent suicidal
behavior. The suicidal behavior was considered to be any deliberate self-harm
less than 30 days prior to admission. That was noted to have a hazard ratio of
4.75. The diagnoses were re-examined in the context of deliberate self-harm
prior to admission and the risks were significantly higher in schizophrenia (HR
= 8.94) and other nonorganic psychosis (HR =6.82). Interested readers are referred to the full text
which is available free online for the specific details including hazard ratios
and confidence intervals for those hazard ratios.
The main findings of this study include the association of
relatively high risk at discharge for most diagnoses and much higher risk if a
specific diagnostic category was associated with a self-harm event 30 days
prior to admission. This confirms clinical risk assessments that
are typically done and also the fact that this is a high-risk population.
The authors do state that they regarded principal diagnosis at
discharge to be the best available information on the reason for admission. I
contacted the corresponding author about this and he did confirm that the
reasons for admission in Sweden are very similar to what they are in the United
States and that is suicide risk, aggression risk, and ability to care for
oneself - but those specific metrics were not listed in the paper.
The authors speculate on why the suicide risk is high. They
describe the slow recovery from depression and the clearing of psychomotor
retardation prior to the resolution of depressogenic thinking. In the US, psychiatrists are generally taught
that psychomotor retardation may reduce the risk of acting on suicidal thoughts
so that during treatment there may be a point where activation may put the
person at risk for acting on unresolved suicidal thoughts. Given the
characteristics of suicide particularly the impulsivity associated with it this
progression of events has never been proven and remains highly speculative. The
authors also had the interesting observation that crisis events or negative
life events are expected to offer good prognosis but this study showed men with
the diagnosis of reaction to a crisis were at high risk after discharge
irrespective of whether there was any recent suicidal behavior.
The authors review the strengths and limitations of the
study. The main strength is that it is a large-scale study with a significant
number of suicides. They also point out how their study has similarities with
other studies of suicide in hospitalized patients. On the limitation side most
of the limitations had to do with a lack of granularity in the data. I pointed
out the lack of specific admission indication in addition to diagnosis. In
current databases there may be metrics having to do with the level of suicide
or aggression risk. There are some large-scale studies being done on an
outpatient basis looking at those metrics as well as supportive interventions
based on risk scores.
The biological side was not discussed in this study even
though the database used probably contained all of the admission and discharge
medications. It would be interesting to know if certain pharmacological
interventions were more or less associated with suicides after discharge. It
would also be very useful to know if there were any protective factors from
inpatient treatment that could be discerned from the data both from the
standpoint of psychosocial interventions and biological interventions like
electroconvulsive therapy, transcranial magnetic stimulation, or treatment with
ketamine.
I have included a reference to another study of post discharge suicide rates done in a Medicare sample and with a slightly different methodology (2). In this case the researchers looked at a population of 770,643 patients with mental disorders compared with a 1,090,551 patients in a cohort with no mental disorders and compared suicide rates in the first 90 days after discharge. They found suicide rates that were 10-20 times higher in the mental disorder cohort. The non-mental disorder cohort had a rate that was lower than the baseline suicide rate in the US at the time (11.6 versus 14.2 per 100,00 person years). Like the Swedish study rates were the highest for mood disorders. Comparing both of these studies would be an interesting seminar for residents or journal club for staff psychiatrists interested in different epidemiological approaches to the same clinical problem. I have included two references by Chittaranjan Andrade, MD and encourage the use of his series on statistics and epidemiological concepts in the Journal of Clinical Psychiatry.
I have included a reference to another study of post discharge suicide rates done in a Medicare sample and with a slightly different methodology (2). In this case the researchers looked at a population of 770,643 patients with mental disorders compared with a 1,090,551 patients in a cohort with no mental disorders and compared suicide rates in the first 90 days after discharge. They found suicide rates that were 10-20 times higher in the mental disorder cohort. The non-mental disorder cohort had a rate that was lower than the baseline suicide rate in the US at the time (11.6 versus 14.2 per 100,00 person years). Like the Swedish study rates were the highest for mood disorders. Comparing both of these studies would be an interesting seminar for residents or journal club for staff psychiatrists interested in different epidemiological approaches to the same clinical problem. I have included two references by Chittaranjan Andrade, MD and encourage the use of his series on statistics and epidemiological concepts in the Journal of Clinical Psychiatry.
From a clinical standpoint, the take-home message for
clinicians is to make sure that deliberate self-harm prior to admission and the
diagnosis are carefully explored. It is fairly common practice to consider
adjustment disorders to be low risk in terms of brief hospital stays and
discharge plans that do not include intensive outpatient treatment. This study
suggests that at least some of those patients need more intensive intervention
but there is no guidance on how to identify that group. The other high-risk
groups of patients with psychosis that had deliberate self-harm prior to
admission and any trained inpatient psychiatrist should admit those patients
and treat them until there is clinical improvement that results in decreased
risk.
My only concern about the current patient flow through
emergency departments and onto psychiatric inpatient units is that many of
these patients never get admitted and if they do they are discharged in a short
period of time with the same symptoms that they presented with. The inpatient environments in the US are also
deteriorated to the point that they resemble correctional settings and patients
want to leave as soon as possible.
These are not good ways to address the issue of post hospitalization
suicide risk in a high risk population.
George Dawson, MD, DFAPA
Reference:
2: Olfson M, Wall M, Wang S, Crystal S, Liu SM, Gerhard T, Blanco C. Short-termSuicide Risk After Psychiatric Hospital Discharge. JAMA Psychiatry. 2016 Nov 1;73(11):1119-1126. doi: 10.1001/jamapsychiatry.2016.2035. PubMed PMID: 27654151. (full text)
3: Andrade C. Why odds ratios can be tricky statistics: the case of finasteride, dutasteride, and sexual dysfunction. J Clin Psychiatry.2018;79(6): 18f12641. Link
4: Andrade, Chittaranjan. Drug interactions in the treatment of depression in patients with ischemic heart disease. The Journal of Clinical Psychiatry 73.12 (2012): 1475-1477.
Monday, April 29, 2019
Deprescribing - Same Job With A New Spin
During my tenure as an acute care psychiatrist, I had to
reconcile a lot of medications. I was doing medication reconciliation before
the term was invented for the electronic health record (EHR). The process
basically involves trying to figure out what medications the patient was really
taking before they were admitted to the hospital. It could be very easy if
there were no preadmission medications. On the other hand it could be extremely
complicated. There were days when I had to sort through two or three shopping
bags full of medications, talk with the patient’s pharmacist, talk with several
specialists who were prescribing medications, and talk with the patient’s
primary care physician. Even after that long process, I often estimated initial
dosages based on the patient's recollection of what they had been taking and how much. I also had to
make fairly rapid decisions about whether or not large numbers of medications
may have been more harmful to the patient than helpful. Some patients had lists
of medications containing 10 to 20 unique medications.
Sometime in the past 10 years the concept of deprescribing
medication came up. It is fairly unique term as indicated by the bar graphs
below that are drawn based on the references per year to the term. It started
out the geriatric literature because elderly people are more sensitive to lower
doses of medications and polypharmacy relative to younger and healthier
populations. There is actually a list of medications called Beer’s list, that
highlights medications that may be more problematic in older adults. It is the
intellectual property of the American Geriatrics Society and I can’t reproduce
it here. It basically contains classes medications that are known to be
problematic in older adults such as anticholinergics and sedative hypnotics.
Consistent with that concept - the geriatrics literature has focused on rational
pharmacology and the need to reduce the medication burden in some cases the
specific pharmacodynamic burden of prescribed medications. Goal of this post is to look at some of the
techniques I typically use to identify polypharmacy - related problems and respond.
In determining whether deprescribing should occur or not I think it is useful to look at hierarchy and I have outlined the following points:
1. In the case of the patient on polypharmacy who is
tolerating multiple medications well and they appear to be effective strongly
consider doing nothing:
Being an expert in psychopharmacology - doing all the
reading and listening to the experts often doesn’t translate into the real
world setting very well. There’s no better example than the patient on multiple
medications who frequently has a history of numerous or prolonged
hospitalizations and who appears to be taking “too many medications”. They
could be multiple medications from the same class or different classes. It is
easy to take a look at that list of medications and imagine how they came about
but with our current fragmented medical record system it would only be an imagining. It is too high of a risk to stop polypharmacy
just based on general principles if the patient is doing well. I am familiar
with many cases where changes were made and the patient became markedly
destabilized and ended up back in long-term hospitalization. These are the cases
that never come to light in the literature where populations rather than
outliers are studied.
2. Acute medication side effects:
In the case of acute side effects changes need to be made based on the urgency involved. Worst-case scenarios would include serotonin syndrome or neuroleptic malignant syndrome where the serotonergic or dopaminergic medications need to be stopped abruptly. That would not occur in typical clinical scenarios but in the emergency setting it is necessary. What clinicians typically face is multiple medications from the same class. When that original guideline was made back in the 1990s classes were a lot more general than they are now. For example, in those days antidepressants were a general class instead of SSRIs, SNRIs, and others. These days combination antidepressant therapies are relatively common and research articles can be found that look at the addition of bupropion to a standard antidepressant or mirtazapine to a standard antidepressant. Beyond that trazodone might be added to those two antidepressants bring the total to three. This can occur commonly in clinical practice and also can be a source of the patient noted in number 1 above.
In the case of acute side effects changes need to be made based on the urgency involved. Worst-case scenarios would include serotonin syndrome or neuroleptic malignant syndrome where the serotonergic or dopaminergic medications need to be stopped abruptly. That would not occur in typical clinical scenarios but in the emergency setting it is necessary. What clinicians typically face is multiple medications from the same class. When that original guideline was made back in the 1990s classes were a lot more general than they are now. For example, in those days antidepressants were a general class instead of SSRIs, SNRIs, and others. These days combination antidepressant therapies are relatively common and research articles can be found that look at the addition of bupropion to a standard antidepressant or mirtazapine to a standard antidepressant. Beyond that trazodone might be added to those two antidepressants bring the total to three. This can occur commonly in clinical practice and also can be a source of the patient noted in number 1 above.
Numerous side effects can result from polypharmacy like
sedation, headaches, nausea, and cognitive problems that probably indicate the
total amount medication needs to be decreased or at least one of the
medications could be stopped. The medication I frequently encounter that is
prescribed at very high doses resulting in sedation is Venlafaxine ER. There are areas of the country where very
high doses of this medication are prescribed in excess of 350 mg per day - 225
mg per day is considered the FDA recommended max dose. Almost uniformly these
patients improve with less venlafaxine and there is less confusion about
medication side effects versus depression.
3. Chronic medication side effects:
Some of the most serious long-term medication side effects include weight gain, metabolic changes including metabolic syndrome, diabetes mellitus, nephrogenic diabetes insipidus, hyperlipidemia, and movement disorders. In many cases the medications being used that lead to the side effects have been the only ones that will that work and even gradual changes may result in destabilization the patient. Some of these transitions between atypical antipsychotics or atypical antipsychotics and mood stabilizers result in a significant medication burden and risk for increasing side effects. It is critical that the transition is actually made to the new set medications.
Any medication side effect on a long term basis is obviously serious. Dry mouth one of the most common side effects can lead to dental caries and mouth soreness. Constipation is often considered a nuisance but it can lead to bowel obstruction and serious medical complications. Sexual side effects are a significant quality of life problem that can impact the most significant relationships in a persons life. Surveying for these side effects is a significant but necessary task for any psychiatrist.
One of my very first experiences with chronic medication side effects was a patient who had been taking an old antidepressant - doxepin for about 5 years. I started seeing him in that 5th year and he was no longer sure that he was depressed but he did notice he was chronically fatigued. Because he had been on the medication for 5 years, I suggested that we taper him off of it. He came back to see me and said he had not felt as well in a long time. Not only had his fatigue resolved, but he no longer had chronic headaches. In retrospect, he said he felt like he "had the flu" for the last 5 years. That experience led me to never suggest that people "get used to the medication" if they are having side effects. I know that does happen in some cases, but I also know that most people just get used to feeling ill.
Some of the most serious long-term medication side effects include weight gain, metabolic changes including metabolic syndrome, diabetes mellitus, nephrogenic diabetes insipidus, hyperlipidemia, and movement disorders. In many cases the medications being used that lead to the side effects have been the only ones that will that work and even gradual changes may result in destabilization the patient. Some of these transitions between atypical antipsychotics or atypical antipsychotics and mood stabilizers result in a significant medication burden and risk for increasing side effects. It is critical that the transition is actually made to the new set medications.
Any medication side effect on a long term basis is obviously serious. Dry mouth one of the most common side effects can lead to dental caries and mouth soreness. Constipation is often considered a nuisance but it can lead to bowel obstruction and serious medical complications. Sexual side effects are a significant quality of life problem that can impact the most significant relationships in a persons life. Surveying for these side effects is a significant but necessary task for any psychiatrist.
One of my very first experiences with chronic medication side effects was a patient who had been taking an old antidepressant - doxepin for about 5 years. I started seeing him in that 5th year and he was no longer sure that he was depressed but he did notice he was chronically fatigued. Because he had been on the medication for 5 years, I suggested that we taper him off of it. He came back to see me and said he had not felt as well in a long time. Not only had his fatigue resolved, but he no longer had chronic headaches. In retrospect, he said he felt like he "had the flu" for the last 5 years. That experience led me to never suggest that people "get used to the medication" if they are having side effects. I know that does happen in some cases, but I also know that most people just get used to feeling ill.
4. Rare but serious medication side effects:
Looking at both neuroleptic malignant syndrome and serotonin syndrome, the literature frequently states that these acute life-threatening disorders occur around times of medication transitions. Trying to keep the load on both serotonergic and dopaminergic systems low during these transitions is one of my goals but I can’t really find any scientific literature to back it up. Literature out there tends to be case reports and that includes literature suggesting that medication transitions are associated with the acute disorders.
Looking at both neuroleptic malignant syndrome and serotonin syndrome, the literature frequently states that these acute life-threatening disorders occur around times of medication transitions. Trying to keep the load on both serotonergic and dopaminergic systems low during these transitions is one of my goals but I can’t really find any scientific literature to back it up. Literature out there tends to be case reports and that includes literature suggesting that medication transitions are associated with the acute disorders.
5. Interrupted medication transitions:
I frequently see people who are on full doses of two and often three antidepressants. When I take their history there was a plan to add the new antidepressant and then taper and discontinue the old one but for some reason the old medication was not stopped. This often happens in the outpatient setting and many times it is due to the patient not knowing that the old medication should be stopped or not getting a specific schedule to taper and discontinue it.
I frequently see people who are on full doses of two and often three antidepressants. When I take their history there was a plan to add the new antidepressant and then taper and discontinue the old one but for some reason the old medication was not stopped. This often happens in the outpatient setting and many times it is due to the patient not knowing that the old medication should be stopped or not getting a specific schedule to taper and discontinue it.
6. Polypharmacy:
Polypharmacy can be highly problematic. It happens in just about every class of psychiatric medications. As an example, Adderall XR is designed to produce a concentration curve that is equivalent to Adderall immediate release dosed twice a day and yet I commonly see people taking Adderall XR either more than once a day or combined with an afternoon dose of Adderall immediate release. There are similar combinations of antidepressants, antipsychotics, mood stabilizers, and benzodiazepines. In a controlled setting where I practice I can make the necessary medication changes and follow-up the patient frequently. If that occurs in the outpatient setting there needs to be a plan in place for frequent follow-ups as well as active collaboration with the patient and the family.
Polypharmacy can be highly problematic. It happens in just about every class of psychiatric medications. As an example, Adderall XR is designed to produce a concentration curve that is equivalent to Adderall immediate release dosed twice a day and yet I commonly see people taking Adderall XR either more than once a day or combined with an afternoon dose of Adderall immediate release. There are similar combinations of antidepressants, antipsychotics, mood stabilizers, and benzodiazepines. In a controlled setting where I practice I can make the necessary medication changes and follow-up the patient frequently. If that occurs in the outpatient setting there needs to be a plan in place for frequent follow-ups as well as active collaboration with the patient and the family.
7. Pharmacokinetic problems:
The most common pharmacokinetic problem I encounter is people who abruptly stop Lamotrigine and resume the full dose. Since lamotrigine began its psychiatric applications I have been in touch with the manufacturer many times and was advised that if the patient stops the medications for more than three or four days, the standard titration of lamotrigine needs to occur. It is fairly common for me to hear from people that they go off lamotrigine for a week or two and then resume the full 200 or 400 mg dose. I often see them after they have been on that resumed dose for one week.
The most common pharmacokinetic problem I encounter is people who abruptly stop Lamotrigine and resume the full dose. Since lamotrigine began its psychiatric applications I have been in touch with the manufacturer many times and was advised that if the patient stops the medications for more than three or four days, the standard titration of lamotrigine needs to occur. It is fairly common for me to hear from people that they go off lamotrigine for a week or two and then resume the full 200 or 400 mg dose. I often see them after they have been on that resumed dose for one week.
The prototypical pharmacokinetic polypharmacy problem was SSRIs that were CYP2D6 inhibitors combined with tricyclic antidepressants (CYP2D6 substrates). The original reports of severe arrhythmias in some cases death from tricyclic antidepressant toxicity was the initial impetus for psychiatric interest in pharmacokinetics and drug interactions. I still see people today who are getting amitriptyline or nortriptyline in combination with fluoxetine or paroxetine and there has been no clear concern about those potential interactions.
8. New medical problems that impact prescription patterns:
Acute renal and hepatic problems can directly impact the patient’s drug metabolism and dosing requirements or ability to take a specific drug.. One of the best examples I can think of is a case of 40 year old man who was taking gabapentin for anxiety and chronic pain. He was seen by an internist and started on a statin for dyslipidemia. Four days later when I saw the patient he was delirious and completely disoriented. He also had the significant ataxia and sedation. He was evaluated immediately and blood tests showed that he had acute renal failure that was believed to be secondary to the statin. The statin and the gabapentin were discontinued and within days he was back to his baseline. If he had been on any other medications with primary renal clearance those would have been discontinued at same time.
9. Correcting the medical side of things:
If the psychiatric medications are being taken incorrectly, there is a good chance that the polypharmacy for heart disease, hypertension, diabetes mellitus, and asthma/COPD are also being taken incorrectly if they have been taken at all. It is problematic when a person has a disabling mental illness and they are left to take several doses of medication at different times of the day by themselves. When I started out in psychiatry, I could make a public health nursing referral at any time by sending in a form to the appropriate agency. The next day, and RN would be at the patient's apartment setting up their medications, taking their blood pressure and pulse, and assisting them with managing their medications for the psychiatric disorder as well as all of their chronic medical problems. That service ended with the rationing of all services to people with severe psychiatric disorders, making it much more likely that these medical conditions will not be as stable as they should be when they see their psychiatrists. The is both a problem for the patient and the psychiatrist but also an opportunity to correct things.
Acute renal and hepatic problems can directly impact the patient’s drug metabolism and dosing requirements or ability to take a specific drug.. One of the best examples I can think of is a case of 40 year old man who was taking gabapentin for anxiety and chronic pain. He was seen by an internist and started on a statin for dyslipidemia. Four days later when I saw the patient he was delirious and completely disoriented. He also had the significant ataxia and sedation. He was evaluated immediately and blood tests showed that he had acute renal failure that was believed to be secondary to the statin. The statin and the gabapentin were discontinued and within days he was back to his baseline. If he had been on any other medications with primary renal clearance those would have been discontinued at same time.
9. Correcting the medical side of things:
If the psychiatric medications are being taken incorrectly, there is a good chance that the polypharmacy for heart disease, hypertension, diabetes mellitus, and asthma/COPD are also being taken incorrectly if they have been taken at all. It is problematic when a person has a disabling mental illness and they are left to take several doses of medication at different times of the day by themselves. When I started out in psychiatry, I could make a public health nursing referral at any time by sending in a form to the appropriate agency. The next day, and RN would be at the patient's apartment setting up their medications, taking their blood pressure and pulse, and assisting them with managing their medications for the psychiatric disorder as well as all of their chronic medical problems. That service ended with the rationing of all services to people with severe psychiatric disorders, making it much more likely that these medical conditions will not be as stable as they should be when they see their psychiatrists. The is both a problem for the patient and the psychiatrist but also an opportunity to correct things.
These are a few examples of the hierarchy of problems that
occur with polypharmacy and in some cases standard pharmacy and how they can be
approached. There apparently some groups out there at this time were trying to
establish a hierarchy of how medications can be discontinued and when they
should be discontinued. Like most cases in medicine in the extreme it is
obvious but anything less than that is more difficult and it takes a lot of
time to figure out. One thing that might be useful would be to consider drug
combinations that are commonly prescribed as a baseline and look for
polypharmacy being defined as anything beyond that.
One thing is for sure - the old rule about never prescribing two drugs from the same class - no longer applies.
One thing is for sure - the old rule about never prescribing two drugs from the same class - no longer applies.
George Dawson, MD, DFAPA
Sunday, April 14, 2019
Kratom - Don't Believe the Hype
The CDC came out with a brief 2 page report on kratom deaths 3 days ago (1). That was all it took for the Twitterati to proclaim that there were many more deaths from alcohol and I suppose there was a post about even more deaths from cigarette smoking but thankfully I missed that one. When I pointed out that it was clearly an addictive drug and lifelong disability (a very significant problem) may be the issue - the defenders of kratom stepped up and talked about how harmless it is and also how it is advantageous for people who cannot afford medication assisted treatment (MAT) (buprenorphine preparations, methadone, or naltrexone extended release injections) for opioid use disorder (OUD). The expected personal attacks and sarcasm followed.
Kratom is an interesting compound because like many psychoactive botanicals there is a history (2). Kratom itself is basically leaf material from the kratom tree (Mitragyna speciosa). The leaves can be smoked or chewed. They can also be dried and powdered. The powdered form is what is typically available for sale. The powder can be packaged in capsules and taken orally, brewed into a tea, or rendered into a syrup and formed into pills. Fresh leaves can be chewed with or without betel nuts. Kratom has been used in Malaysia since the 19th century to “heal opium addiction”. A recent paper referenced a study of kratom users that were using an estimated 4-8 g/day (8). Converting based on typical leaf content means that these users would be exposed to a maximum of 120-180 mg mitragynine and 1.1 - 3.4 mg 7-hydroxymitragynine. Rӓtsch suggests in his text that “in studies with mice, even extreme dosages of 920 mg/kg did not produce any toxic effects”. He describes “self experiments” in the literature suggesting that kratom can be both stimulating like cocaine and sedating like opium. The only comment on addiction is “The alleged kratom addiction is a Thai cultural phenomenon” (p. 367). Like most intoxicants in the modern era there is progression to intravenous use. Although that is currently rare, there are case reports of intravenous use of kratom extracts.
The CDC document describes a series of deaths in 11 states between July 2016 and June 2017 and an additional 27 states from July to December 2017. The data set was from the SUDORS (State Unintentional Drug Overdose Reporting System) and consisted of 27,338 overdose deaths, 152 (0.56%) of which were kratom positive. There is no standard postmortem toxicology protocol and as previously noted that is problematic in determining the drugs present in these analyses. As shown by the table from this report in 91 cases kratom was considered the cause of death, but numerous other substances were present. In seven cases kratom was the only substance noted in postmortem toxicology, but additional substances cannot be ruled out.
The leaves of Mitragyna speciosa, contain multiple alkaloids including mitragynine, 7-hydroxymitragynine, paynantheine, speciocilatine, and speciogynine. The crude alkaloid extract consists primarily of 66% mitragynine and 2% 7-hydroxymitragynine. The extraction process may be protective against toxicity for many people that brew the leaves into a tea, chew the leaves, or ingest the powdered leaves as capsules but even then the concentration of these alkaloids may vary from species to species. Counting on an inefficient extraction process for safety is probably not the best idea. The other property of the raw material is that the alkaloids are mixtures of opioid receptor agonists and antagonists that may determine the net effect. Searching the way these products are sold there is really not much about concentration of any associated alkaloids other than mitragynine. The plant itself contains more than 40 unique alkaloids (8).
Until recently, the pharmacology of mitragynine and 7-hydroxymitragynine were unknown. There is research to suggest (5) that opioid receptors mediated the primary effects. Both compounds had binding affinity for the mu opioid receptor (MOR). They were also active in tissue essays and blocked by naloxone. Some of these effects were inconsistent between laboratory species. Activity was reported at a number of non-opioid receptors as well. The pharmacology of mitragynine and 7-hydroxymitragynine is now well-characterized. Recent studies show that mitragynine is a partial agonist at the human mu opioid receptor (hMOR), and a competitive antagonist at the human kappa opioid receptor (hKOR), and an antagonist at the human delta opioid receptor (hMOR) but with very low potency. The authors studied these compounds against all three human opioid receptors looking at both functional activity (EC50 and IC50) and binding affinities (Ki) and discovered they were consistent across those experiments. They concluded that mitragynine (0.233 μM) And 7-hydroxymitragynine (0.047 μM) had significant binding affinity for hMOR. The remainder of the paper focuses on medicinal chemistry theory, specifically how opioid -like compounds that bias intracellular signaling toward G proteins rather than β-arrestin may be better candidates for opioid analgesics with low addiction potential and better side effect profiles and possibly antidepressant activity. They synthesize a number of analogues and look at their agonist activity at hMOR. The authors conclude that the psychoactive activity of Mitragyna is most likely due to their action at hMOR. They also point out that due to the competitive nature of the alkaloids the gross effects will be due to that balance of agonism and antagonism.
The alkaloid and methanol crude extracts of kratom are both inhibitors of CYP3A4 and CYP2D6 in vitro. No specific components have been identified with this activity and there has been in vivo confirmation (8).
Another paper (6) looks at the “unanticipated toxicity” of kratom. This group looked at the LD50 of mitragynine, 7-hydroxymitragynine, and heroin. The LD50 is a measure of acute toxicity and what single dose will kill half of the research animals. In this case mice were used and the researchers were surprised to find that an intravenous dose of either mitragynine or 7-hydroxymitragynine were as lethal as heroin. No lethal doses were observed for oral dosing in a range of 6.25-50 mg/kg. the lethal intravenous dose was midpoint in that range. Researchers observed that the mice appeared to die from respiratory depression within 10 minutes of direct exposure. In the surviving mice many were noted to have seizures in the first 20 minutes. In a separate review, the authors point out that with a typical 8 g dose of kratom powder, the levels of 7-hydroxymitragynine, may be too low to cause a pharmacologically relevant effect at the opioid receptor.
The research on kratom has elucidated receptor activity in opioid receptors. The activity is complex but the mu opioid receptor is clearly involved and is the likely site of the psychoactive effects and the application of opioid substitution in people with addictions. The receptor effect is complicated and likely involves more than the mu opioid receptor. The research also suggests that activity at murine and human opioid receptors are not equivalent. Persons acquiring kratom in the powder form need to consider that the ratio of mitragynine to 7-hydroxymitragynine likely varies with species and source. The 7-hydroxymitragynine is 52 times as potent as mitragynine at the MOR and 13 times as potent as morphine. Products made from extractions will be more potent.
All of this information should create skepticism in prospective kratom users. As addiction psychiatrist I can attest to the fact that it is addicting and with any addiction there is a tendency to escalate the dose. Many people with addictions as noted in the above table are using multiple substances some of which are also agonists at the opioid receptor. If you are considering kratom as a treatment for opioid addiction or chronic pain there are much, much safer and effective ways to proceed.
George Dawson, MD, DFAPA
References:
1. Olsen EO, O’Donnell J, Mattson CL, Schier JG, Wilson N. Notes from the Field: Unintentional Drug Overdose Deaths with Kratom Detected — 27 States, July 2016–December 2017. MMWR Morb Mortal Wkly Rep 2019;68:326–327. DOI: http://dx.doi.org/10.15585/mmwr.mm6814a2External
2: Rӓtsch C. The Encyclopedia of Psychoactive Plants: Ethnopharmacology and Its Applications. Park Street Press. Rochester, Vermont, 2005. pages 366-367.
3: Olsen EO, O’Donnell J, Mattson CL, Schier JG, Wilson N. Notes from the Field: Unintentional Drug Overdose Deaths with Kratom Detected — 27 States, July 2016–December 2017. MMWR Morb Mortal Wkly Rep 2019;68:326–327. DOI: http://dx.doi.org/10.15585/mmwr.mm6814a2
4: Gershman K, Timm K, Frank M, Lampi L, Melamed J, Gerona R, Monte AA. Deaths in Colorado Attributed to Kratom. N Engl J Med. 2019 Jan 3;380(1):97-98. doi: 10.1056/NEJMc1811055. PubMed PMID: 30601742.
5: Kruegel AC, Gassaway MM, Kapoor A, Váradi A, Majumdar S, Filizola M, Javitch JA, Sames D. Synthetic and Receptor Signaling Explorations of the Mitragyna Alkaloids: Mitragynine as an Atypical Molecular Framework for Opioid Receptor Modulators. J Am Chem Soc. 2016 Jun 1;138(21):6754-64. doi: 10.1021/jacs.6b00360. Epub 2016 May 18. PubMed PMID: 27192616; PubMed Central PMCID: PMC5189718.
6: Smith LC, Lin L, Hwang CS, Zhou B, Kubitz DM, Wang H, Janda KD. Lateral Flow Assessment and Unanticipated Toxicity of Kratom. Chem Res Toxicol. 2018 Nov 16. doi: 10.1021/acs.chemrestox.8b00218. [Epub ahead of print] PubMed PMID: 30380840.
8: Kruegel AC, Grundmann O. The medicinal chemistry and neuropharmacology of kratom: A preliminary discussion of a promising medicinal plant and analysis of its potential for abuse. Neuropharmacology. 2018 May 15;134(Pt A):108-120. doi: 10.1016/j.neuropharm.2017.08.026. Epub 2017 Aug 19. Review. PubMed PMID: 28830758.
9: Post S, Spiller HA, Chounthirath T, Smith GA. Kratom exposures reported toUnited States poison control centers: 2011-2017. Clin Toxicol (Phila). 2019 Feb 20:1-8. doi: 10.1080/15563650.2019.1569236. [Epub ahead of print] PubMed PMID:30786220.
Supplementary:
FDA Guidance On Lead and Nickel Exposure from kratom products: Link
"Based on these test results, the typical long-term kratom user could potentially develop heavy metal poisoning, which could include nervous system or kidney damage, anemia, high blood pressure, and/or increased risk of certain cancers."
Graphics Credit:
1. Mitragynine and 7-hydroxymitragynine were done with ChemDoodle.
2. Table is from the CDC per reference 3 and public domain.
Sunday, April 7, 2019
More On Conscious States and Suicide
“Did you remember all of that noise I was making in the
bathroom? I was trying to kill myself.”
The person I was talking with had been discharged from a hospital
about two months ago. He was admitted
there because of an exacerbation of a mood disorder and possible psychosis. The
main reason he was admitted from the emergency department was suicidal
ideation. That is the most frequent indication for hospital admissions in the
United States. Even then who does and does not get admitted is controversial.
It is common for persons to be sent to the emergency department by their families
or outlying facilities where there are legitimate concerns only have the
patient deny the problem and get released from the hospital. There is a lot of
drama involved because one of the decision points is whether or not suicidal
person needs to be placed on legal hold and treated on an involuntary basis. This
frequently leads to speculation about the true nature of what a person says or
alternatively accepting "no suicidal thinking" at face value and dismissing them.
I think it also highlights the significant limitations of
interviewing people and adequately understanding their conscious
state. The best example is the rating scale approach which is really somebody’s
idea of what the optimal interview questions might be to assess a suicidal
person. The commonest depression checklist is the PHQ-9 (1). Item 9 in the PHQ 9 involves suicidal
thinking and the rating is as follows:
Thoughts that you would be better off dead, or of hurting yourself
|
0 – not at all
|
1 - several days
|
|
2 - more than half the days
|
|
3 - nearly every day
|
Depending on where you practice clinics have different
conventions about this item and how it needs to be approached. Any elevation
usually leads to a more intensive assessment of suicide potential. That
typically involves a clinical interview but also could involve the use of
another checklist. It should be apparent that this item is a focused on the
approximate frequency of suicidal thinking. It assumes that the patient can
actually report this and that it is more significant than other metrics like
the intensity of thinking. For example, is one extremely intense thought about
suicide more significant and potentially lethal than thinking about it frequently but easily
dismissing those thoughts? This is one of the basic limitations of any
assessment of the person’s mental status. Clinical interviews and rating scales
are very crude approximations of a person’s conscious state. Assessing someone’s
potential for suicide is a clear example. There is also the notion of rating scales being “quantitative” measures and they are not. There is an entire field
of research suggesting that these “measurements” lead to greater precision and
I doubt that is true.
All of that brings me back to the first patient. Here he is
somewhat annoyed that nobody seemed to realize on an inpatient psychiatric unit
that he was trying to kill himself. At the same time he made every effort to
conceal that fact while he was hospitalized. He only disclosed it months later
after his mood and associated cognitive processes had stabilized. It reminds me
that I also have talked with many people who were intent on killing themselves
and presented themselves as being very well so that they could be discharged and
attempt suicide. The popular literature is full of stories about people who reassured their families or appeared to be doing well only to carry out a planned suicide attempt. This is clearly a high risk conscious state that can escape
detection and lead to very high risk attempt or death.
“The gun just went off.”
I talked to many survivors of gunshot wounds that were
self-inflicted. In large trauma hospitals, psychiatrists are consulted by surgery
services who have successfully treated the patient. The psychiatrists job is to
assess the patient and determine whether or not they need further acute
psychiatric care or they can be discharged home. I generally ask for a very
detailed description of what happened including the type of firearm used, the
time of day, the associated thought process, the overall psychiatric context,
and the sequence of events just before the firearm goes off. The common
explanation that I have heard is a recollection that someone was pointing a
loaded gun at themselves and that at some point it "just went off". There is no
recollection of a conscious effort to pull the trigger. Numerous secondary
analyses are possible including that it is just a rationalization against
self-harm or an attempt to avert psychiatric hospitalization. In keeping with
the theme of this post - there is also a possibility that the patient’s
conscious state at the time of the suicide attempt was so chaotic that it
cannot be recalled or reconstructed. There is precedent for that state and that
is delusional depression. If the patient is clearly delusional all of the usual
deterrents like fear of dying, intense dislike of pain, not wanting to harm the
family, and religious beliefs no longer apply. The standard risk analysis for
suicidal thinking no longer applies. There is a delusional process with
associated emotions that lead to very high suicide risk.
“I felt real bad about what happened 50 years ago and so I
stabbed myself.”
The delusional process can be very subtle. Psychiatrists are
typically taught to pay attention to hallucinations and classic forms of
delusions. Those types of psychotic thinking are fairly obvious. In the case of
depression and some forms of psychosis the delusion can be very subtle. An
example might be feeling guilty about a trivial event from a long time ago.
Everyone can relate to that kind of guilt or embarrassment but what if it is
suddenly linked to the idea that death is preferred to the emotional burden
of that trivial event. People in their 50s, 60s, and 70s could focus on events
that happened when they were in middle school or high school that might start
to disrupt their lives and lead to suicidal thinking. In the example given a
severe suicide attempt occurred by self-inflicted stab wound over a trivial incident
happening in the eighth grade. The patient was unable to recognize that this was a delusional thought process until the depression and psychosis had been adequately treated.
These examples all highlight how a
person can go from being no risk at all for suicidal behavior to being at very
high risk. The changes are subtle and they might not be apparent to the person
experiencing them. The risk analysis models that are used are all linear and
additive and do not capture the conscious states of people who become suicidal.
The limited consciousness theories that we currently have would suggest that it
is really not possible to experience the conscious state of another person in
the transition to high suicide risk is probably a good example. Even the best possible definition of empathy fails if the person cannot recognize the state that the psychiatrist is trying to reflect back to them.
Time domain is another perspective on the fluidity of conscious states both in the case of suicidal thinking and substance use disorders. It is common for a person to describe themselves as becoming a person that they never wanted to be associated with both substance use disorders and suicidal thinking. They are able to see those patterns in retrospect but not at the times they occur.
Time domain is another perspective on the fluidity of conscious states both in the case of suicidal thinking and substance use disorders. It is common for a person to describe themselves as becoming a person that they never wanted to be associated with both substance use disorders and suicidal thinking. They are able to see those patterns in retrospect but not at the times they occur.
It may be apparent that suicidal thinking can be a transition
from a questionable belief to certainty. I listed a few of these beliefs in a
previous post. A common one is “people would be better off without me”. In the
early stages most people can examine that thought and conclude that it is at
least partially false based on their relationships to the people in question
and the assessment of their realistic value to those people. With time and
continued emotional intensity any objective assessment of their value in
relationships might diminish and disappear. At that point they are in a very
high-risk state because they believe in the statement that “people would be
better off without me”. Clinicians are often taught to ask about deterrence to
suicidal ideation, but they are rarely taught to assess the degree of belief a
person has in high-risk suicidal thinking. There are non known ways to determine is a person who is delusional or quasi-delusional about suicidal thoughts is disclosing those thoughts or hiding them.
What can clinicians and patient do in these circumstances? My previous posts suggests that an analysis of the thought patterns can be useful. I routinely review those ideas with people I see who have suicidal thoughts. At some point the goal would be to see if talking about suicidal thoughts in this way would improve the level of resistance to these thoughts and make it less likely that people will act on them. I also believe that a public health message should discuss the same approach, So far the only public health measure seems to be advice on calling suicide hotlines or crisis lines.
What can clinicians and patient do in these circumstances? My previous posts suggests that an analysis of the thought patterns can be useful. I routinely review those ideas with people I see who have suicidal thoughts. At some point the goal would be to see if talking about suicidal thoughts in this way would improve the level of resistance to these thoughts and make it less likely that people will act on them. I also believe that a public health message should discuss the same approach, So far the only public health measure seems to be advice on calling suicide hotlines or crisis lines.
I have had several people who I know as friends let me know that they have been able to analyze these thoughts on their own and come up solutions to contain these thoughts and get enough emotional distance from them to the point that they were no longer bothersome. I know it can be done and encourage public health officials to take it to the next step.
In closing, this post emphasizes a unique conscious state or states associated with suicidal ideation and suicide attempts. Nothing in this post should be construed as interview or treatment suggestions. A more comprehensive understanding of suicidal thinking and behavior requires more than a rating scale approach or risk factor analysis.
George Dawson, MD, DFAPA
References:
1. PHQ-9 is
copyrighted by Pfizer, Inc. Full rating scale is visible at many sites by searching on PHQ-9. https://www.ncbi.nlm.nih.gov/pubmed/?term=PMID%3A+20219811
Monday, April 1, 2019
Vigilance Is Required For Adequate Informed Consent
One of the main
reasons for me writing this blog is to discuss medication safety and adverse
effects. This is no small task since the orientation of most research and
clinical work is making a diagnosis and where appropriate selecting the correct
medication. A lot of work goes into those determinations but an equal amount of
work needs to be directed toward managing common adverse effects and preventing
serious adverse effects/events of the medication. In order to do that
practitioners need to realize that they are treating a genetically diverse
population. That means there will always be a subgroup of people who cannot
tolerate medications. There will also be a subgroup of people who respond very well
to medications and variations in between.
A good example is selective serotonin reuptake inhibitors
(SSRIs). These medications are commonly first-line agents for depression and
anxiety. About one person out of every seven will not be able to tolerate them.
The same is true of every major class and psychiatric medications. That is a
source of frustration for practitioners because it means that even if the correct
diagnosis is made the optimal medication may not be available because the
person cannot tolerate it. In the case of SSRIs, a person may not be able to
tolerate any other medication in that class.
In addition to genetic heterogeneity affecting the pharmacokinetics
and pharmacodynamics of drugs, patients are also taking other classes
medications and have other medical morbidities that may contraindicate the use of
certain psychotropic medications. In the case of bupropion, any history of
eating disorder or current eating disorder, any seizure history, and any
traumatic brain injury that may predispose to seizures are contraindications to
using that medication. Appropriate medical care requires that practitioners are
aware of all of the contraindications and precautions listed in FDA package
inserts for medications.
What about the case of a healthy young person with no
medical comorbidity who needs treatment for depression or anxiety. What is
important for that person to know in order to safely take that medication? What
should be explicitly discussed with them? What constitutes adequate informed
consent? What can be done in the time a practitioner has to make the diagnosis
and educate the patient? These are not trivial questions since most practices
are scheduling patients every 15 minutes in some cases new patients are seen
for 30 minutes. All that makes it seem like psychopharmacology is a very easy
job but the information transfer during the sessions is critical and there is
plenty of evidence that it is inadequate.
There is an excellent discussion of the problem by Rajnish
Mago, MD in the references (2). He considers
a number of ways to assess and manage adverse effects including open-ended
questions, checklists administered to the patient, structured interviews by
clinicians, and spontaneous reports by patients. His review of this literature
shows that the sensitivity and specificity of all of these methods are lacking
and some of them take so much time they could not be applied clinically. He
gave as an example of structured interviews administered by clinicians that take
up to 60 minutes just to determine the adverse effects. The other problem with determining the
adverse effects is whether or not they can be attributed to the medication that
has been prescribed. In clinical trials, researchers often estimate whether
adverse effects/events are due to the medication or not. In practice that is a
difficult determination due to both placebo and nocebo effects.
Vital signs and laboratory measures can also constitute adverse effect measurements. In psychiatry liver function tests, renal function
including plasma creatinine and estimated GFR, CBC and ANC, TSH, T4, basic
metabolic profile, electrocardiograms, and EEGs are all
metrics that can be followed to determine medication effects. Vital signs
should also be routinely done on anyone taking medications to check for effects
on blood pressure, heart rate, and heart rhythm. Those measurements constitute
more specific measures that could lead to clinical action.
There has been some emphasis on measurement-based practice that involves the extensive use of rating scales. Many of the authors in this area seem to mistake rating scales as both objective and quantitative measures when they are neither. I remain unconvinced that this is the best approach and think that it has
resulted in the over medication of large numbers of people who have a certain
rating scale score but no diagnosis.
There has been very little discussion of the analysis of longitudinal
data and what these rating scale scores actually mean. The controversy in this
area applies to both the diagnostic indices as well as the side effect indices.
My approach in dealing with side effects is that they should be completely
eliminated wherever possible and that irreversible adverse effects need to be
avoided.
Dr. Mago’s paper reviews recommendations for improving
adverse effect reporting and clinical trials and also his recommendations for
clinical practice that basically come down to telling patients about all
adverse effects that occur at a rate 5% greater than placebo and all
potentially serious for life-threatening adverse effects even if they are rare.
I am in complete agreement with those recommendations, and even have an
approach that can work. It does require a degree of vigilance on the part of
the clinician.
The attached table suggests why vigilance is required. Psychiatrists need to be more vigilant than most physicians because no patient is expected to get complications or die as a direct result of our treatments. That historically has led the field to have a lower threshold for monitoring for potential side effects. Given all of these constraints and the complexity of the situation is there a way to provide adequate informed consent about the medications that we prescribe? I am talking about all physicians here and not just psychiatrists. I think there is and I will walk through my process.
1. I preface my remarks with my experience prescribing the medication: For example with common medications like naltrexone I will give an estimate of the percentage of people that tolerate the medication very well and the percentage that stop taking it and why. That sets an expectation that a medication may or may not be well tolerated as a probability statement and that some people stop it because of adverse effects.
2. I encourage people to do their own research. Anyone can pull up the FDA package insert on any medication these days by Googling: "[medication name] FDA package insert". I tell them what to expect. I also tell them that I should be able to explain anything they find on the Internet about the medication if they have any questions or concerns. In the case of polypharmacy scenarios, I point out that the extremes of low doses and high doses of two agents and all of the combinations in between can be found this days with stated results ranging from very positive to very negative for the entire range of doses. I also have the position that they can take as long as they want to do their own research and that in the meantime - no medication needs to be prescribed.
3. I will discontinue the medication at any time and I am very explicit about that. I do not expect anyone to "get used to" side effects because in my experience too many people get used to side effects and live with them on a long term basis. I provide examples to illustrate the idea of living with side effects.
4. I give them the MedlinePlus handout on the medication or show them how to get it. The MedlinePlus handouts are really a product of American Society of Health-System Pharmacists (ASHP). I have emails both into MedlinePlus and AHSP inquiring about the process they use to determine the bullet points for the listed precautions and tiers of side effects. At the time of this post I have not been contacted by either organization.
5. I tell them the common side effects, contraindications to the medication, and precautions - specially if they are on a medication or have a medical condition that is flagged in the precaution section.
6. I discuss sexual side effects as a common side effects of medications. About 20% of the people I see have this side effect from SSRI type antidepressants. I review the possible effects on sexual function including decreased libido, impaired excitation phase (erections, lubrication), impaired orgasm, and altered ejaculation (delayed, retrograde). This is a difficult issue for many people who have found an antidepressant that works but produces this side effect. The analysis of the problem is complicated by relationship problems and the initial effects of depression. It is important to outline a strategy to address the problem even if the patient's preference is to delay any medication changes.
A good example is the antidepressant duloxetine. The contraindications are straightforward - uncontrolled angle closure glaucoma and recent use of a monoamine oxidase inhibitor (MAOI). Beyond that clinical worsening and suicide risk, hepatotoxicity, orthostatic hypotension and syncope, serotonin syndrome or neuroleptic malignant syndrome, abnormal bleeding, activation of mania/hypomania, seizures, effect on blood pressure, clinically important drug interactions, hyponatremia, use in patients with concomitant illness, urinary hesitation and retention, and laboratory test abnormalities are all listed as warnings and precautions. The most important one that I typically discuss is liver function abnormalities due to alcohol use. Although this is not a contraindication - the package insert basically says that a person with this problem should not take duloxetine. I have had people want to take the medication despite this warning and have had to discuss a monitoring plan with them as well as letting them know that my read of the package insert is that this plan carries with it more risk than one that adheres to the recommendations by the FDA. The package insert also lists two different groups of Treatment Emergent Adverse Reactions in tables. Both are more common than placebo and occur in 5% or 2% of patients in clinical trials. There is a subsequent list of side effects defined with these frequencies:
"Reactions are categorized by body system according to the following definitions: frequent adverse reactions are those occurring in at least 1/100 patients; infrequent adverse reactions are those occurring in 1/100 to 1/1000 patients; rare reactions are those occurring in fewer than 1/1000 patients."
1. I preface my remarks with my experience prescribing the medication: For example with common medications like naltrexone I will give an estimate of the percentage of people that tolerate the medication very well and the percentage that stop taking it and why. That sets an expectation that a medication may or may not be well tolerated as a probability statement and that some people stop it because of adverse effects.
2. I encourage people to do their own research. Anyone can pull up the FDA package insert on any medication these days by Googling: "[medication name] FDA package insert". I tell them what to expect. I also tell them that I should be able to explain anything they find on the Internet about the medication if they have any questions or concerns. In the case of polypharmacy scenarios, I point out that the extremes of low doses and high doses of two agents and all of the combinations in between can be found this days with stated results ranging from very positive to very negative for the entire range of doses. I also have the position that they can take as long as they want to do their own research and that in the meantime - no medication needs to be prescribed.
3. I will discontinue the medication at any time and I am very explicit about that. I do not expect anyone to "get used to" side effects because in my experience too many people get used to side effects and live with them on a long term basis. I provide examples to illustrate the idea of living with side effects.
4. I give them the MedlinePlus handout on the medication or show them how to get it. The MedlinePlus handouts are really a product of American Society of Health-System Pharmacists (ASHP). I have emails both into MedlinePlus and AHSP inquiring about the process they use to determine the bullet points for the listed precautions and tiers of side effects. At the time of this post I have not been contacted by either organization.
5. I tell them the common side effects, contraindications to the medication, and precautions - specially if they are on a medication or have a medical condition that is flagged in the precaution section.
6. I discuss sexual side effects as a common side effects of medications. About 20% of the people I see have this side effect from SSRI type antidepressants. I review the possible effects on sexual function including decreased libido, impaired excitation phase (erections, lubrication), impaired orgasm, and altered ejaculation (delayed, retrograde). This is a difficult issue for many people who have found an antidepressant that works but produces this side effect. The analysis of the problem is complicated by relationship problems and the initial effects of depression. It is important to outline a strategy to address the problem even if the patient's preference is to delay any medication changes.
A good example is the antidepressant duloxetine. The contraindications are straightforward - uncontrolled angle closure glaucoma and recent use of a monoamine oxidase inhibitor (MAOI). Beyond that clinical worsening and suicide risk, hepatotoxicity, orthostatic hypotension and syncope, serotonin syndrome or neuroleptic malignant syndrome, abnormal bleeding, activation of mania/hypomania, seizures, effect on blood pressure, clinically important drug interactions, hyponatremia, use in patients with concomitant illness, urinary hesitation and retention, and laboratory test abnormalities are all listed as warnings and precautions. The most important one that I typically discuss is liver function abnormalities due to alcohol use. Although this is not a contraindication - the package insert basically says that a person with this problem should not take duloxetine. I have had people want to take the medication despite this warning and have had to discuss a monitoring plan with them as well as letting them know that my read of the package insert is that this plan carries with it more risk than one that adheres to the recommendations by the FDA. The package insert also lists two different groups of Treatment Emergent Adverse Reactions in tables. Both are more common than placebo and occur in 5% or 2% of patients in clinical trials. There is a subsequent list of side effects defined with these frequencies:
"Reactions are categorized by body system according to the following definitions: frequent adverse reactions are those occurring in at least 1/100 patients; infrequent adverse reactions are those occurring in 1/100 to 1/1000 patients; rare reactions are those occurring in fewer than 1/1000 patients."
It takes a lot of practice to get the above informed consent discussions down to 10 minutes, especially when polypharmacy and other specific problems need to be addressed at the same time. Even then, it is important to present the information every time. Shortcuts can result in a patient experiencing an uncommon side effect and that leads to self doubt on the part of the physician of the form:
"If I had mentioned that problem like I usually do would it have led to a more timely intervention to reduce the adverse effect?"
That is a question that most physicians don't want to keep asking themselves and it is why my vigilance is high.
"If I had mentioned that problem like I usually do would it have led to a more timely intervention to reduce the adverse effect?"
That is a question that most physicians don't want to keep asking themselves and it is why my vigilance is high.
George Dawson, MD, DFAPA
References:
1: Bloom R, Amber KT. Identifying the incidence of rash, Stevens-Johnson syndrome and toxic epidermal necrolysis in patients taking lamotrigine: a systematic review of 122 randomized controlled trials. An Bras Dermatol. 2017 Jan-Feb;92(1):139-141. doi: 10.1590/abd1806-4841.20175070. PubMed PMID: 28225977; PubMed Central PMCID: PMC5312199.
2: Mago R. Adverse Effects of Psychotropic Medications: A Call to Action.Psychiatr Clin North Am. 2016 Sep;39(3):361-73. doi: 10.1016/j.psc.2016.04.005. Review. PubMed PMID: 27514294.
3: Tse L, Barr AM, Scarapicchia V, Vila-Rodriguez F. Neuroleptic Malignant Syndrome: A Review from a Clinically Oriented Perspective. Curr Neuropharmacol. 2015;13(3):395-406. Review. PubMed PMID: 26411967; PubMed Central PMCID: PMC4812801.
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