Sunday, July 16, 2017

OIG Approach To Medicare Part D Opioid Prescribing




The pharmacoepidemiology of opioids in the United States depends on a fragmented approach.  I recently posted a CDC study that used a commercial pharmacy database to look at the characteristics of opioid prescribing across individual counties in the United States.  In the past week I came across this data brief from the Office of Inspector General (OIG) of the US Department of Health & Human Services.  Their database is the 43.6 million beneficiaries of Medicare Part D.  Their stated goals are to protect beneficiaries and the community from prescription drug abuse, to prevent diversion and illegal sales, and to protect the program from fraud and unnecessary expense.

Their methodology is unique.  They look at prescription drug events (PDE) for all opioids prescribed in 2016 that are paid for by Medicare Part D.  Any prescription paid by cash or by another insurer is not counted.  Every time a prescription is dispensed and covered by the program a PDE record is sent to CMS (Centers for Medicare and Medicaid Services).  In this case they calculated total spending on opioids, total Schedule II and III opioid prescriptions, and a number of parameters that look at total cost.  They also determined the the prescriptions per beneficiary, and the average daily morphine equivalent dose (MED).  In most of the literature on opioid dosing the milligram morphine equivalents (MME) is a common measure.  MME is just the total mg of opioid multiplied by a conversion factor.  The MED is basically the same measure but it factors in the total duration of the prescription.  As an example for a one day supply of either Vicodin (hydrocodone) 10 mg tabs or Percocet (oxycodone) 5 mg tabs:

 hydrocodone:  12 tabs x 10 mg = 120 mg x 1 (conversion factor) = 120 MME or MED

oxycodone:      16 tabs x   5 mg  = 80 mg x 1.5 (conversion factor) = 120 MME or MED

In addiction practice these are common doses encountered in the low range of prescription opioid use disorders.  I used the brand names for hydrocodone and oxycodone preparations here because that is what people commonly report to me and it typically requires more investigation.  For example "Percocet" or "Perc30s" commonly refers to higher dose oxycodone without acetaminophen - a single 30 mg tablet of oxycodone or 45 MME.  The authors of this brief do not need to be concerned about those data discrepancies because they are able to get specific claims data.

In terms of outcome data, they looked at all of the prescriptions and cost variables as well.  They looked at total exposure.  One in three Medicare Part D beneficiaries received at least one opioid prescription.  That amounts to 14.4 million people out of a 2016 beneficiary base of 43.6 million people.   There were a total of 28.2 million hydrocodone-acetaminophen prescriptions, 5 million oxycodone-acetaminophen prescriptions and 14.8 million tramadol prescriptions.  Tramadol is not typically included in opioid studies even though the M1 metabolite is a mu receptor agonist.  Tramadol is a prodrug metabolized by CYP2D6, metbolism is necessary to to create M1 and slow metabolizer are less likely to experience the analgesic effect and addiction risk.

Of these beneficiaries 501,008 received high dose opioids (MED > 120 mg/day).  The indication here was for noncancer or chronic noncancer pain.  Hospice patients and cancer patients were excluded.  The most common opioid prescribed in this high dose group was oxycodone 30 mg.  The study also defined extreme amounts of opioids as an MED of 240 mg and 69,563 patients received that amount.  There were 678 patients receiving high extreme amounts a MED of 1,000 mg for an entire year.  The concern with very high levels is whether the prescriptions are indicated and whether they might be diverted.  The authors also suggested that fraud could be an issue due to stolen Medicare identification number.  They did give an example of a patient who got 62 opioid prescriptions on one year (61 from the same family physician) with an average daily MED of 3,130 mg.

The brief also estimates the degree of doctor shopping or seeking prescriptions from more than one physician and pharmacy.  The criteria used for this report was 4 prescribers and 4 pharmacies.  A total of 22,308 beneficiaries met that criteria and they also had an average daily MED > 120 mg for a period of three months.  They also identified 162 beneficiaries who got opioid prescriptions from 10 different prescribers and 10 different prescribers in the same time period.  Even larger number of prescribers and pharmacies were noted in the most extreme cases.  That number represents about 0.02% of the total number of beneficiaries using opioids and that is the same order of magnitude of a previous estimate from a large commercial prescription database (4).  

Using the estimates of high dose opioids and degree of doctor shopping allowed for an estimate of serious risk of opioid overuse or overdose.  The number estimate in that category was 89,843 or about 0.6% of the entire group taking opioids.

The brief also looks at the issue of who is prescribing the opioids.  For the 89,843 there were an estimated 115,851 prescribers who wrote at least one of those prescriptions.  A total of 401 prescribers were determined to be "far outside the norm".  One hundred and ninety eight ordered opioids for patients getting extreme amounts of opioids (MED of 240 mg), 264 ordered opioids for patients who appeared to be doctor shopping, and 61 ordered opioids for patients who were members of both groups.  The total number of prescriptions written by prescribers in this group was 256,260 opioid prescriptions.  There were 15 prescribers who ordered opioids for > 98 beneficiaries receiving extreme amounts (MED of 240 mg).   Of the 401 prescribers with questionable prescribing 1/3 or 133 were nurse practitioners (N=81) or physicians assistants (N=52).

Are there any conclusions possible from this administrative look at opioid prescribing in a subset of Medicare patients?  I think that there are a few.  My conclusions assume that generalizations from this data are possible:    

1.  Opioids are commonly prescribed to Medicare recipients - and the vast number of these prescriptions appear to be appropriately managed.

2.  A small number of prescribers appear to be responsible for most of the inappropriate prescriptions - and there are some outliers practicing at the extremes in terms of prescribing patterns.  Very extreme prescribing described in a few cases would appear to be a function of unnecessary use rather than patients with special needs who require extremely high doses of opioids (MED > 375 mg).  That is an important point because concentrations of high dose opioid prescribing is often attributed to the special needs of patients or referral patterns resulting in concentrations of these patients and the need for the prescriber to write prescriptions for these amounts.  If this was a case of biological variability - a much larger fraction of the patients who require extreme amounts of opioids.

3.  The problem of inappropriate prescriber appears to be easy to follow on the CMS data base - the standard political approach to the opioid epidemic is to blame all doctors and mandate various education programs about opioid prescribing.  It should be clear that a minority of physicians or in this case prescribers are problem and there should be a targeted approach.  At the very minimum the prescribers in the top 1% of all prescribers or the group who is prescribing extreme amounts of opioids, to people who are probably doctor shopping, or both should be receiving active feedback from CMS.

4.  Not counting opioids prescribed for cancer or hospice care is an important omission -  This is a problem with very little research or policy making.  Patients undergoing end-of-life care are  prescribed liberal amounts of opioids for pain relief.  There is no question that these patients should have adequate pain relief by whatever medication is necessary.  The question is what happens when there are opioids from these prescriptions that the patient never uses?  One palliative care study (3) noted that of the hospice care agencies responding to their poll, over a third noted that substance use and diversion were a problem for their agency.  Diversion of drugs is known to occur in health care systems where there is monitoring and checks and balances.  There are large amounts of opioids out in in-home hospice care settings with much less accountability.  A similar study looking at the amounts of opioids prescribed in these settings and what happens to that medication is needed.

5.  Opioids are not prescribed in isolation - CMS and the OIG are not medical research organizations.  A more comprehensive approach to the problem would look at all of the medications that these patients are receiving and not opioids in isolation.  Benzodiazepines frequently accompany opioid prescriptions and in some cases with sedative hypnotics for sleep.  Prescribing both compounds can lead to serious and in some cases fatal drug interactions.  That would result in an additional category of inappropriate prescribing of opioids.

Although this is an administrative database, it does illustrate how this data can be used for pharmacosurveillance purposes.  There was emphasis about the cost of opioid prescribing and the need to prevent fraud from a CMS perspective.  The data could also be used to provide valuable feedback to physicians and other prescribers as well as politicians and regulators.

It can be used to counter some myths that seem to exist on both sides.


George Dawson, MD, DFAPA




References:



1:  US Department of Health and Human Services: Office of the Inspector General.  Opioids in Medicare Part D: Concerns about Extreme Use and Questionable Prescribing.  HHS OIG Data Brief OEI-02-17-00250.

2: CDC, “Increases in Drug and Opioid-Involved Overdose Deaths: United States, 2010–2015.” MMWR Morb Mortal Wkly Rep, December 30, 2016, pp. 1445–52. Accessed at https://www.cdc.gov/mmwr/volumes/65/wr/mm655051e1.htm on July 16, 2017

3: Blackhall LJ, Alfson ED, Barclay JS. Screening for substance abuse and diversion in Virginia hospices. J Palliat Med. 2013 Mar;16(3):237-42. doi: 10.1089/jpm.2012.0263. Epub 2013 Jan 5. PubMed PMID: 23289944

4: McDonald DC, Carlson KE. Estimating the prevalence of opioid diversion by"doctor shoppers" in the United States. PLoS One. 2013 Jul 17;8(7):e69241. doi: 10.1371/journal.pone.0069241. Print 2013. PubMed PMID: 23874923.



Saturday, July 8, 2017

Latest From MMWR On Opioid Prescribing In the USA



The CDC continues to do outstanding work in providing useful metrics for monitoring the current opioid epidemic.  The latest edition of the Morbidity and Mortality Weekly Report is no exception.  In this analysis the authors look at a database representing 88% of the opioid prescriptions through retail pharmacies in the USA over the period 2006 to 2015.  Buprenorphine products used for medication assisted treatment of opioid use disorder and other preparations containing opioids for non- pain treatment like cough syrups were not included in the total amounts.

They calculated various metrics of interest from the data including the milligram morphine equivalent (MME) per capita and prescribing rates (per 100 persons) for overall rates, high dose rates, and prescribing rates by days of supply given (<30 days or ≥ 30 days).  They also looked at county by county rates over the time period studied.  

Before I look at the result,  I will digress a bit on the MME measure.  There are standard conversion charts like this one used by the CDC that allows for conversion of a standard dose of an opioid into a MME.  A few examples will illustrate the utility of this conversion.  Suppose a person is prescribed oxycodone and acetaminophen tablets.  Most of them contain 5 mg oxycodone + 300 mg acetaminophen.  If the prescription says to take one tablet 4 times a day of needed for pain that is 20 mg oxycodone total or 20 mg x 1.5 (conversion factor) = 35 MME.  Using the same example for hydrocodone (5 mg hydrocodone + 300 mg acetaminophen) yields 20 mg x 1 (conversion factor) = 20 MME. That means that roughly either of these prescriptions taken for one month, once a year gets to the per capita MME of 640.

In addiction practice it is common to see people who are taking 120 to 240 mg/day of oxycodone per day.  Doing the conversions yields a range of 180-360 MME.  There is no good conversion from heroin to MME due to varied methodologies of use and very short half-life.  With methadone the problem is long half-life and tolerance leading the conversion table to yield higher conversion factors at higher dose.  With the calculations it was observed that the MME per capita peaked in 2010 at 782 MME and then decreased to 640 MME per capita in 2015.  Both numbers are significantly higher than the MME per capita in the US in 1999 when it was 180 MME.   Additional graphics of the other metrics from this article can be found in the tables below.




   A scan of the above graphics starting from the top left shows that the rate of opioid prescribing including high dose prescribing (> 90 MME/day) has decreased beginning in about 2010.  The rate by number of days supply has increased slightly as has the number of days supply per prescription.  The overall MME per prescription has decreased.  The authors quote studies that show that patients are at risk for continued opioid use if they take them for more than 5 days and that once a person has been taking opioids for 90 days they are not likely to discontinue them.  There is also the CDC infographic of prescription opioids as a gateway drug.  People addicted to prescription painkillers are 40 times more likely to be addicted to heroin.

In the county by county assessment there were more decreased in overall prescribing rate (46.5%) and MME per prescription (49.6%) than stable or increased rates.  The high dose prescribing rates dropped the most (86.5%).  It is likely that guidelines describing the higher risk of high dose therapy affect these rates than the recognition of opioid use disorders in chronic pain patients.  There was a significant increase in the average day per prescription in the county by county analysis (73.5%).

The authors also looked at a complex stepwise multivariable linear regression looking at numerous demographic variables and concluded that several variables accounted for higher amounts of opioids being prescribed including ( lower educational attainment, higher unemployment, more physicians and dentists per capita, higher prevalence of conditions associated with chronic pain (diabetes mellitus, arthritis, disability), higher  suicide rates, and higher rates of uninsured and Medicaid enrollment.  These variables accounted for 32% of the opioids prescribed at the country level.

The study has the expected limitations of a large retrospective database study.  There are signs that that physician education and some regulatory action may be  having an influence in opioid prescribing.  Any reduction in the populations exposure to opioids would be expected to have some impact, but as of 2015 there were an estimated 2 million prescription opioid addicts (2).  The recent transition from prescription opioids to heroin and some street products containing fentanyl and carfentanil has been responsible for an increase in opioid overdoses despite the change in prescribing patterns.  Although the total opioid MME per capita has decreased it is still about 3 times higher than it was in 1999 - the year before the current epidemics inflection point.  Proponents of liberal opioid prescribing might say (and have said) that the prescribing of opioids for chronic noncancer pain in the years leading up to 1999 was too stringent and deprived patients of needed pain relief.  My experience with addiction suggests otherwise.

The risks of addiction with opioids is great.  A current underemphasized area is primary prevention or not exposing young adults to opioids.  The take home message from this paper is that secondary prevention may have an impact but at this point it is not clear cut.  One thing is certain and that is the CDC does great work getting this data out and freely available to all interested physicians and patients in the world.

It will be a solid record of how the opioid epidemic evolved and hopefully at some point - resolved.          


George Dawson, MD, DFAPA





References:

1: Guy GP Jr, Zhang K, Bohm MK, Losby J, Lewis B, Young R, Murphy LB, Dowell D.Vital Signs: Changes in Opioid Prescribing in the United States, 2006-2015. MMWR Morb Mortal Wkly Rep. 2017 Jul 7;66(26):697-704. doi: 10.15585/mmwr.mm6626a4. PubMed PMID: 28683056.

2: Substance Abuse and Mental Health Services Administration. Prescription drug use and misuse in the United States: results from the 2015 National Survey on Drug Use and Health. Rockville, MD: Substance Abuse and Mental Health Services Administration; 2016. https://www.samhsa.gov/data/sites/default/files/NSDUH-FFR2-2015/NSDUH-FFR2-2015.htm


Attribution: Both of the graphics in this post are from reference 1 above.  Both are used per the user agreement for the MMWR that states this information is in the  public domain.






Thursday, July 6, 2017

The Florida Psychotherapeutic Medication Guidelines




This month's Journal of Clinical Psychiatry has a lead article about medication guidelines for adults with major depressive disorder.  Is is an apparent function of the Florida Medicaid Drug Therapy Management Program For Behavioral Health.  It is hard to imagine a title with more inappropriate terms for what psychiatrists do with medications.  At least until I read the title of the article: "Florida Best Practice Psychotherapeutic Medication Guidelines (FPG) for Adults with Major Depressive Disorder."  Here is a little insight into what I have difficulty with.  Treatment with medications is not psychotherapy.  Psychotherapy almost always needs to accompany medication treatment at one level of intensity or another.  But providing medication alone is not psychotherapy.  That is an important distinction because one of the common misconceptions is that a medication will solve common life problems like interpersonal problems at work or home and it will not.  The second issue is the idea of medication "management".  As one of my colleagues used to say: "Pharmacists manage medications we treat patients".  The term should also be anathema to any psychiatrist who was around when billing and coding guidelines were invented.  The term came to mean 10-15 minute appointment that reduced psychiatric treatment to a brief discussion of a medication.  They were two of the lowest reimbursement codes in the coding scheme and they handily allowed psychiatric treatment to be split off from the rest of medicine and reimbursed at a lower rate.  And finally the term behavioral health.  This is a long standing business term to indicate a managed care environment with business supervision rather than a mental health environment with psychiatric supervision.  All of these terms suggest that managed care companies and the government have more to do with these guidelines than psychiatrists.

Sure enough, looking at the partners for this project the majority are behavioral health organizations or managed care companies followed closely by government organizations, other associations, and three psychiatry departments out of 24 organizations.  The article itself describes the process as being the result of a multistakeholder Florida Expert Panel.  The stakeholder word always makes me cringe.  Whenever I have seen it in medicine and psychiatry nothing good has ever come of it.  There are only two stakeholders in medical treatment - the physicians and the patient.  I can stretch that to the family if they are still actively involved.  I don't want to see anybody else in the room.

The  authors detail their rationale for yet another guideline.  They state:

"Notwithstanding the public health priority of MDD, as well as increasing public, academic.  and policy attention given to MDD, misdiagnosis or delayed diagnosis and failure to incorporate appropriate measurement based care are significant modifiable deficiencies in current practice."

If only that were true.  In a state where there is widespread PHQ-9 screening. the screening tool suddenly becomes the diagnosis.  Measurement based care suddenly becomes the collection of meaningless cross sectional scores from clinics all over the state listing a diagnosis of MDD.  If only real life worked like intensive clinical trials out to prove a hypothesis.

They go on to list several other reason for their guideline.  They cite the American Psychiatric Association (APA) guideline as a "conflation" of empirical evidence and expert consensus - suggesting that nothing is sacred about expert consensus and that the patients seen by experts may not be the same as patients seen by other physicians.  They suggest that guidelines derived from pharmacological trials may be limited by suggesting that they may have limited generalizability due to trail designs and conditions that rule out certain conditions, but don't discuss other problems in experimental design.  They discuss limited long term follow up and measurement of functional capacity as a limiting factors.  Given that the authors don't really intend to correct any of these criticisms it is difficult to see that as a rationale for the new guideline.  Instead they say that their consensus process was their overarching principle in writing the FPG along with providing guidance (especially to primary care physicians) to provide safe and effective treatment for depression.

The authors use a hierarchical approach to tiers of treatment without using an algorithm.  Level 1 is initial treatment and Levels 2, 3, and 4 are basically used if the initial levels of treatment are ineffective or not tolerated.  There are few surprises for any psychiatrist who is used to treating depression, especially referrals from primary care physicians.  Given the stated concerns about the biasing effects of clinical trials sponsored by pharmaceutical companies for specific FDA indications, there were not many qualifiers about the addition of an "atypical antipsychotic approved for major depressive disorder (ie. aripriprazole, brexpiprazole)" at Level 2.  Level 2 is basically a failure of Level 1 antidepressant monotherapy.  In fairness switching to another antidepressant monotherapy at Level 2 is a suggested option.  The clear concern that the authors have about second generation antipsychotics in their scheme is metabolic rather than neurological side effects.  I have found a significant number of neurological side effects from aripiprazole including Parkinson's syndrome, akathisia. and tardive dyskinesia from these medications.  Nowhere in the paper are the diagnostic skills listed as important for the physicians.  In the emphasis about measurement based care there are no rating scales for drug induced neurological disorders.  The question of safer augmentation strategies are not discussed.

With regard to the issue of weight gain as a medication side effect, a strategy listed is "select medications that have a low relative risk of weight gain and metabolic syndrome".  A couple of related issues come up including the fact that a significant number of patients walk into the clinic with high BMI, but they are there for the treatment of depression.  Should the diagnosis of obesity and/or metabolic syndrome be made and managed along with the depression?  What about the patients who gain significant weight on either aripiprazole or brexpiprazole?  They definitely exist. What about clinicians who have developed successful strategies for using atypical antipsychotics with minimal to no weight gain?

There are also the very common problems of insomnia associated with depression that does not resolve with antidepressant therapy and significant anxiety with or without panic attacks.  Major depression with psychotic features and major depression with mixed features were discussed as important variants and special interventions not commonly used in primary care were included like electroconvulsive therapy (ECT) or transcranial magnetic stimulation (TMS).  It was acknowledged that lack of patient acceptance and availability of these treatments might result in using various medication combinations that may be less effective.  Vagal nerve stimulation was recommended as a level 4 treatment and I have serious reservations about that being effective for anyone.  

All in all the FPG is what I would expect from a collection of stakeholders, some of whom were listed as representatives of managed care companies.  Rather than have these stakeholders rehash strategies that have been around for 20 years, there was an opportunity to design a comprehensive system of care for patients with depression and there is no evidence that has happened.  There is a reason why people don't go in to psychiatry and some of those reasons don't bode well for the assumption that everyone in the system will now be doing comprehensive assessments like psychiatrists.  A system of mental health care designed by stakeholders could possibly develop state- of-the-art resources for neuromodulation (TMS, ECT, deep brain stimulation), sleep studies, monitoring the cognitive effects of depression and antidepressants, detoxification and addiction treatment, and reasonable inpatient and residential resources.  That same system would have designed in timely assessments of difficult problems like MDD with psychosis by psychiatrists.  Adequate numbers of psychotherapists or pilot programs looking at computerized cognitive behavior therapy for sleep, depression, and anxiety would be more useful that one or two crisis oriented sessions with no specific orientation.  A blanket statement about the utility of evidence-based psychotherapies without adequate numbers of therapists to carry it out is not helpful in any way.

We need system redesign by stakeholders, not stakeholders making more guidelines while pretending that they know something about quality.
    



George Dawson, MD, DFAPA


Synopsis:

If certain stakeholders in a system, have:

-all of the money
-all of the power
-sophisticated electronic health records that are set up more for administrative than clinical purposes.

They may have an obligation to design the system to optimize care rather than telling the people delivering the care what they can do in a poorly integrated system of rationed resources by applying strategies that are already well known.  



References:

1: McIntyre RS, Suppes T, Tandon R, Ostacher MJ,  . Florida Best Practice Psychotherapeutic Medication Guidelines for Adults With Major Depressive Disorder. J Clin Psychiatry. 2017 Jul;78(6): 703-713.

2: Ostacher MJ, Tandon R, Suppes T. Florida Best Practice Psychotherapeutic Medication Guidelines for Adults With Bipolar Disorder: A Novel, Practical, Patient-Centered Guide for Clinicians. J Clin Psychiatry. 2016 Jul;77(7):920-6. doi: 10.4088/JCP.15cs09841. PubMed PMID: 26580001.

3: Gartlehner G, Gaynes BN, Amick HR, Asher GN, Morgan LC, Coker-Schwimmer E, et al. Comparative Benefits and Harms of Antidepressant, Psychological, Complementary, and Exercise Treatments for Major Depression: An Evidence Report for a Clinical Practice Guideline From the American College of Physicians. Ann Intern Med. 2016;164:331-341. doi: 10.7326/M15-1813.

4: Qaseem A, Barry MJ, Kansagara D, for the Clinical Guidelines Committee of the American College of Physicians. Nonpharmacologic Versus Pharmacologic Treatment of Adult Patients With Major Depressive Disorder: A Clinical Practice Guideline From the American College of Physicians. Ann Intern Med. 2016;164:350-359. doi: 10.7326/M15-2570.


Wednesday, July 5, 2017

Eye Clinic Follow Up




I went back in today for a one week follow up of laser surgery for a retinal tear.  An acute problem always brings some issues into focus so I thought I would continue on about some comparisons of psychiatry with modern medical technology as well as some of the differences that cast some advantage to psychiatrists.   As usual there are always political implications.  I have the added advantage of showing the retinal scans from today, courtesy of the clinic.  As most patients know, experience with getting results like this from clinics is highly variable.  Most of that confusion is a direct result of the Privacy Rule that started under the Clinton administration and ended under the Bush administration.  It is complicated by CFR42, a federal regulation that directly impacts the release of sensitive data and the way it can be released.  after the recent modification to make it clearer and easier to get date, one of the clinics I go to will no longer e-mail me graphical data.  That is the outcome I expected when special interest attorneys get involved in health care law.

The visit itself went very well.  The clinic demonstrated the same efficiency.  The retinal exam included scans of both eyes by physical examination of only the affected eye.  The scribe was in the room and she picked up an error in the original note and corrected it.  The conclusion was no change in retinal opacities  (blood in the vitreous) - but well sealed off laser site with resolving retinal edema.  In the manner of most proceduralists that I have encountered, it was time for questions.  No spontaneous advice.  I carefully outlined the physical activities that I am involved in and was advised that I could resume with nor restrictions.  I had stopped taking 81 mg of aspirin a day on my own initiative and was advised that I could resume that.  The only additional information was follow up in 6 weeks and call if problems.

That call if problems is always a tricky proposition.  With the retinal opacities from the original tear the large amoeba-like blob over about 1/3 of my visual field was still there, but over the course of the day it comes and goes.  At times there are about 20-30 very small black dots floating around in that eye.  Given what I know about brain adaptation to let's say prism viewing, I wondered if my brain was adapting to the retinal opacities and only showing me the clear visual field.  There were times when it seemed worse, but I concluded that unless it was consistently worse, I should probably not call the clinic.  I arrived at that conclusion on my own. but confirmed  it with the retinal specialist between now and the next appointment.

I also thought about the time it takes me to coach patients about how to self monitor and also warn them about rare side effects.  I can spend 10-20 minutes on serotonin syndrome,  neuroleptic malignant syndrome, prolonged QTc interval, drug induced liver disease, priapism, metabolic syndrome, and diabetes mellitus.  And that is after we have discussed progress and medication side effects.  When I thought about the complication rates quoted to me for retinal/vitreous detachments and tears and the success rate of laser surgery - I am telling people about many potential complications that are a thousand to ten thousand times less likely to occur.

That is the range I am living in.  I am not complaining about it.  I think it is much more reasonable to have informed patients who understand that taking a medication is not a walk in the park or a miracle cure.  I am concerned that despite my detailed explanations and accompanying literature many people do still not understand it or just ignore it.  On the other hand I have had people with known problems like cardiac problems come back and recite everything I told them about potential cardiac problems and what to watch for.  The side effect that bothers most people is the potential for weight gain, but most of them can be assured that there is a strategy to deal with that problem.  If a medication is effective, people will want to take it even if there are potential problems with it including weight gain and ECG abnormalities.

The measurement technology used in ophthalmology is interesting.  The human retina is unique enough to allow it to be used for biometric identification.  No two retinas are identical and technically even though retinal tears have similar characteristics they are all in a unique biological landscape.

Technology clearly differentiates ophthalmology from psychiatry.  We remain stuck in the 1960s with an obsessive narrative that classifies but probably does not diagnose.  Depending on who you read, phenomenology is there to some degree.  Ophthalmologists done't really need to depend on objective descriptions of symptoms - they can see what the problem it.  I just read an article on a consensus treatment guideline  for depression that adds absolutely nothing to the field beyond what a psychiatrist has learned in residency training in the past 15 years.   At the end of the day we have no retinal scan that we can hand a patient and say: "This is your problem and this is what we did to fix it in about 1 hour."

And that is what we need.



George Dawson, MD, DFAPA


Supplementary:

I could not fit this into the body of the post anywhere but age-related retinal and vitreous diseases seem like a major oversight in medical education to me.  I studied geriatric psychiatry and geriatric medicine and the major focus was on age related causes of blindness that were essentially chronic illnesses.  As far as I can tell age-related acute retinal and vitreous problems are a major epidemic and every physicians should know how to diagnose them and how fast they need to be triaged and referred (fast).


                    

  

Sunday, July 2, 2017

Collaborative Care Just Gets Worse.....






I am a long time opponent to the expansion of the collaborative care model and have explained why in earlier posts on this blog.   At the Minnesota Psychiatric Society (MPS) conference last week, I learned that the collaborative care model had expanded to more than just the treatment of anxiety and depression.  The presenter discussed an expanded model to treating bipolar disorders based on questionnaires based screening for that disorder.  The overriding rationale for this model is that psychiatrists can't possibly see all of the patients with mental illness, therefore a more  hands off approach to care was acceptable.  The presenters were very explicit about the model not involving direct patient care in the primary care clinic.  The concern is the psychiatrist would start to to develop their own practice in the clinic and within several months their schedule would be full and they would have no capacity to see anyone else.  I can say from my experience that a primary care examination room is the wrong setting to do psychiatric consultation.  At the minimum a psychiatrist needs a service where they can take detailed notes.  Scribes are apparently on the rise these days.  I would be be very concerned about the training necessary for a scribe to record the details that I consider to be important and remain in the background during the interview.  I am a purist and believe that another person in the room produces a different interview.

The argument about expanding the collaborative care model fails at the level of the total number of psychiatrists and the total number of people needing care by psychiatrists.  Being medically trained I have always defined those people as having the most severe forms of mental illnesses.  That is the essence of having a defined number of physicians for any population and it works very well for other specialties.  The ones I have written about here include ophthalmology and orthopedic surgery.  Despite having fewer physicians available, both of these specialties cover a much larger spectrum of eye, bone, and joint disease and trauma.  They are seeing a larger number of patients and in many cases performing lengthy operative procedures on these patients.

The collaborative care model has rapidly evolved in the hands of the APA from the Diamond Project of about a decade ago.  The original Diamond Project involved collecting PHQ-9 scores in primary care setting and having case managers remain in touch with patients for supportive counseling and to review the progress of patients based on those scores with psychiatrist.  The psychiatrist recommended medication changes in order to improve treatment of the depression and improved PHQ-9 scores.  The state of Minnesota took this one step further and decided to implement widespread reporting of PHQ-9 scores from all primary care clinics as part of an accountability initiative called Minnesota Community Measurement.   Lacking any scientific or statistical merit did not slow down the politics of the least accountable (politicians) holding the most accountable (physicians ) - even more accountable.  At least one group of experts has come out against the idea of depression screening, because using the current models it eventually equates to more antidepressant exposure.  That has not slowed down health plans in the state of Minnesota or national organizations that essentially represent health plans. So far, I am unaware of any reporting of PHQ-9 changes.  I sent the project an e-mail about 5 years ago pointing out that their statistical approach was meaningless on a longitudinal basis - so it will be interesting to see what they eventually report.      

The course presented was Applying the Integrated Care Approach: Practical Skills for the Consulting Psychiatrist.  It was presented as an official American Psychiatric Association backed course and part of the Transforming Clinical Practice Initiative.  Since I have never heard of this initiative before I just assumed it was another in a series of top down decisions by an organization that I thought was supposed to support its members.  I would include the very unfavorably rated Maintenance of Certification initiative to be another in that series.

I will proceed to the end product to illustrate the general feel of this course for experienced psychiatrists.  Every psychiatrist has had on-call experience.  During those times it is common to be operating in a decision-making environment where there is either inadequate or partially adequate information to make a decision.  An example is being on call and admitting patients by some combination of phone calls or internet network connections or both.  A new patient comes in at 10 PM, it is impossible for the psychiatrist to get up and drive to the hospital to do a comprehensive admission evaluation on each patient, so temporary orders are given over the phone, until the staff psychiatrist can see the patient and refine the process in the morning.  In the uncomplicated process, this is an easy task.  The healthy patient comes in taking fluoxetine 20 mg.  The medication is continued until the next day.  But things can get much more complicated in a hurry.  What happens when you are asked to write the on-call orders for a bulimic patient with depression on bupropion who may be in alcohol and benzodiazepine withdrawal?  Or the patient who has been on escitalopram, using methamphetamine, and is complaining of some symptoms of serotonin syndrome?  What happens when a sixty year old patient comes in taking 10 different medications for hypertension,  diabetes mellitus, and atrial fibrillation?  Medications need to be modified or held and significant additional plans need to be implemented.  These are the kinds of calls that you will be making in the APAs integrated care model.  The only difference is that they will be strictly regarding psychiatric medications, but they will be all of the medications and more than just antidepressants and anxiolytics.  You must be prepared to treat bipolar disorder by proxy on partial information and assume the primary care physician has the skill set to take it from there.

 The screening instrument for bipolar disorder is the CIDI-3 developed by the World Health Organization for lay screening of large populations.  I had absolutely no luck in locating CIDI-3 anywhere on the Internet or the WHO website.  I was able to locate this Harvard site containing containing what appear to be numerous sections of the Comprehensive International Diagnostic Interview (CIDI).  To anyone familiar with structured interviews (DIS, SCID, SADS, etc) it is a the same technology.  The CIDI-3 screen described in the PowerPoint for the course had two stem questions - one for euphoria and one for irritability.  Neither of them matched my stem questions due to a lack of duration criteria and no rule outs for medical or substance use problems.  It is also not clear about how a consulting psychiatrist is going to learn about the pattern of illness from these screens.  The it seems that the precedent set by the PHQ-9 and GAD-7, that a positive screening equals diagnosis - also applies in this case.      

As I thought about all of the work that is involved in the quality treatment of bipolar disorder, I asked myself about whether all of that work and all of the necessary information transfer to the patient and family can be accomplished in a primary care setting.  There is also the idea that a medication cures the problem.  Although bipolar disorder is undoubtedly one of the most biologically based psychiatric disorders, it takes plenty of skill in managing side effects, associated symptoms (especially anxiety and sleep), and additional supportive psychotherapy.  There is also the issue of assessing suicide potential and generally functional capacity including risk for aggression but most importantly the ability to care for oneself.  In psychiatric practice - each of those dimensions amounts to an additional primary care visit.  All things considered, I don't see bipolar disorder or any type being assessed and managed well in primary care settings with a psychiatrist phoning it in.  The lecturer in this case had ample justifications - but to me that is all a reaction to excessive and continued rationing of psychiatric services.

And speaking of rationing - the money was discussed.  First - the psychiatrist in these consultations does not submit any billing.  The primary care clinic submits a collaborative care billing code and then they reimburse the psychiatrist.  At no point in my career as a physician employee have I ever seen an exchange like this occur where an administrative fee was not tacked on - just for the purpose of cutting the check I guess.  Second - there is all sorts of hype about how these arrangements save money in primary care settings.  Since managed care stole the field of medicine 30 years ago - there are ad nauseum articles written about cost-effectiveness.  To me it is just another buzz word for managed care.  There is no reason to expect that treating severe psychiatric disorders should be any more cost-effective than treating severe non-psychiatric medical disorders - in fact, one often leads to the other.  The lecturer in this case was very honest about that.  He pointed out the two studies that claimed costs savings and bluntly said that he doubted that would apply to clinical situations.

All things  considered, collaborative care continues to leave a bitter taste  in my mouth.  It translates to second class care for psychiatric patients based on managed care rhetoric.  The argument can be made that these are not psychiatric patients - but primary care patients who would never see a psychiatrist.  I don't know  if that is really a legitimate argument or not because it comes down to legal and political convention rather than professionalism.  In that case it depends what faction ultimately "wins."  The APA has clearly adopted it and it openly promoting it.  At the end of this course, there was the doubly ironic offer to enroll in an online collaborative care course that would result in both CME credits and also MOC credits for maintenance of certification.

I don't know how covering call suddenly becomes psychiatric innovation.


George Dawson, MD, DFAPA


Reference:

1:  John Kern.  Applying the Integrated Care Approach:  Practical Skills for the Consulting Psychiatrist.  Presented at the 2017 MPS Spring Scientific Meeting; Thursday June 15, 2017 at 1:00-5:00 PM.


Supplementary:

Above image is from National Severe Storms Lab (NSSL) web site and reproduced here per the NOAA intellectual property notice.






Thursday, June 29, 2017

Ophthalmology versus Psychiatry Part 2.




Spoiler Alert: Ophthalmology always wins!

I was driving home last Friday night and for several minutes it seemed like there was a bug in my right eye.  I did the upper lid over lower lid trick a couple of times and that didn't work so I pulled over and tried to rinse it out with artificial tears.  No change at all with that maneuver and then I started to see familiar floaters and small black dots in my visual field but only on the right.  I had the exact same symptoms a year ago that led to a diagnosis of a vitreous detachment with no retinal problems.  Later that night I started to see flashing halos in the upper right visual field.  I got in to see an optometrist through my health plan and was referred immediately to a vitreous and retinal specialist today.  At a about 2PM today, I had a laser surgery procedure to fix a small retinal tear in the periphery of my right retina.

The specialist explained pathophysiology, the rationale and the expected success rate.  There is age-dependent liquefaction of the vitreous humor and in that process it can pull away from the retina.  That process can be benign like it was for me a year ago or it can lead to a "traction-event" on the retina and cause a tear.  The main reason for the laser surgery is to spot weld the tear by forming a photcoagulation scar where the laser hits and prevent a more extensive tear that could require open surgery of the eye and the risk of infection and further vision loss.  The decision for the laser surgery was an easy one, especially because I have known many people who required variations of the open surgery.  I sat in an ophthalmology exam chair with my head in a fixed position.  This video illustrates the exact procedure that I underwent today.  The laser light was green and at the end of the procedure I was completely blind in the eye for about 10 minutes and then transitioned to a violet vision and then back to normal.  This phenomenon is cause by saturation of the photoreceptors by laser light.  The procedure I underwent was much faster with repeated pulses of the laser.  If I had to estimate, I would say about 150-200 pulses of light were used.  The specialist kept me posted: "30% done.... 50% done, etc)" and also coached me on how I was doing focused on the extreme limits of my visual field.    

I had some observations about ophthalmology and orthopedic surgery last year and this year is no different.  First, I am amazed at how many of these vitreous retina specialists exist across the country.  Given my previous estimate of the total number of ophthalmologists and the numbers of people that they treat,  the distribution must be very good across the country.  Their services are certainly in demand.  Retinal and vitreous disease is clearly an age related problem.  There were 15 people in the waiting area and there was one person younger than me.  Most were considerably older and many were there to get injections to slow the progression of macular degeneration.

I am no stranger to ophthalmologists.  When I was in the 8th grade I shot myself in the eye with a BB gun and have had appointments every year to follow up on that injury.  That has also allowed me to follow the way that ophthalmologists practice.  Back in the 1960 to 1980s they did everything.  They started out with visual acuity tests, then visual fields, the intracranial pressure by tonometry and eventually the slit lamp approach.  They did the entire refraction and tried to get the visual acuity as good as possible. They proceeded to the slit lamp exam and at some point started doing retinal exams using hand held lenses and lens in conjunction with the slit lamp.  If an ophthalmologist was really flying and had a patient who was able to  cooperate - it might be possible to get all of this done in 20-25 minutes.

Things have changed drastically since that time.  I was roomed by a medical assistant who recorded the history and  took my vital signs.  In Room 2, I saw another medical assistant who took additional history, cursory social and family history (only eye diseases and diabetes in parents and siblings) and a cursory review of systems (have you had a heart attack or stroke? do you have chest pain today?).  She did visual acuity, visual fields by confrontation, and ocular motility and recorded it in the chart.  She did a slit lamp exam.  She measured intraocular pressure by some kind of digital hand held tonometer that I had never seen before.  She got my eyeglass prescription off the new lenses and did not need to do a refraction.  In Room 3, I was introduced to a scribe who told me that she would be taking notes for the specialist.  She set up twin displays with the EHR spread across.  The specialist walked in and performed indirect ophthalmoscopy by both slit lamp and standing hand held lenses.  He told me that I had a retinal tear and we discussed the surgery.  The scribe reminded him how it needed to be worded in the chart and how she was going to record it.  I electronically signed the consent form.  In Room 4, I saw a person who only did retinal scans with a blue light.  Finally in Room 5, the laser procedure was done.

This was a significant display of efficiency in terms of division of labor with a sole focus on problems related to the eye.  The social history is not that important in this case - they were only interested in marital status, offspring, and occupation.  They were not really interested in a review of systems other than a more detailed review of ocular symptoms - including my history of the BB gun injury.  They efficiently proceeded to laser my torn retina (at about the 45 minutes mark) and if the quoted statistics were correct - greatly reduce the likelihood or a major retinal tear and the need to open surgery or in the very worst case partial or complete blindness.      

Unfortunately in psychiatry we have nothing like this.  I am still doing what I have done for the past 30 years - an obsessive 240 plus point interview that included a detailed history.  My medical history, review of systems, social and family histories are all comprehensive and customized for the situation.  If I want vital signs or some examination - I have to do it myself.  In some clinics I can get checklists - but despite all of the hype about collaborative care or measurement based psychiatry those rating scales are a poor excuse for detailed questions about the problem.  The people who believe they are actually using quantitative metrics to measure care with these scales are fooling themselves.  In order to make up for the stunning lack of efficiency in psychiatric practice we have the workarounds of more and more prescribers - all asking their own questions and making their own diagnoses or we have the collaborative care psychiatrist advising primary care physicians on how to treat their patients based on rating scale scores or the questions of those physicians.

The other limiting factor is the lack of value assigned to the psychiatric evaluation.  I have not seen the bill for laser eye surgery - but I can speculate that it will be many times what I am paid for a comprehensive evaluation in roughly the same period of time that it took to diagnose and repair my retinal tear.  With the division of labor, the ophthalmologist was seeing 7-8 times as many patients in an hour than I can see.

To me that is both the most positive aspect of clinical psychiatry, but also its downfall.  Psychiatry is too complicated to commoditize.  Don't get me wrong - it happens all of the time.  Very few psychiatrists who are not in private practice have the luxury of talking with people for an hour.  That makes patient experiences highly variable.  We have to find a model that takes us out of the 1970s but also provides more clear cut results.  Ophthalmology has clearly been able to do that.  Science and treatment in medicine is better with precise measurement.  There is nothing about rating scales that I would call precise.

With my retina and vitreous problems I have come to another conclusion.  Training in Geriatric Psychiatry is designed to increase sensitivity to ageism and and biases against the elderly.  I have had plenty of that training.  Now that I am technically a geriatric person myself, I can speak with authority -  aging is an inescapable disease.  I hope someday there is a better solution.

But that is a topic for another post.



George Dawson, MD, DFAPA        





















  

Sunday, June 25, 2017

Computational Neuroscience




I had the opportunity to listen to Friday afternoon public radio for the first time in a while this week.  I had settled into that habit a while ago when I used to take two hours off of work to go skating.  As an inpatient psychiatrist, I still had to go back to work to finish so the two hours of skating time just added two hours to my Fridays.  I did have the opportunity to listen to Science Friday with host Ira Flatow.  When I turned it on this week, I noticed his familiar voice.  He was talking with one of the correspondents who talked very briefly about the Blue Brain Project.  The Blue Brain Project is an initiative in Switzerland that investigates the use of mathematical models to look at human brain function - memory in particular.  What they do is generally known as computational neuroscience.  It is a modern day extension of some of the blended neuroscience and artificial intelligence that I mentioned in a recent post.  Their work has major implications for neuroscience, consciousness researchers, and eventually psychiatrists.  I will outline one of their recent papers in order to highlight why it is so important.

One of the major areas of brain science that psychiatry does a very poor job at is the area of human consciousness.  Psychiatry in the clinical form seeks to describe human behaviors that are two standard deviations from the norm across a very finite number of dimensions encompassing mood states, cognition and intellectual ability, and psychotic states.  Psychiatry seeks to classify all of these states with a finite (but changing) number of descriptors and it assumes that human diagnosticians can detect all of these differences based on training in how to use the criteria.  There are very few objective markers.  Most of the objective markers exist for conditions defined by a measurable medical disorder - like bipolar disorder secondary to a closed head injury and ample MRI scan evidence of a brain injury.  The most elaborate psychiatric formulations will contain a discussion of the subjects personality and psychological adaptations.  There is no psychiatric formulation that I am aware of where the unique conscious state of the individual is recognized.  At some level it is implicit that despite billions of unique conscious states, psychiatrists will be able to detect and treat 200+ unique disorders with no objective tests.  I certainly believe that it can be done, because I have been doing it for over 30 years.  But I also believe we are missing a big part of the picture when we avoid discussions about a unique conscious state.         

After finding out more information about the Blue Brain Project, I pulled up a list of their researchers and searched for all of their papers on Medline. A list of my search is available under the Computational Neuroscience link below.  The paper I read and studied is reference 2 below.  After a brief review of previous models they build the case for algebraic topology being uniquely suited to describe both local and more extended networks.  In their work they represent the network as a directed graph.  Neurons are the vertices and synaptic connections ( presynaptic to post synaptic) are the edges.  This network can be analyzed with graph theory and the authors provide a lot of detail about how they proceed with that analysis both in the text of the article and in the Materials and Methods section and Supplementary Material.  Those section also contain clear definitions of the terms used in the text of their article.

I will mention a few aspects of their analysis.  They discuss the method of analyzing nodes that are all-to-all connected as cliques.  If the nodes are neurons total number determines the dimension.  Directed cliques are those in which information flow is unambiguous.  When these directed  cliques bind together and don't form a larger clique they form cavities.  The directed cliques describe the information flow through the network and the cavities are a measure of information flow.

The authors used this model in a digital reconstruction of networks in rat neocortex.  They looked at a microcircuit consisting of ~31,000 neurons and ~8 million connections.  In the simulation they discovered a large number of high dimensional directed cliques and cavities.  Examples are included in the figure below (Figure 2 from Reference 2).  A1 to A3 illustrate the authors observation that unidirected cliques in 4 fully connected neurons.  This is a complicated figure because it also contains an analysis of 42 variants of the digitally reconstructed microconnectome.  The reconstructions were based on cell densities, distribution of cell types, and heights of layers of the neocortex in five different rats.  The reconstructions contained directed simplices of dimension 6 or 7 and very high numbers (up to 80 million of directed 3 simplices).  This was the first evidence for this phenomenon in any neural network.  Figure B below shows a comparison of the average models using the measurements from rat cortex (Bio-M) to control models of five Erdös-Rényi random graphs of equal size (~31,000 vertices), and a model that used the same 3-D modle as Bio-M but that used a random connectivity rule - Peters' Rule.  The number of directed simplices are far greater in the Bio-M circuit.



      

The authors also looked at the experiment in vivo by doing multi-neuron patch clamp experiments in up to 12 neurons in cortical slices of the same age used in the digital reconstruction.  In that comparison (D), the distribution of the simplices in the reconstruction (left) was lower in frequency that the actual tissue (right).

The authors believe that their methods and results represent "a simple powerful, parameter-free, and unambiguous mathematical framework for relating the activity of a neural network to its underlying structure, both locally (in terms of simplices) and globally (in terms of cavities formed by these simplices).  The biological based models had a higher frequency of high-dimensional cliques and cavities compared with the control models illustrating the value of biological complexity in information transfer. The microcircuits investigated were actually isolated cortical circuits and there is likely more complexity due to additional connectivity.      

This paper and this field is very important because it seeks to describe the emergent properties of neurons and networks of neurons.  Emergent properties are those that cannot be explained by basic neuroanatomy and neurophysiology but how the entire system works in real time in the living organism.  The most significant unexplained emergent property is how the human brain generates a unique conscious state. That makes this a very important field for psychiatrists to be focused on.  It might help us make the leap from our current knowledge of neuroanatomy and physiology to much more specific knowledge about the person sitting in front of us who we are trying to help.


George Dawson, MD, DFAPA


References:

1.  Science Friday.  Hr1: News Roundup, Climate and Coffee, Cephalopod Week.  June 23, 2017.

2.  Reimann Michael W., Nolte Max, Scolamiero Martina, Turner Katharine, Perin Rodrigo, Chindemi Giuseppe, DÅ‚otko PaweÅ‚, Levi Ran, Hess Kathryn, Markram Henry.  Cliques of Neurons Bound into Cavities Provide a Missing Link between Structure and Function. Frontiers in Computational Neuroscience 2017; 11: 1- 16. DOI=10.3389/fncom.2017.00048
http://journal.frontiersin.org/article/10.3389/fncom.2017.00048   

 3.  Computational Neuroscience references from associates of Blue Brain Project.


Attribution:

The above figure is used from reference 2 per their open access Creative Commons BY license.  No changes were made to the original figure.


Supplementary:

This post also illustrates the importance of looking up the original research.  If you listen to the description from Science Friday, I don't think it is a very accurate description of this research or how the researchers were using the term dimension.