Sunday, November 8, 2015

Desvenlafaxine (Pristiq)

Desvenlafaxine (Pristiq) is an antidepressant that has been available since 2008-2009.  It is another example, similar to escitalopram, of a new drug being marketed which is simply a chemical "tweak" of another very similar drug.  Pristiq is an active metabolite of another common antidepressant, venlafaxine (Effexor).  Effexor had been on the market since 1993.

Being new, many studies were done, usually comparing it with placebo, showing that it works.  Yet, very few studies were done comparing it with other antidepressants.

Laoutidis and Kioulos (2015) have recently published a review and meta-analysis of desvenlafaxine.   http://www.ncbi.nlm.nih.gov/pubmed/26205685
They found that while it clearly works better than placebo in short-term trials, it is significantly inferior to other agents in comparative studies (i.e. those studies in which desvenlafaxine is compared with a different antidepressant prospectively).

In a 2014 study by Maity et al., desvenlafaxine and escitalopram were found to be equally effective (actually with a non-statistically-significant" edge favouring escitalopram) for anxious depression.  But in this study, it caused more side-effects than escitalopram.  http://www.ncbi.nlm.nih.gov/pubmed/25097285

Soares et al (2010) similarly showed no advantage to using Pristiq instead of Cipralex for treating depression in post-menopausal women.  Once again, Cipralex had a non-statistically-significant advantage in effectiveness over Pristiq. http://www.ncbi.nlm.nih.gov/pubmed/20539246

(to be clear about what I mean by "non-significant," it is important to know that all statistical findings are probability statements.  "Significant" usually refers to a finding which has a less than 5% chance of being due to random variation alone.    For many findings, one measure might exceed another, but with a higher than 5%  likelihood of the difference being due to chance.  It should be considered, though, that from a Bayesian point of view, if you have results which differ, even at a so-called "non-significant" level of confidence, this finding still increases the likelihood somewhat that there is a significant difference.  For example, if we toss a coin 10 times, and find that we get 7 heads (instead of the expected 5), we know that there is 17% chance of getting 7 or more out of 10 heads from a fairly balanced coin.  Thus this would be "non-significant" with respect to showing that the coin was not fairly balanced.  But even so, if one indeed did see 7 heads in 10 tosses, it should increase one's suspicion (in a quantifiable way) that the coin is actually imbalanced.  Thus, one should not entirely dismiss "non-significant" results, they should optimally be considered in a large fund of data about an issue, each part of which should reasonably sway our judgment slightly)

In this interesting study by Liebowitz et al (2013)
( http://www.ncbi.nlm.nih.gov/pubmed/23517291 ), Pristiq was offered at two different doses (10 mg and 50 mg), compared with placebo, for treating depression.  Both doses were superior to placebo, but were equally effective to each other!   Yet, the "recommended dose" is 50 mg.  Pristiq is only available in 50 mg and 100 mg tablets!  

Pristiq costs about $3.00 per 50 mg pill.  A similar drug, Effexor XR, costs $0.75 for a similar dose.  Celexa at an equivalent dose costs $0.27, according to Pharmacy Compass (http://www.pharmacycompass.ca/).

So I do not see any reason to recommend Pristiq, except as one of a list of alternatives to try after other options have been tried.  There is no reason to expect that it would work better than any other antidepressant, unless a particular person just happens to prefer it (as is sometimes the case).  There is evidence to suggest that it has more side effects than alternatives.  I do not necessarily think it is a bad drug though:  I'm sure that there are some who might try it, and find it very helpful after exploring other options.  But based on current evidence it should not be included as a first-line agent. 




Escitalopam vs. Citalopram (Cipralex or Lexapro vs. Celexa)


It is interesting how professional opinion can be swayed by trends in practice.   Escitalopram (Cipralex, or Lexapro) is a newer antidepressant than citalopram (Celexa).   In fact, citalopram itself is a mixture of "enantiomers," which are molecules that are identical to each other except for being mirror-images of each other geometrically.  In many chemical processes, different enantiomers are formed in fairly equal amounts, as a mixture.   But escitalopram, unlike citalopram, consists of just one of these entantiomers, rather than being a mixture.   Citalopram is literally a mixture of escitalopram with an inactive enantiomer.  Therefore, you literally are taking escitalopram when you are taking citalopram.  You are also taking the inactive enantiomer of escitalopram. 

Here we have it again, that escitalopram has more recently been on patent, while citalopram has been available in a generic form for a longer time.  Of course, there would be many more industry-sponsored research studies done recently on escitalopram. 

There's no doubt about it, that escitalopram can be a good antidepressant.  But many professionals (including in one formal instructive report I recently read), assert that escitalopram is clearly "better" than citalopram.

I think this belief is mainly due to cognitive biases.   There has been much more marketing favouring escitalopram in the past decade.  The trends in practice among psychiatrists tend to favour the personal belief that "escitalopram is better."  Because it is used more often these days than citalopram, any positive report about escitalopram is likely to be more salient.  Also, with recurrent trials of antidepressants, any switch to almost any new agent has a reasonable probability of leading to some improvement, irrespective of the properties of the new agent.  For many people, a given antidepressant does not work well enough.  In this cohort, it is much more likely that a given person would have tried citalopram at some point in the past, and would now be looking at trying escitalopram.  There might be about a 30% chance of the escitalopram helping in this scenario.  For the thousands of people in this group, there would then be hundreds who would have the experience of escitalopram appearing to work better than citalopram.   This feeds the notion that escitalopram is in fact a better antidepressant.

The bias here is that very few people in this cohort would have tried escitalopram first, then tried citalopram later on.   This is because escitalopram is newer, more highly marketed, and is more likely to be used when other antidepressants have not worked.   But the prevailing evidence is that most any new antidepressant (or other therapy) trial has a similar chance of helping, when a previous trial has not helped.  Therefore, I predict that there would be an equal likelihood of citalopram working when escitalopram failed, compared to escitalopram working when citalopram failed.  It is possible that the only reason escitalopram appears to work more commonly is that it is simply used more often!

Some of my patients, over the years, have tried both of these medications.  Some have ended up preferring escitalopram.   Others have ended up preferring citalopram.  For most, there has been no difference, either in side effects or effectiveness. 

Are there any recent research studies which compare the two?  One recent study, by Li et al (2014), reviews and pools results from 3 previous clinical studies.  They conclude that there is no difference in response or remission rates between escitalopram and citalopram:
http://www.ncbi.nlm.nih.gov/pubmed/25401715


It is interesting to look at the data from previous studies, including a Cochrane review done in 2012, which conclude that escitalopram is better than citalopram: http://www.ncbi.nlm.nih.gov/pubmed/22786497   The authors slip in the caution that "As with most systematic reviews in psychopharmacology, the potential for overestimation of treatment effect due to sponsorship bias and publication bias should be borne in mind when interpreting review findings."  Yet the reader of this article is left with the impression that escitalopram is much better than citalopram.  

I note that escitalopram is about 30% more expensive than an equivalent dose of citalopram, according to PharmacyCompass, a Canadian service which helps people find the best local prices for medications at local pharmacies.   

In conclusion, I think that with respect to antidepressant choice, there is no doubt that escitalopram is appropriate and works at least as well as other available medications.  But it is not necessarily true that escitalopram is "better."  The problem with this biased view of "betterness" is that it could cause a person (a psychiatrist or patient) to overlook other options, and favour escitalopram as a first choice automatically, and unnecessarily.  It could also cause many to overlook citalopram as a possibility for someone who has unsuccessfully tried escitalopram in the past.







Monday, April 27, 2015

Marijuana

Here's another update of this post, to account for studies between 2009 and 2015.

Marijuana use is quite common in the university population I see in my clinic.

It is my opinion that sporadic recreational marijuana use is less dangerous than alcohol use, for many people.  For others, it is more problematic, and the risks may be underestimated. 

Cannabis is an acute intoxicant, which could make activities such as driving much more dangerous. Also, smoking marijuana undoubtedly causes harm to the lungs, though probably not quite to the same degree as smoking tobacco cigarettes (see references below).

There is strong evidence that marijuana use increases the risk of developing a psychotic disorder, probably by about 40%.

People who have a psychotic illness, or who have a family history of psychotic illnesses, are at higher risk for having new or continuing psychotic symptoms if they use marijuana.

Also, based on some of the evidence cited below,  children and adolescents are probably much more vulnerable to negative, long-term emotional and cognitive effects from marijuana use. 

Many regular consumers of cannabis have problems with motivation. This may be reflected in poor grades in school, lack of success in building a career, etc.  This is possibly a non-causal association, but if someone has low motivation to begin with, the addition of cannabis is not likely to help.

There may be some selected exceptions.  For example, some have claimed that a culture of cannabis use has had a catalytic role in helping reclusive technical geniuses relax their social and creative inhibitions, to permit some examples of very successful scientific and business innovation, such as in Silicon Valley.

There is strong evidence that marijuana use is associated with more severe psychiatric symptoms, of almost every type; but much of this association could be due to the fact that those with more severe symptoms are more likely to use marijuana, not the other way around. In any case, those who choose to use marijuana more regularly as a cultural pursuit may be surrounding themselves with others who have more severe symptoms.   This is similar to the case  of alcohol:  part of the harmful effect of drinking heavily is due to proximity to places (such as rough bars) where there are a lot of other heavy drinkers -- in this environment, there is likely to be more physical danger, and much less breadth of social or cultural opportunity.  Ironically, decriminalization should probably reduce this effect, and therefore reduce some of the potential social harms.

There is some evidence that marijuana or other cannabinoids could be helpful to treat a variety of medical ailments. This evidence needs to be taken seriously.

Here is a brief survey of the very large literature on this subject:

Evidence of Risk and Harm

     Psychiatric Risks

This 2007 review from Lancet shows convincing evidence that marijuana use increases the risk of developing a psychotic disorder, and that the risk is dose-dependent (i.e. the more marijuana one uses, the higher the risk is of developing a psychotic disorder):
http://www.ncbi.nlm.nih.gov/pubmed/17662880

It concluded that the evidence is less clear linking marijuana to other problems, such as depression and anxiety: many of the studies looking at this did not sufficiently address non-causal reasons for the association between marijuana and other problems. For example, people who are more depressed or anxious may have a higher likelihood of using marijuana to treat their symptoms. Or, people whose cultural style may lead them away from conventional treatments for depression, may be more likely to use marijuana regularly.    Use of psychotherapy and antidepressants are also more common among those with depression, but this does not prove that psychotherapy and antidepressants cause depression! 

In this 2008 review from the British Journal of Psychiatry, the authors conclude that marijuana use is associated with worse outcome in psychotic disorders--but they say that the existing studies show only an association, not causality. Once again, confounding variables may cause this association to exist:
http://www.ncbi.nlm.nih.gov/pubmed/18978312


A significant cannabis withdrawal syndrome is described in the literature, particularly for heavy, long-term users. The syndrome involves about 2 weeks of irritability, restlessness, and insomnia, which could be quite destabilizing for someone struggling with mood symptoms, therefore leading to continued marijuana/cannabis use. Here is a 2006 review of the subject:
http://www.ncbi.nlm.nih.gov/pubmed/16612207

A few recent prospective studies have demonstrated increased dysphoria, anxiety, tiredness, ideas of reference, and schizotypal symptoms as a result of marijuana intoxication. In particular, individuals with pre-existing schizotypal personality traits had a more substantial increase in schizotypal symptoms following THC exposure. This adds to an evidence base suggesting that marijuana use carries a significant risk of exacerbating a variety of psychiatric symptoms, particularly psychosis-spectrum symptoms, and particularly in those with risk factors for psychotic illness.
Here are the references, which are both from Psychological Medicine in 2009:
http://www.ncbi.nlm.nih.gov/pubmed/19017430
http://www.ncbi.nlm.nih.gov/pubmed/19335936

This interesting study involved administration of THC to healthy volunteers who did not use THC.  Some members of the cohort experienced transient psychotic phenomena, while others did not.  These differences were associated with differences in cognitive impairment and functional MRI results. This supports the common-sensical observation that some individuals may be more vulnerable than others, to having adverse neuropsychiatric effects from THC use.  
http://www.ncbi.nlm.nih.gov/pubmed/23020923


Many other studies looked at populations who used different amounts of marijuana over time, and compared them in terms of various symptoms and intellectual functions, etc. Unfortunately, I find this type of retrospective analysis to be weak, and highly prone to confounding variables. In order to understand marijuana's long-term effects for sure, we would need to do a long-term, prospective, randomized, controlled study.

     Physical Risks

Here are some studies looking at risk to the lungs associated with marijuana smoking:

These studies show an increased risk of lung cancer in marijuana smokers:
http://www.ncbi.nlm.nih.gov/pubmed/19057263
http://www.ncbi.nlm.nih.gov/pubmed/18238947

These studies show a likely causal association between long-term marijuana smoking and obstructive lung disease:
http://www.ncbi.nlm.nih.gov/pubmed/18238947

http://www.ncbi.nlm.nih.gov/pubmed/17666437

     Prospective Animal Studies

Animal studies could add a little bit more information into the picture, since these have been done in a prospective, controlled fashion. Here is what I've found from the animal research literature:

This study showed that chronic marijuana exposure impairs spatial memory & learning in rats:
http://www.ncbi.nlm.nih.gov/pubmed/19179850

This study showed that chronic marijuana exposure impairs social and cognitive functions in rats, but especially when the period of exposure is during the pubertal ("adolescent") phase of development:
http://www.ncbi.nlm.nih.gov/pubmed/18782382

Another study showing that marijuana exposure may be particularly harmful to the "adolescent" brain in rats:
http://www.ncbi.nlm.nih.gov/pubmed/15582916

This study from UBC suggests that high-dose cannabinoids increase emotionality and "sensitize the stress axis" in rats:
http://www.ncbi.nlm.nih.gov/pubmed/16442741



Evidence of Benefits or Therapeutic Uses

This study shows that a synthetic cannabinoid promotes neurogenesis in the hippocampus, and may have antidepressant and anxiolytic effects:
http://www.ncbi.nlm.nih.gov/pubmed/16224541

Here is a reference to a good 2008 review of the pharmacology and potential therapeutic applications of cannabinoids such as marijuana:
http://www.ncbi.nlm.nih.gov/pubmed/18482430


     Neurological Diseases


Here's a 2012 study showing relief in muscle stiffness in multiple sclerosis patients, due to cannabis administration:
http://www.ncbi.nlm.nih.gov/pubmed/22791906

Another 2012 study from CMAJ showing relief of spasticity and pain in MS patients, following cannabis administration:
http://www.ncbi.nlm.nih.gov/pubmed/22586334


This study shows immediate relief of the symptoms of Parkinson's Disease following cannabis treatment: 

http://www.ncbi.nlm.nih.gov/pubmed/24614667

     Bowel Disease

This study, from a major journal of gastroenterology, shows that cannabis dramatically improved symptoms  of Crohn's disease (a type of inflammatory bowel disease), in a prospective, placebo-controlled trial.  
http://www.ncbi.nlm.nih.gov/pubmed/23648372

Another prospective study, showing that cannabis improves quality of life in inflammatory bowel disease:
http://www.ncbi.nlm.nih.gov/pubmed/22095142

     Pain Disorders


Here's a good 2013 study showing that cannabis compares favorably with other standard pharmacological treatments for neuropathic pain:
http://www.ncbi.nlm.nih.gov/pubmed/23237736

     Heart Disease

This 2005 study from the prestigious journal Nature suggests that cannabinoids could reduce the progression of atherosclerosis (the main cause of heart disease):
http://www.ncbi.nlm.nih.gov/pubmed/15815632
 
Conclusions

In conclusion, I think that marijuana use is dangerous, and harmful to your health in a variety of ways, due to acute intoxication, increased risk of psychosis, possible cognitive side-effects, and lung damage. It may be particularly harmful to adolescents. As a cultural pursuit, it may distract people from other life activities, or meaningful life roles, just as any habit or addictive behaviour can. But it may have beneficial effects for a variety of medical problems.

I have to admit, to be fair, that some people have psychological benefits from marijuana use -- certainly there are many testimonial accounts of this, but evidence beyond this is not clear on this point.  The few studies touting this application tend to be of short-duration, which leads to a similar criticism as that pertaining to mainstream pharmaceuticals:  short-term benefits for symptom relief do not always translate into long-term benefits, if the use continues for years.   More research is needed to gain a better understanding of the potential risks or benefits of cannabinoids, especially over longer-term use.

I have certainly seen people for whom cannabis appears to have a better benefit:risk profile than alternative treatments, for example to treat chronic pain symptoms and associated insomnia.    It may be preferable to use cannabis instead of a benzodiazepine, opiate, pregabalin, etc., particularly if these latter agents are causing a much higher load of side effects in a given person.

For some people, cannabis could be a relatively harmless entertainment, or even a catalyst for enjoying life more richly in various settings.  In this way, it could be analogous to having a glass of wine with meals, etc.

Another angle to the analysis is to consider relative risks of cannabis compared to other accepted intoxicants, such as alcohol.  With this type of risk analysis, one could often see greater risks with alcohol compared to cannabis, on a case-by-case basis, but we don't have good group data on this.  Suppose we had two adjacent similar countries, and prospectively allowed free access to alcohol in one country, and free access to cannabis in the other.  Then, suppose we were to assess health outcomes in these countries 20 years later.  I suspect we would have more examples of ruined families, criminal assaults or manslaughter, chronic diseases, and traffic fatalities, in the "alcohol" country compared to the "cannabis" country. 

The issue is complicated by the fact that those who are more apt to use cannabis are statistically also more apt to use alcohol and other street drugs.  It is possible that cannabis use could have "gateway" effects, leading people into a higher-probability zone of trying or using more dangerous drugs. But this is an open question. 

A proliferation of cannabis dispensaries have appeared in Vancouver in the past year.  While I do think that legalization is a positive step, in terms of the various pros and cons for public health,  I am not happy with the idea being touted by some, that cannabis is some kind of health food, or panacea.   There is an issue of cultural freedom as well, which I support, though I think that many in this "4-20" movement have an exaggerated view of the benefits of cannabis, with an underestimation of risks.


 

Tuesday, January 6, 2015

CBT as a mental workout strategy

Many studies have shown that CBT is effective for treating depression and anxiety disorders.  The studies are convincing, and the effect sizes have been large, usually comparable to medication treatments.

CBT studies are also usually well-designed.  The therapy itself is very clear.  While some complain that a "manualized" therapy is too mechanical or detached, it is true that a very standardized therapy approach allows a much more reliable scientific study.  A less structured therapeutic style would be expected to show much more variability between one therapist and the next, or between one patient and the next.  This fact does not mean that standardized, manualized therapies are superior to less structured types, but it does mean that the standardized varieties give more meaningful research results showing without any doubt whether a psychological therapy works or not.

I believe that CBT is a type of "fitness training" focusing on psychological symptoms and goals.  The CBT therapist is an educator and coach.  Actual CBT sessions are analogous to having a workout with a personal trainer.

Just as with the literal situation of seeing a personal trainer, perhaps two or three times a week for 6 weeks, one could have a lot of fitness gains from the sessions alone. 

But most fitness gains--especially for skill-related activities such as learning tennis, skiing, skating, dance, or bowling--happen as a result of the hours of dedicated, earnest daily practice.  These practice hours would take place between training sessions with the coach!

Similarly, there is some improvement in symptoms due to CBT sessions alone.  But most of the gains, in my opinion, will occur as a result of focused daily practice and homework between the sessions.

Most CBT research does not clearly indicate the number of hours of practice the patients have done, and do not have any measure of the quality of the practice done.  Just as with children doing homework activities, it matters how much time is spent, but it matters even more how good the quality is.  Was the work done in a sloppy, bored, rushed, haphazard manner, or was there evidence that the work was done with care, attention, organization, and devotion?

Similarly, very little behavioural therapy research has looked specifically at exactly how long an exposure task needs to be in order to produce an optimal effect.

In my own look at these topics, I have reached the following conclusions:

1) Daily homework of high quality is necessary for CBT to work best.  This is no different from getting good results in a university class, or following music lessons.

2) Exposure tasks (which I believe are an essential part of all CBT) need to last 20 minutes in order to be most effective.  Many clinics advise 45-90 minutes at a time.  The difficulty of the exposure task has to be adjusted so that it is moderately challenging (not too easy, and not overwhelming), with some feeling of mastery when it is over.  Just as with physical workouts, at least 3-5 exposure tasks per week should be a goal.


Wednesday, December 31, 2014

Internet Addiction

Most of us can understand the phenomenon of "internet addiction."    We can easily end up spending too much time on the internet, or on other electronic gadgets.  An interesting documentary called "Web Junkie," which is set in Shanghai, is a good introduction to the subject.  This documentary also illustrates some interesting elements of therapeutic care in China:  on the one hand, there is sort of an authoritarian, militaristic boot-camp style (epitomized by the doctor who runs the clinic).  Yet on other hand, there are some calm, gentle, patient, quiet therapists shown (such as the one female doctor). 

A recent meta-analysis by Cheng and Lee (*) showed that rates of internet addiction in different countries ranged between 2% and 10%.  Interestingly, rates were lower in countries with a higher quality of life, such as in Western Europe, and rates were much higher in countries with lower quality of life. 

Restriction of children's internet use by parents is associated with lower risks of internet addiction (**).    Low satisfaction with family relationships is a strong risk factor. (***).

Children with ADHD are at particularly high risk for internet addiction, with a strong association between addiction scale scores and ADHD severity scores. (****).  Depression, anxiety, and introversion are also risk factors.    Internet addiction is further associated with other addictive problems, including alcohol dependence and smoking. 

Another study looked at a rating scale called the IMQ-A,****** which assesses motives for using the internet.  The scale is based on the DMQ-R , which looks at a person's motives for drinking.   The highest risk for addiction is for those who are using the internet as a coping device (e.g. "to forget your worries"), while using it for social reasons or for education is less risky.


Management:
A recent review by Spada (******) suggests that the treatments thus far are quite straightforward:
 1) management of anxiety, depression, and ADHD symptoms
2) addressing family relationships if necessary
3) simply keeping track of internet use, and limiting it strictly
4) medication trials including antidepressants or stimulants if indicated.  Naltrexone 150 mg/d plus sertraline 100 mg/d was used effectively in one case. (*******).

I would add that basic lifestyle habits, including daily exercise, healthy diet, and a deliberate daily activity schedule (including social visits, work, and leisure), are essential, particularly since compulsive internet use leads to a lot of time spent alone in a sedentary posture. Postures in front of a device are also usually slumped, in a head-forward position, looking downwards.  Aside from physical health problems, this type of posture probably has negative psychological effects.  Standing and walking around regularly, with simple posture exercises, stretching in an extension position, etc. are bound to be useful.  Amy Cuddy's work on posture would be worth checking out--a good place to start would be her TED lectures. 

A few other points:
1) a bright screen should not be used near bedtime, since it will interfere with melatonin secretion, and cause sleep disruption.   An alternative for bedtime reading can be to use a device in which the font is reversed, with dim white letters on a black background. 
2) ironically, the internet can also be a valuable aid to treating psychological symptoms.  Web-based CBT can be nearly as effective as seeing a one-on-one counselor for some problems, and at the very least could be a valuable adjunct.   But the problems lie with spending too much time on-line, such that other aspects of life suffer.    Reward circuits in the brain may be fired up by numerous internet activities, in an exaggerated way, causing a distortion of judgment about the merits of continuing the activity.