Study: Opiate drugs increase vulnerability to stress

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A new study has found that opiate drugs such as morphine leave animals more vulnerable to stress. This means that stress and opiates are in a vicious cycle: Not only does stress trigger drug use, but in return the drug leaves animals more vulnerable to stress. The study, conducted at the University of New South Wales, helps to explain why people who use opiates such as heroin have very high rates of anxiety problems, including post-traumatic stress disorder, even after they stop using. That emotional fragility can also make them more likely to start using again.

The study appears in the current issue of the journal Behavioral Neuroscience, which is published by the American Psychological Association (APA). Understanding how opiate users respond to and cope with stress may lead to better treatment and help prevent relapses. Co-author Gavan McNally, PhD, notes that heroin is the most commonly used illicit opiate, followed perhaps by morphine. In medical settings, pethidine, fentanyl, morphine and codeine are typically used.

McNally and his colleagues conducted four experiments with rats, injecting them with either morphine or saline solution every day for 10 days. Then, either one or seven days after the final injection, they gently restrained each rat for 30 minutes as a form of stress.

The team then measured the rats’ biological responses to the restraint stress. They also studied behaviors that reflect anxiety, checking the rats’ levels of social interaction and general activity. The researchers tested anxiety responses for three different dose levels and different durations of exposure (0, 1, 5 or 10 days).

In the absence of stress, the opiate-treated rats were exactly the same as the control rats. Only when the animals were exposed to a stressor were there marked differences in nervous-system and behavioral responses. For example, in terms of anxiety, the impact of stress was twice as great for the morphine-treated rats as for the saline-treated rats. Whereas stress reduced social interaction by about 31 percent in the saline-treated animals, it reduced social interaction by 68 percent in the morphine-treated animals.

Thus, exposure to morphine left those rats significantly more anxious in response to stress. This effect was sensitive to both dose and duration: The longer the duration or the higher the dose of morphine, the greater the difference in anxiety between morphine- and saline-treated rats.

The authors say this is the first important evidence that opiate use increases subsequent vulnerability to stress – a tough knot to untie given that stress leads to drug use. The results also were first to show that the vulnerability could last at least a week, evidence that the altered response was independent of any recent effect of the opiate or of opiate withdrawal.

McNally points out that brief exposure to opiates, of five or fewer days, was not enough to change vulnerability to stress. He says, “It appears the development of opiate dependence is the critical variable, and there are marked individual differences in humans in the development of dependence. A few days of codeine to relieve post-operative pain are unlikely to lead to the development of dependence.”

Because rodent nervous systems are so like ours, animal models allow neuroscientists to study the behavioral and brain mechanisms for drug addiction. McNally says, “Our goal is the translation of these findings in the clinical domain. Our data suggest that implementing treatments that are designed to reduce vulnerability to stress – such as cognitive-behavioral therapy, pharmacological approaches, or both – in opiate addicts may be therapeutically useful.”

As for why opiate exposure raises vulnerability to stress, the authors speculate that opiates may, by altering the expression of specific anxiety-related genes, prime the nervous system in a lasting way to be more vulnerable to stress. McNally notes the paradox that drugs used to escape from stress instead may heighten its impact.

Article: “Increased Vulnerability to Stress Following Opiate Exposures: Behavioral and Autonomic Correlates;” Kate E. Blatchford, BPsychol, Keri Diamond, BPsychol, Frederick Westbrook, DPhil, and Gavan P. McNally, PhD; University of New South Wales; Behavioral Neuroscience, Vol. 119, No. 4.

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Opiate Drugs Increase Vulnerability to Stress
Newswise
29 August 2005

http://www.newswise.com/articles/view/514000/
 
This reminds me of the studies they did to show that rats would self administer drugs. Of course, they neglect to mention that they chained the rats to a chair the entire time. When they let the rats roam free, they did drugs occasionally, and went about their normal business much like the other rats did.

Thinking about this in the context of...does a rat that was double traumatized by forced drugging and forced restraint suffer more than a rat that was only traumatized by forced restraint?
 
^^ Injection of saline into the control group is intended to replicate the 'trauma' or any other effect that injection has on the rats, without including the actual effect of the drug itself. Hence, differences in behaviour between the groups can be attributed to the drug, because all other treatment and conditions have been replicated.

So no rats were 'only traumatized' by forced restraint because both underwent injection, they were just administered different substances.
 
Heh. So...rats in opiate withdrawal get more stressed out.

Not exactly a revolutionary discovery.
 
This is god's idea of a sick joke. People get stressed, so they use opiates, which in turn act as a stress amplifier when they wear off. Then again, stimulants can reduce self confidence when they wear off (and several other drugs have the same, opposite effect when they wear off), so it shouldn't come as that much of a surprise.
 
Rats develop dependance upon morphine much quicker than humans... 10 days is enough for them to be in withdrawal during abstenance. So what this article says is intuitively obvious, rats in withdrawal show physiological changes (hyperthermia etc...) while being restrained.

I know I've said this before, but it would be best for whomever posts an article ABOUT a scientific study to make an effort to find the original research paper, so we don't have to read the results of the study filtered through the words of an uninformed, potentially biased journalist. There is no need to accept 2nd hand information when the first-hand is easily available for free:

http://www.apa.org/releases/BlatchfordEtal.pdf

In the future, if somebody wants to look up the original source of an article cited in a newspaper, its best to find the name of the journal and search google for it, then see if they provide a free online version of the most recent journal, then find the article. If a journalist doesn't cite the original article and journal, odds are he's just making shit up.
 
TheDEA.org said:
Heh. So...rats in opiate withdrawal get more stressed out.

Not exactly a revolutionary discovery.
Click to expand...

The results also were first to show that the vulnerability could last at least a week, evidence that the altered response was independent of any recent effect of the opiate or of opiate withdrawal.
Click to expand...
 
The results also were first to show that the vulnerability could last at least a week, evidence that the altered response was independent of any recent effect of the opiate or of opiate withdrawal.


Morphine withdrawl can last up to a week (in humans).. so it seems like this study shows that withdrawl causes more stress. who'd have thunk it ;)

Morphine withdrawal symptoms reach peak intensity in 36 to 72 hours. Without treatment, withdrawal symptoms runs their course in 5 to 7 days
 
Rats probaly go through PAWS (post-acute-withdrawl-symptoms) too, and god knows how long those can last (alot longer than a damn week). Just because the rat isn't going through acute withdrawls, (even though a week most likely will leave them in the tail-end of an acute withdrawl) doesn't mean it's independant of the withdrawls.

I'd have higher levels of stress too if I just went through a period of shaking, nausea, dirahea, sweats, etc, etc, and then some guy held me down for half an hour with a bunch of electrodes and monitors hooked up to me.
 
Even in rats, it will take weeks for the brain to recover after heavy drug exposure. The period of a few days that people traditionally think of as the 'withdrawal period' is just when the symptoms are at their most severe.
 
And don't forget, these rats have very stressfull lives.

Running on those little metal wheels and such. And that little ball point water bottle thingy. FUCK that shit would totally stress me out. I think if I would a rat that would drive me to start taking morphine
 
^related article

perhaps the increased stress isnt physiological, but due to a psychological craving to return to the feeling of morphine? i dont see how this experiment proves much
 
Why didn't they stress the rats when they were under the morphine intoxication? I mean sure, while going through withdrawals, they are more vulnerable to stress. Duh. But what about when they are high? I wonder if they had tested the rats vs. controls on day one of the morphine intoxication if the morphine intoxicated rats would have been less vulnerable to stressful situations than the controls. If its true we could make the title say: "Study: Opiate drugs decrease vulnerability to stress". ;)
 
pre trans fallacy....all humans rely on opioids minute to minute to facilitate awareness. read up on the subject in the book "zen and the brain" by James H Austin. opioids play a prolific and often contradictory roles in mammalian pharmacology, so I will take this study with a grain of salt (or a grain of morphine). while morphine may create a raised plateau of stress, another peptide may relieve stress, another facilitates serial mathematical learning and cross-stimulation dopamine release...while another inhibits awareness......
the opioid receptors in large are some of the latest neurons to be discovered and understood....we are truly in the infancy of learning about opioids and their complex action in the body.
some opioids seem to be immune enhancers, others might find use for treating leukemia as they inhibit immune response.

morphine and beta endorphin are known for their support of serial learning and reflex and reaction times....morphine actually releases dopamine in the limbic system, so while I am sure that stress is one side-effect of a raised platform of performance due to opioid agonist action there are MANY beneficial effects that opioids enforce.
thanks for this great bit of information
 
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