Showing posts with label NIDA research. Show all posts
Showing posts with label NIDA research. Show all posts

Wednesday, December 16, 2009

Q & A with Nora Volkow


NIDA director discusses cannabis, addiction vaccines, and gambling
.

Recently, Addiction Inbox was offered the opportunity to submit questions to Nora Volkow, the director of the National Institute on Drug Abuse (NIDA). Dr. Volkow was kind enough to provide detailed answers by email. In her responses, she reveals a broad clinical understanding of addiction, and speculates on what this brain disorder might mean for “other diseases of addiction” like gambling.

Q: Clinical studies, like those by Barbara Mason at Scripps Institute, have documented a marijuana withdrawal syndrome among a minority of users. Are we prepared to say that marijuana is addictive? Why didn't we identify this syndrome years ago?

Nora Volkow: Absolutely, there is no doubt that some users can become addicted to marijuana. In fact, well over half of the close to 7 million Americans classified with dependence or abuse of an illicit drug are dependent on or abuse marijuana. It is important to clarify that while withdrawal is one of the criteria used to diagnose an addiction (which also includes compulsive use in spite of known adverse consequences), it is possible for an individual to suffer withdrawal symptoms without he or she being addicted to an abused substance.

Now, to answer your specific question, the reason for the relatively late realization that people who abuse marijuana can develop a cannabis withdrawal syndrome (CWS) if they try to quit is probably the result of at least two factors. First is the fact (which you hint at already) that a clinically relevant cannabis withdrawal syndrome may only be expected in a subgroup of cannabis-dependent patients. This may be partially explained by marijuana’s uptake into and slow release from fat cells, which can occur over days or weeks after last use. Thus, cessation of marijuana use may not be so abrupt, and could thereby diminish signs of withdrawal. The second factor relates to the small to negligible associations between recalled and prospectively assessed withdrawal symptoms, which may have precluded many previous, recall-based studies from detecting or properly characterizing CWS. It is also worth pointing out that other addictions (e.g., cocaine) were also not initially thought of as capable of triggering withdrawal symptoms.”

Q: Are there any anti-craving medications you are particularly excited about at this time?

Volkow: In the context of nicotine addiction, we have a host of nicotine replacement options as well as 2 medications that work through different mechanisms—all of which reduce craving and the risk of relapse during a cessation attempt, particularly when combined with some form of behavioral therapy. However, sustained abstinence from nicotine has been difficult to achieve, even with the current therapeutics that are available. So, at this point, I am very excited about a novel approach to the treatment of addiction—an approach that relies on vaccine development. Currently there are anti-nicotine vaccines in clinical testing, which are designed to capture the nicotine molecules while still in the bloodstream, thus blocking their entry in to the brain and inhibiting their behavioral effects. And while these vaccines were not intended specifically to reduce cravings, they appear to be effective in helping subjects who develop a high antibody response sustain abstinence over long periods of time. Even those people with a less robust antibody response to the vaccine, decreased their tobacco use. So this approach appears very promising.

Similarly, in the context of opiate addiction, we are very excited about the cumulative positive results of the clinical experience so far with buprenorphine, a long-acting partial agonist that acts on the same receptors as heroin and morphine, relieving drug cravings without producing the same intense "high" or dangerous side effects.

Q: You have suggested in the past that certain forms of overeating are addictions. There is good evidence for this. What about non-substance addictions, like gambling?

Volkow
: The brain is composed of a finite number of circuits, for, for example, rewarding desirable experiences, remembering and learning about salient features and stimuli in the environment, developing emotional connections to other members of the social group, becoming aware of changes in interoceptive (internal) physiological states, etc. These and a few others are the circuits that the “world” acts upon. So it is almost by necessity that we’ll find significant overlaps in the circuits that mediate various forms of compulsive behaviors. We have yet to work out the details and the all important differences, but it stands to reason that there will be many manifestations of what we can call diseases of addiction. Thus, addiction to sex, gambling, alcohol, illicit drugs, shopping, video games, etc. all result from some degree of dysfunction in the ability of the brain to properly process what is salient, accurately predict and value reward, and inhibit emotional reactivity or deleterious behavior.

As we learn more about the significant overlaps at the genetic, neural, circuit, and systems levels we may be able to reap the benefits from complementary research into these various chemical and behavioral addictions.

Tuesday, April 28, 2009

NIDA'S Updated Guide Book Emphasizes Science


Drug addiction treatment trends.

Favoring objective medicine over moral exhortation, the National Institute on Drug Abuse (NIDA) has updated one of its primary research guides, continuing the trend toward focusing on the scientific aspects of drug and alcohol addiction.

In the preface to the updated 2nd Edition of Principles of Drug Addiction Treatment, available here, NIDA Director Nora D. Volkow writes:

“Addiction affects multiple brain circuits, including those involved in reward and motivation, learning and memory, and inhibitory control over behavior. Some individuals are more vulnerable than others to becoming addicted, depending on genetic makeup, age of exposure to drugs, other environmental influences, and the interplay of all these factors.”

Looking toward the future, Volkow writes that “we will harness new research results on the influence of genetics and environment on gene function and expression (i.e., epigenetics), which are heralding the development of personalized treatment interventions.”

Here are excerpts from a section of the updated guide titled “Principles of Effective Treatment.”

--No single treatment is appropriate for everyone.

“Matching treatment settings, interventions, and services to an individual's particular problems and needs is critical to his or her ultimate success in returning to productive functioning in the family, workplace, and society.”

--Treatment needs to be readily available.

“Potential patients can be lost if treatment is not immediately available or readily accessible. As with other chronic diseases, the earlier treatment is offered in the disease process, the greater the likelihood of positive outcomes.”

-- Remaining in treatment for an adequate period of time is critical.

“Research indicates that most addicted individuals need at least 3 months in treatment to significantly reduce or stop their drug use and that the best outcomes occur with longer durations of treatment. Recovery from drug addiction is a longterm process and frequently requires multiple episodes of treatment.”

-- Medications are an important element of treatment for many patients, especially when combined with counseling and other behavioral therapies.

“For example, methadone and buprenorphine are effective in helping individuals addicted to heroin or other opioids stabilize their lives and reduce their illicit drug use. Naltrexone is also an effective medication for some opioid-addicted individuals and some patients with alcohol dependence. Other medications for alcohol dependence include acamprosate, disulfiram, and topiramate.”

-- Many drug-addicted individuals also have other mental disorders.

“Because drug abuse and addiction—both of which are mental disorders—often co-occur with other mental illnesses, patients presenting with one condition should be assessed for the other(s). And when these problems co-occur, treatment should address both (or all), including the use of medications as appropriate.”

-- Treatment programs should assess patients for the presence of HIV/ AIDS, hepatitis B and C, tuberculosis, and other infectious diseases as well as provide targeted risk-reduction counseling to help patients modify or change behaviors that place them at risk of contracting or spreading infectious diseases.

“Typically, drug abuse treatment addresses some of the drug-related behaviors that put people at risk of infectious diseases. Targeted counseling specifically focused on reducing infectious disease risk can help patients further reduce or avoid substance-related and other high-risk behaviors.”

Graphics Credit: NIDA

Sunday, March 8, 2009

Drug Research and the Recovery Act of 2009


What's in the budget for addiction scientists?

Scientists were among the likely beneficiaries of President Obama’s American Recovery and Reinvestment Act of 2009.

The National Institutes of Health (NIH) is slated to receive $10 billion for use over the next two years. A yet-to-be-determined portion of the grant will end up with the National Institute on Drug Abuse (NIDA).

Here is a sampling of NIDA’s wish, or “Challenge Topics” for which the agency is seeking grant proposals. The application due date is April 27, 2009.

--Dietary treatment of substance disorders.
“There is abundant preclinical and clinical evidence that suggest dietary therapies and behavioral interventions can promote neurogenesis, diminish susceptibility to metabolic and excitotoxic injury (e.g., diets rich in antioxidants), and/or counteract stress responses within the brain. Dietary regimens or supplements can be evaluated as individual treatments or as adjuncts to FDA-approved medications.”

--Drug genetics and informed consent.
“Address ethical issues related to access to broad sharing and use of new genetic information and technologies for addiction research to improve treatment and prevention options for addicts.”

--Addiction drugs combined in treatment.
“Network biological analysis predicts that modification of a single target by a drug is not nearly as likely to affect disease outcome as would rational combinations of drugs that target multiple, complementary mechanisms. Applications will focus on combination of medication strategies for the treatment of substance use disorders.”

--Neurobiology of opioid addiction.
“There is an urgent need for research that will more thoroughly delineate the neurobiological implications of long-term opioid use. This knowledge gap is of particular concern when it comes to the developing brain - and the urgency is underscored by the fact that increasing numbers of adolescents and young adults are using opioid medications, prescribed and otherwise.”

--Research on addiction drugs for pregnant women.
“Substance abuse during pregnancy often occurs in the context of complex environmental factors and poly-drug exposure, as well as medical conditions which are associated with adverse neonatal consequences. Much is known in regard to the negative effects of substances of abuse on the pregnant/post partum women and their substance exposed neonates but relatively little is known in regard to medication treatment strategies and research methodology.”

--Internet-based prevention and treatment in rural locations.
“Many persons living in remote or rural locations have limited opportunities to obtain drug abuse treatment services, due to a lack of available service settings, the barrier of traveling long distances, and/or the perceived lack of private and confidential treatment options. This program seeks to develop web-based drug abuse treatment interventions that do not necessitate frequent in-person visits to a central facility.”

--Finding new molecular targets for addiction treatment drugs.
“Projects may utilize techniques ranging from gene knockout technologies, behavioral evaluations, assay development, and targeted library synthesis and screening that could lead to the development of medications for drug addiction treatment. The focus may be on the identification of new molecular targets, and/or the discovery of small molecule selective ligands for previously identified targets, such as muscarinic M5 antagonists, neuropeptide Y antagonists, and neurotensin agonists.”

For general information on the National Institute on Drug Abuse implementation of NIH Challenge Grants, contact:

Christine Colvis, Ph.D.
NIDA Challenge Grant Program Coordinator
National Institute on Drug Abuse
National Institutes of Health
Phone 301-443-6480
Email ccolvis@nida.nih.gov


Photo Credit:www.ecampusnews.com

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