Dr. Sendi – at NOVA Addiction Specialists can evaluate you to see if Sublocade will work for you.
http://www.suboxonecenter.org/ Suboxone treatment – telemedicine also – 703-844-0184 24/7
Opiates are essential for treating pain, but termination of
opiate therapy can cause a debilitating withdrawal syndrome
in chronic users. To alleviate or avoid the aversive symptoms
of withdrawal, many of these individuals continue to use
opiates1–4. Withdrawal is therefore a key determinant of opiate
use in dependent individuals, yet its underlying mechanisms
are poorly understood and effective therapies are lacking. Here,
we identify the pannexin-1 (Panx1) channel as a therapeutic
target in opiate withdrawal. We show that withdrawal from
morphine induces long-term synaptic facilitation in lamina I
and II neurons within the rodent spinal dorsal horn, a principal
site of action for opiate analgesia. Genetic ablation of Panx1
in microglia abolished the spinal synaptic facilitation and
ameliorated the sequelae of morphine withdrawal. Panx1
is unique in its permeability to molecules up to 1 kDa in size
and its release of ATP5,6. We show that Panx1 activation
drives ATP release from microglia during morphine withdrawal
and that degrading endogenous spinal ATP by administering
apyrase produces a reduction in withdrawal behaviors.
Conversely, we found that pharmacological inhibition of
ATP breakdown exacerbates withdrawal. Treatment with
a Panx1-blocking peptide (10panx) or the clinically used
broad-spectrum Panx1 blockers, mefloquine or probenecid,
suppressed ATP release and reduced withdrawal severity.
Our results demonstrate that Panx1-mediated ATP release
from microglia is required for morphine withdrawal in rodents
and that blocking Panx1 alleviates the severity of withdrawal
without affecting opiate analgesia.
Withdrawal. It’s a huge hurdle on the path to recovery.
Those struggling to leave opioids behind know they’ll eventually have to face the intimidating mental and physical effects of withdrawal. It’s a powerful and frightening thought.
Some of the most common withdrawal symptoms include:
- Muscle aches and cramps
- Nausea, vomiting, and diarrhea
- Anxiety, profuse sweating, and restlessness
- Blurry vision
- High blood pressure
Help Where It’s Needed Most
Even though millions of Americans are in the midst of this battle, few medications are available to effectively manage their symptoms. This unavailability – and the onset of painful withdrawal symptoms – are often enough to make many people give up and return to opioids for relief.
But this could soon change…
According to the results of a recent study, help for intense withdrawal symptoms might be on the horizon, thanks to the discovery of a new drug.
“Opioid withdrawal is aversive, debilitating, and can compel individuals to continue using the drug in order to prevent these symptoms,” explains lead researcher Tuan Trang, PhD.
“In our study, we effectively alleviated withdrawal symptoms in rodents, which could have important implications for patients that may wish to decrease or stop their use of these medications.”
Researchers from the University of Calgary’s Faculty of Veterinary Medicine and Hotchkiss Brain Institute investigated the process of withdrawal and its’ possible causes. The study involved rats which had been given two potent opioids, morphine and fentanyl. The team identified the glycoprotein, pannexin-1, as the source of withdrawal symptoms in rodents. Pannexin-1 is also located throughout the human body, including the brain and spinal cord.
After identifying the cause of these symptoms, the team tested a drug already proven to block the effects of pannexin-1 called, Probenecid. It’s an anti-gout medication that’s fairly cheap and has few side effects.
The results showed this medicine was “effective in reducing the severity of withdrawal symptoms in opioid-dependent rodents.” Another encouraging aspect about their findings: the medication didn’t affect an opioids’ ability to relieve pain.
Previous research hadn’t explored this avenue, and this investigation has provided a better understanding of opioid withdrawal at the cellular level.
Canadian pain researcher, Dr. Michael Salter, notes, “This is an exciting study which reveals a new mechanism and a potential therapeutic target for managing opioid withdrawal. The findings of Dr. Trang and his team could have important implications for people on opioid therapy and those attempting to stop opioid use.”
The team behind the study plan to continue their work and hope this new insight will lead to the creation of a more effective treatment method for the symptoms of withdrawal. Dr. Trang says their next steps will be to determine the drug effectiveness in humans and to ensure its’ safety. Their goal is to develop an effective method to treat the millions struggling with pain management and opioid dependency across the nation and around the world.
These results have already lead to the development of a clinical trial at the Calgary Pain Clinic.
May 16, 2018
The National Institute on Drug Abuse (NIDA), part of the National Institutes of Health, is pleased to announce that lofexidine, the first medication for use in reducing symptoms associated with opioid withdrawal in adults, has been approved by the U.S. Food and Drug Administration. Lofexidine, an oral tablet, is designed to manage the symptoms patients often experience during opioid discontinuation. Opioid withdrawal symptoms, which can begin as early as a few hours after the drug was last taken, may include aches and pains, muscle spasms/twitching, stomach cramps, muscular tension, heart pounding, insomnia/problems sleeping, feelings of coldness, runny eyes, yawning, and feeling sick, among others. The product will be marketed under the brand name LUCEMYRATM.
In 2016, more than 42,000 people died from an opioid overdose, or approximately 115 people per day. Although effective treatments exist for opioid addiction, painful and difficult withdrawal is one of the reasons treatment fails, and relapse occurs. By alleviating symptoms associated with opioid withdrawal, LUCEMYRA could help patients complete their discontinuation of opioids and facilitate successful treatment. To date, no other medications have been approved to treat opioid withdrawal symptoms.
LUCEMYRA will be marketed by US WorldMeds, a specialty pharmaceutical company that acquired a license for lofexidine from Britannia Pharmaceuticals in 2003. NIDA provided funding to US WorldMeds to support clinical trials to document the clinical pharmacokinetics of lofexidine and to test medical safety and efficacy of the medication, as compared to a placebo, among patients undergoing medically supervised opioid discontinuation. LUCEMYRA is expected to be commercially available in the United States in August 2018.
Read NIDA Director Dr. Nora Volkow’s blog: NIDA-Supported Science Leads to First FDA-Approved Medication for Opioid Withdrawal
May 16, 2018
In 2016, 115 Americans died every day from an overdose involving prescription or illicit opioids. Addiction to any drug has multiple components—altered functioning of the reward system, learned associations with drug cues that promote preoccupation and craving, and changes to prefrontal circuits necessary for proper exertion of self-control. But physiological and psychological withdrawal symptoms play a major role in driving users repeatedly back to the drug, despite efforts to stop using.
Withdrawal is notoriously hard to endure for people addicted to opioids. Physical symptoms can start a few hours after last taking the drug and may include stomach cramps, aches and pains, coldness, muscle spasms or tension, pounding heart, insomnia, and many others. These symptoms, along with mood changes, like depression and anxiety, are a major reason people with opioid addiction may relapse. Yet until now, no medication has been approved to treat withdrawal.
This week, the Food and Drug Administration (FDA) approved lofexidine, the first medication targeted specifically to treat the physical symptoms associated with opioid withdrawal. NIDA’s medications development program helped fund the science leading to the drug’s approval. Lofexidine could benefit the thousands of Americans seeking medical help for their opioid addiction, by helping them stick to their detoxification or treatment regimens.
Two of the three FDA-approved medications to treat opioid use disorder, methadone and buprenorphine, can be initiated while a person is experiencing withdrawal symptoms, and can help curb craving. However, these medications are not always easy to access, and at this point are only received by a minority of people with opioid use disorder. The third FDA-approved drug, extended-release naltrexone, has also been found effective, but only after people have been fully detoxified. The need to detox first—and endure those symptoms—prevents many patients from being treated with naltrexone. Lofexidine could make a big difference in making the latter treatment option more widely used.
Lofexidine is not an opioid. It acts to inhibit the release of norepinephrine in the brain and elsewhere in the nervous system. It was originally developed as a medication for hypertension, but has mainly been used for opioid withdrawal in the United Kingdom since the early 1990s. US WorldMeds acquired a license for lofexidine from Britannia Pharmaceuticals in 2003 and will market it in the US under the brand name LUCEMYRATM beginning this summer. NIDA helped fund the clinical trials to test lofexidine’s pharmacological properties, safety, and efficacy in patients who were discontinuing opioid use under medical supervision.
Lofexidine cannot address the psychological symptoms of opioid withdrawal; further research is needed to develop medications that could address mood problems during detoxification and after. But approval of the first medication to treat the physical symptoms of opioid withdrawal is a major milestone, one that could improve the lives and treatment success of thousands of people living with opioid addiction. And by helping prevent relapse, it could save lives. The approval of lofexidine is also a welcome example of the power of public-private collaborations in developing new treatments.