Heroin Dependence Clinical Trial
Official title:
An Open-label Study of Oral Minocycline for the Treatment of Patients With Co-occurring Opioid and Amphetamine-type Stimulant Dependence (COATS)
The proposed study will evaluate the tolerability, acceptability and potential efficacy of minocycline for the treatment of co-occurring opioid and amphetamine-type stimulant (ATS) dependence. In the proposed clinical trial, all patients will first discontinue illicit opioid and ATS and be inducted onto buprenorphine maintenance treatment (BMT) in the inpatient ward at the department of psychiatry before beginning to receive minocycline. Tolerability and acceptability will be evaluated by assessing the rates of patient retention during treatment, patient satisfaction with treatment and adverse effects during treatment. The potential efficacy of minocycline will be evaluated with regard to the primary outcome measure: reductions in ATS use , based on urine toxicology testing and self-report. Secondary outcome measures include retention, reduction in HIV risk behaviors and improvements in functional status.
Additional data available to this project will come from contemporaneous and historical drug
treatment clinical trials and treatment programs conducted at HUSM with similar populations
of patients and proposed/described as other components of the cluster of research projects
described in the overall Research University Team Grant proposal. Comparisons of treatment
process and outcome measures collected in this proposed clinical trial with data collected
in contemporaneous and historical controls will enhance our ability to evaluate the
potential efficacy of minocycline as treatment agent for co-occurring opioid and
amphetamine-type stimulant (ATS) dependence. Data from patients receiving other drug
treatments at HUSM will be used as reference points to evaluate potential effect sizes of
treatment effects associated with minocycline treatment. The preliminary data on treatment
retention data, patient satisfaction, potential adverse effects, and efficacy will be used
as preliminary/pilot research when designing and applying for funding support for future
large scale randomized clinical trials aimed at the development of effective medically based
treatments of opiate and ATS abuse or dependence.
Over the past decade, amphetamine-type stimulant (ATS) has also emerged as a major drug
problem. Globally, ATS is now the second most commonly used illicit drug type and is more
widely used than heroin. ATS abuse is especially prevalent and problematic in the Asian
region, where ATS production, use, drug seizures, and demand for treatment have continued to
increase. Injection of methamphetamine has been reported in Malaysia (Chawarski et al, 2006)
and other south-east Asian countries (McKetin, 2008). In the most recent survey of
out-of-treatment heroin IVDU in cities across Malaysia, more than 60% report current ATS
use, and 29% inject ATS (Chawarski et al, 2012).
ATS use is associated with increased HIV transmission behavioral risks. The connection of
heroin, methamphetamine and HIV in Malaysia is well documented (Chawarski et al, 2006).
Increased needle sharing and risky sexual behaviors lead to increased prevalence of HIV
infection. ATS use exacerbates HIV transmission risk through a number of mechanisms: ATS
users report engaging in more frequent and more risky sexual behaviors while using ATS and
in more frequent needle sharing. ATS is also associated with impairments of mood and
executive functioning that may persist for prolonged periods and may contribute to relapse
to drug use, thus all other problems.
Drug abuse has been a major problem in Kelantan for the past several decades (Suarn &
NorAdam,1993) and ATS has been gaining momentum over the past decade. The number of
individuals arrested annually for ATS in Kelantan increased over the past 5 years from 2900
in 2007 to 5300 in 2010. For the past 5 years, Kelantan has also led Malaysia in having the
highest population prevalence of HIV infection, at 47 per 100,000 in 2008, nearly 4 times
the prevalence reported for the rest of Malaysia. Kelantan also has the highest number of
women with HIV in Malaysia with more than 1200 reported in 2008, suggesting that HIV is
making the transition to the general population. A large proportion of treatment seeking
drug users in Kelantan are HIV positives and are susceptible to high mortality (JKNK, 2012).
Minocycline is a broad-spectrum antibiotic derived from tetracycline. Minocycline is
substantially more lipid-soluble than other tetracyclines, thus minocycline readily crosses
the blood-brain barrier, and its potential efficacy for treating ATS dependence derives from
its effects on dopamine on glutamate neurotransmission in the brain and its
anti-inflammatory, neuro-protective and cognitive-enhancing effects in the brain (Dean et
al, 2012). Glutamate along with dopamine plays a key role in the rewarding and addictive
effects of amphetamine, methamphetamine, and other stimulants. Input from glutamatergic
pathways in brain reward centers enhances dopaminergic transmission in these pathways and
reward. Blockade of glutamate receptors in these regions prevents many of the behavioral
effects of ATS or other stimulants and prevents reinstatement of stimulant use in animal
studies. Glutamate plays a key role in learning and memory, and blockade of glutamate
interferes with consolidation of memory for the rewarding effects of stimulants.
Minocycline, one of the very few medications affecting glutamate transmission, attenuates
many of the behavioral effects of stimulants in animal models, attenuates release of
dopamine in brain reward pathways in response to stimulants. It has cognitive-enhancing
effects in humans, and improves stimulant-induced and phencyclidine-induced cognitive
impairments. In animal models, minocycline improved stimulant-induced or
phencyclidine-induced impairments of object recognition, sensorimotor gating, and
visuospatial memory. A study of nicotine addiction showed greater reduction in craving for
cigarettes while on minocycline as compared to placebo (Sofuoglu et al, 2009).
In another study (Sofuoglu et al, 2011), minocycline attenuated the subjective, rewarding
effects of amphetamine administration in healthy human volunteers, reduced plasma cortisol
levels following amphetamine administration, and improved reaction times on a cognitive
performance task testing attention. The cognitive-enhancing effects of minocycline have been
found in individuals with schizophrenia, who showed improved working memory, cognitive
flexibility and cognitive planning in response to minocycline. Addition of minocycline early
in the treatment improves negative symptoms in patient with schizophrenia (Chaudry et al,
2012).Minocycline exerts neuroprotective effects but under certain circumstances, also have
neurotoxic consequences (Plane et al, 2010). Reserchers in Japan reported a case of a female
patient whose psychotic symptoms in methamphetamine use disorder were successfully improved
by minocycline, even though the precise mechanisms were not understood then (Tanibuchi et
al, 2010).
Very rarely, minocycline is associated with some severe problems, including colitis,
infection with non-susceptible organisms, liver damage, (MacNeil et al,1997), benign
intracranial hypertension, skin rashes, autoimmune disorders or allergic reactions. Although
these problems occur very rarely, we plan to monitor patients for adverse effects closely
throughout the study to ensure early detection and prompt treatment of any serious advere
effect, if one should occur. Additionally, patients treated for acne with minocycline may be
treated with minocycline for many years, while in the proposed study we are planning to
treat patients with minocycline for a very limited period, 4 months. We anticipate that, if
it is found to be efficacious for treating ATS abuse or dependence, minocycline would be
used in the initial phase of treatment to help patients consolidate a period of abstinence
from ATS and develop healthy, drug-free life styles; we do not anticipate that minocycline
would be used for the long-term maintenance treatment of ATS abuse or dependence.
In addition to detoxification and treatment medications, a manual-guided educational drug
and HIV risk reduction counseling (EDRC) will be provided to all participants. EDRC provides
education about medical understanding of opioid and ATS addiction, highly effective
strategies used in successful drug recovery efforts, medical and other harmful consequences
of drug use includingHIV and other infectious disease transmission, as well as about
effective prevention of all negative consequences of illicit drug use (Chawarski et al,
2008). It helps patient to remain in treatment, adhere to prescribed medications, abstain
from or reduce illicit opioid and ATS use and HIV risk behaviors, and make life-style
changes fostering sustained recovery. It also teaches basic cognitive and behavioral coping
skills that increase the patients' chances to reach sustained and prolonged recovery from
drugs. For HIV positive patients, EDRC encourages patients to attend the HIV clinic and
adhere to monitoring, medication, and other treatment recommendations. EDRC will be provided
by trained and supervised nursing personnel, drug counselors, or therapists. It will be
offered in individual format with the frequency ranging from 3 times per week during
detoxification to once per week during the outpatient phase of treatment.
;
Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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