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Habitual use of opioids “rewires” the brain’s reward system. In the study, researchers will be testing ANS-6637 (Amygdala Neurosciences), a drug that may inhibit the dopamine surge of opioid use, without affecting the levels of dopamine needed for normal brain function.
The phase 1 trial will enroll up to 50 healthy adults aged 18 to 65 years. On the first day of the 10-day study, they will receive a single dose of midazolam, chosen to act as a template for liver metabolism. After a drug-free day 2, on days 3 through 7 they will receive 600 mg/d of ANS-6637. On day 8, the participants will be given the 2 drugs together to determine how the investigational drug affects midazolam levels, which also will help the researchers understand how ANS-6637 is processed in the body. The volunteers will return for a final outpatient visit after 1 week.
At present, few pharmacologic interventions target opioid-related cravings, says researcher Henry Masur, MD, chief of the Clinical Center’s Critical Care Medicine Department. If proven effective, the researchers say, ANS-6637 could be part of a comprehensive package of services, including harm reduction, opioid agonist therapy, and behavioral interventions.
The study is funded through NIH’s Helping to End Addiction Long-Term (HEAL) Initiative, an “aggressive, trans-agency effort to speed scientific solutions” to the opioid crisis.
Habitual use of opioids “rewires” the brain’s reward system. In the study, researchers will be testing ANS-6637 (Amygdala Neurosciences), a drug that may inhibit the dopamine surge of opioid use, without affecting the levels of dopamine needed for normal brain function.
The phase 1 trial will enroll up to 50 healthy adults aged 18 to 65 years. On the first day of the 10-day study, they will receive a single dose of midazolam, chosen to act as a template for liver metabolism. After a drug-free day 2, on days 3 through 7 they will receive 600 mg/d of ANS-6637. On day 8, the participants will be given the 2 drugs together to determine how the investigational drug affects midazolam levels, which also will help the researchers understand how ANS-6637 is processed in the body. The volunteers will return for a final outpatient visit after 1 week.
At present, few pharmacologic interventions target opioid-related cravings, says researcher Henry Masur, MD, chief of the Clinical Center’s Critical Care Medicine Department. If proven effective, the researchers say, ANS-6637 could be part of a comprehensive package of services, including harm reduction, opioid agonist therapy, and behavioral interventions.
The study is funded through NIH’s Helping to End Addiction Long-Term (HEAL) Initiative, an “aggressive, trans-agency effort to speed scientific solutions” to the opioid crisis.
Habitual use of opioids “rewires” the brain’s reward system. In the study, researchers will be testing ANS-6637 (Amygdala Neurosciences), a drug that may inhibit the dopamine surge of opioid use, without affecting the levels of dopamine needed for normal brain function.
The phase 1 trial will enroll up to 50 healthy adults aged 18 to 65 years. On the first day of the 10-day study, they will receive a single dose of midazolam, chosen to act as a template for liver metabolism. After a drug-free day 2, on days 3 through 7 they will receive 600 mg/d of ANS-6637. On day 8, the participants will be given the 2 drugs together to determine how the investigational drug affects midazolam levels, which also will help the researchers understand how ANS-6637 is processed in the body. The volunteers will return for a final outpatient visit after 1 week.
At present, few pharmacologic interventions target opioid-related cravings, says researcher Henry Masur, MD, chief of the Clinical Center’s Critical Care Medicine Department. If proven effective, the researchers say, ANS-6637 could be part of a comprehensive package of services, including harm reduction, opioid agonist therapy, and behavioral interventions.
The study is funded through NIH’s Helping to End Addiction Long-Term (HEAL) Initiative, an “aggressive, trans-agency effort to speed scientific solutions” to the opioid crisis.