Salvatore V. Colucci

Abuse potential, pharmacokinetics, pharmacodynamics, and safety of intranasally administered crushed oxycodone HCl abuse‐deterrent controlled‐release tablets in recreational opioid users

The objective of this study was to evaluate abuse potential, pharmacokinetics, pharmacodynamics, and safety of intranasally administered, crushed reformulated OxyContin® (oxycodone HCl controlled‐release) tablets (ORF), relative to crushed original OxyContin® (OC), oxycodone powder (Oxy API), and OC placebo. This randomized, double‐blind, positive‐ and placebo‐controlled crossover study enrolled healthy, adult, nonphysically dependent recreational opioid users with recent history of intranasal drug abuse (N = 27). Active treatments contained oxycodone (30 mg). Pharmacokinetics, pharmacodynamics (e.g., Overall Drug Liking [ODL], Take Drug Again [TDA], and High Visual Analog Scales [VAS]; Subjective Drug Value [SDV]; pupillometry; intranasal irritation), and safety (e.g., adverse events, vital signs, laboratory tests) were assessed to 24 hours postdose. Crushed ORF administration yielded reduced oxycodone Cmax and increased Tmax versus crushed OC and Oxy API. Peak effects for pharmacodynamic measures were delayed with ORF (1–2 hours) versus OC and Oxy API (0.5–1 hour). ODL, TDA, High VAS, and SDV Emax values were significantly lower (P ≤ .05) and some intranasal irritation ratings were greater for ORF versus OC and Oxy API. No significant or unexpected safety findings were observed. Compared with OC and Oxy API, intranasally administered ORF was associated with lower and delayed peak plasma concentrations, decreased drug‐liking, and decreased intranasal tolerability. This suggests that ORF has a decreased potential for intranasal oxycodone abuse. There were no significant or unexpected safety findings. As is true for all abuse potential studies, epidemiological or other appropriate post‐marketing studies are required to assess the impact of the reduction in intranasal oxycodone abuse potential observed in the present study on real‐world patterns of ORF misuse, abuse, and diversion.

Attractiveness of reformulated OxyContin® tablets: assessing comparative preferences and tampering potential

Reformulated OxyContin® (oxycodone HCl controlled-release or ORF) was developed as a tamper and abuse-deterrent product, to reduce the risk of product abuse, misuse and their consequences. This noninterventional single-session study asked participants who were medically-healthy recreational opioid users, aged 18 years and older, to consider how they would use commonly available supplies to tamper with placebo ORF and placebo original OxyContin (OC) tablets, and how they would assess the attractiveness of tampering and abusing ORF tablets, as compared with other opioid formulations. Participants provided information on past opioid use, and they assessed the properties of five nonhypothetical oxycodone products and two hypothetical oxycodone products. Participants provided feedback on tampering preferences, preferred tamper methods for each product, overall tampering potential and product preferences. We had 30 participants (27 males and 3 females; mean age 35 years, range 18–51) complete both the interview and tampering sessions. Participants judged OC as the most attractive, valuable, desirable and most likely to be tampered with, from among all opioid products studied. By contrast, they rated ORF as the least attractive, least valuable, least desirable, and least likely to be tampered with among all the nonhypothetical opioid products studied. These results suggested that recreational drug abusers view ORF tablets as tamper-deterrent products.

Effect of Ketoconazole on the Pharmacokinetic Profile of Buprenorphine following Administration of a Once-Weekly Buprenorphine Transdermal System

AbstractBackground and Objective: Buprenorphine is extensively metabolized by cytochrome P450 (CYP) 3A4. This study evaluated the effect of ketoconazole, a CYP3A4 inhibitor, on the metabolism of buprenorphine following the administration of a buprenorphine transdermal system 10μg/hour (BTDS 10). Methods: This single-centre study enrolled 20 healthy subjects who had demonstrated ketoconazole-mediated CYP3A4 inhibition via an erythromycin breath test. Subjects were randomized into a placebo-controlled, two-treatment, two-period crossover study. Subjects participated in a 7- to 14-day screening period, two baseline evaluations (day 0 [period 1] and day 16 [period 2]), two 12-day treatment periods (periods 1 and 2) separated by a 4-day washout period, and a study completion visit. Subjects received one BTDS 10 for 7 days per treatment period, administered concomitantly with either ketoconazole 200 mg twice daily or matching placebo. The main outcome measures were the ratios of geometric means for area under the plasma drug concentration versus time curve (AUC) from time zero to time of last measurable concentration (AUClast), AUC from time zero to infinity (AUC∞), and maximum plasma drug concentration (Cmax). Results: The ratio of geometric means (BTDS 10 with ketoconazole/BTDS 10 with placebo) was 99.4 (90% confidence interval [CI] 87.2, 113.3) for AUClast and 97.8 (90% CI 87.7, 109.1) for Cmax. The ratio of geometric means for AUC∞ was 86.7 (90% CI 70.7, 106.2). The plasma concentrations of the metabolites norbuprenorphine and norbuprenorphine-3β-glucuronide were slightly elevated following ketoconazole administration. BTDS 10 with ketoconazole was well tolerated and no apparent safety concerns were noted. Conclusion: The lack of a clinically significant CYP3A4 interaction with ketoconazole following transdermal delivery of buprenorphine is consistent with the parenteral administration of a high clearance drug bypassing exposure to gut wall and hepatic CYP3A4 first-pass effects. Metabolism of buprenorphine during therapy with BTDS is also not expected to be affected by co-administration of other CYP3A4 inhibitors.

Clinician Validation of Poison Control Center (PCC) Intentional Exposure Cases Involving Prescription Opioids

Poison Control Center (PCC) cases involving intentional ingestion, injection or inhalation of prescription opioids are a potentially valuable source of information on the abuse and misuse of these products. This study sought to validate PCC classifications of prescription opioid intentional exposure cases against clinical diagnostic criteria. 4,321 cases were reviewed. PCC-clinician concordance was good to excellent for Withdrawal, Abuse, and Suicide (kappa statistics: 0.73, 0.53, 0.48, respectively), but poor for Misuse and Intentional Unknown (Specific motive not known). Interrater reliability among clinicians was good (weighted kappa range: 0.56–0.68). Results demonstrate the degree of compatibility between PCC and standard nosologic classifications.

Once-Weekly Transdermal Buprenorphine Application Results in Sustained and Consistent Steady-State Plasma Levels

CONTEXT Transdermal formulations of buprenorphine offer controlled delivery of buprenorphine for sustained analgesic efficacy with reduced adverse events (AEs) compared with the other modes of administration. A buprenorphine transdermal system (BTDS) delivering 5, 10, or 20 mcg/hour for seven days is now marketed in the U.S. as Butrans(®) (Lohmann Therapie-System AG, Andernach Germany), a Schedule III single-entity opioid analgesic indicated for the management of moderate and chronic pain in patients requiring continuous around-the-clock analgesia for an extended period. OBJECTIVES This was a randomized open-label study in healthy subjects to characterize the steady-state buprenorphine pharmacokinetics after the delivery of three consecutive seven-day BTDS applications. METHODS Thirty-seven subjects were randomized to receive three consecutive BTDS 10 mcg/hour (BTDS 10) patches applied to the deltoid or upper back for seven days each. Blood samples for buprenorphine concentration measurements were taken. Safety was assessed using recorded AEs, clinical laboratory test results, vital signs, pulse oximetry, physical examinations, and electrocardiograms. Patch adhesion assessments were taken. RESULTS Analysis of Cmin demonstrated that steady state was reached during the first BTDS 10 application. No significant difference in Cmin was observed across the three applications. Total and peak plasma buprenorphine exposures were similar after each of the seven-day administrations of BTDS. CONCLUSION Three consecutive once-weekly applications of BTDS 10 provided consistent and sustained delivery of buprenorphine. Steady-state plasma concentrations were reached within 48 hours of the first application of BTDS 10. Patch adhesion analysis confirmed the appropriateness of the seven-day application period. Overall, BTDS 10 was safe and well tolerated.

Validity of Self-Reported Misuse of Prescription Opioid Analgesics

Aim: To determine concurrent validity of self-reported misuse of prescription opioids. Design and Setting: Cross-sectional study in five U.S. methadone maintenance programs. Participants: 92 addicts. Measurements: Self-reported questionnaire assessing past-month misuse of 14 opioid analgesics, and color photographs of five opioid analgesics with instructions to mark those used in the past month “to get high.” Concordance between self-report and photograph endorsement was assessed via Kappa statistic. Findings: 29 respondents completed both questionnaire and photograph endorsements. Kappas were 0.62 (OxyContin®), 0.59 (methadone), 0.49 (Dilaudid®), and 0.46 (generic extended-release oxycodone). Conclusions: Good-to-fair concurrent validity of self-reported abuse was seen for OxyContin®, methadone, Dilaudid®, and generic extended-release oxycodone.

Intranasal Abuse Potential, Pharmacokinetics, and Safety of Once-Daily, Single-Entity, Extended-Release Hydrocodone (HYD) in Recreational Opioid Users

Objectives. A once-daily, extended-release hydrocodone bitartrate tablet with abuse-deterrent properties (Hysingla ER® [HYD]) is available for the treatment of chronic pain in appropriate patients. This study evaluated the intranasal abuse potential and pharmacokinetics of HYD coarse and fine particles vs hydrocodone powder or placebo. Design. Single-center, double-blind, positive- and placebo-controlled, randomized, four-treatment crossover study. Subjects. Healthy adult, nondependent, recreational opioid users with a history of intranasal abuse. Methods. During four treatment periods, subjects (N = 31) received hydrocodone powder 60 mg, HYD coarse particles 60 mg, HYD fine particles 60 mg, or placebo, with five-to-seven-day washouts between treatments. Measures over 36 hours postdose included drug-liking and willingness to take drug again, assessed using visual analog scales (VASs), pupillometry, intranasal irritation, and pharmacokinetics. Results. Insufflation of both HYD coarse and fine particles led to lower “At this Moment” Drug Liking VAS peak values compared with hydrocodone powder, but higher values compared with placebo (P < 0.001 for all comparisons). Similar results were observed for Overall Drug Liking VAS, Take Drug Again VAS, and Subjective Drug Value. Compared with hydrocodone, insufflation of HYD particles led to reduced miosis and increased nasal irritation. Mean hydrocodone Cmax following insufflation of HYD coarse particles, HYD fine particles, and hydrocodone powder was 27.5, 36.5, and 105.8 ng/mL, respectively; median Tmax was ≥2-fold longer with either HYD particle size than hydrocodone powder; and (Cmax/Tmax) was 9.5, 13.4, and 82.0 ng/mL/h, respectively. Safety was consistent with that of opioid agonists. Conclusions. HYD demonstrated reduced intranasal abuse potential compared with hydrocodone powder.

Effects of buprenorphine on QT intervals in healthy subjects: results of 2 randomized positive- and placebo-controlled trials

ABSTRACT Objectives: To study the effect of transdermal buprenorphine on QTc prolongation at dose levels of 10, 40, and 80 mcg/h, (BTDS 10, BTDS 40, BTDS 80). Methods: Two randomized, placebo- and positive-controlled, parallel-group, dose-escalating clinical studies evaluated healthy adult subjects randomized to BTDS, placebo, or moxifloxacin in the first study; and to BTDS only, BTDS plus naltrexone, naltrexone alone at the same dose, placebo, or moxifloxacin in the second study. QT intervals were corrected for heart rate using data from each individual subject (QTcI). Results: In the first study (n = 44), the maximum upper bounds of the 90% confidence interval (CI) for mean placebo-corrected change from baseline in QTcI across 13 time points over 24 h were: 10.0 msec for BTDS 10 (Day 6) and 13.3 msec for BTDS 40 (Day 13); and 17.0 msec (Day 6) and 15.5 msec (Day 13) for moxifloxacin, respectively.  Similarly, in the second study (n = 66), the upper bound of the 90% CI for mean placebo-corrected change from baseline for QTcI was under 10 msec at all time points for BTDS 10 (maximum upper bound, 5.63 msec), over 10 msec at 5 time points for BTDS 40 (maximum 11.81 msec) and over 10 msec at all 13 time points for BTDS 80 (maximum, 14.14 msec). Naltrexone administered with BTDS eliminated the QTcI prolongation seen with supratherapeutic BTDS doses (BTDS 40, BTDS 80) administered without naltrexone. Conclusions: At the therapeutic dose of 10 mcg/h, BTDS has no clinically significant effect on QTc. At supratherapeutic doses of 40 and 80 mcg/h, BTDS treatment produces prolongation of QTcI similar in magnitude to that produced by a 400 mg dose of moxifloxacin. Despite the modest, dose-dependent increase in QTcI noted in these studies, transdermal buprenorphine has not been associated with proarrhythmic effects.

Pharmacokinetic Profile and Sustained 24-hour Analgesia of a Once-daily Hydrocodone Bitartrate Extended-release Tablet with Abuse-deterrent Properties.

PURPOSE The purpose of this study was to evaluate the pharmacokinetics (PK) and 24-hour analgesic effectiveness of once-daily, single-entity, extended-release hydrocodone (HYD) with abuse-deterrent properties. METHODS Four studies were included. Three open-label PK studies had the following designs: single-dose, 5-treatment, 4-period, crossover, dose-proportionality study; HYD 120 mg for 5 days (steady-state study 1); 2-treatment, 2-period, multiple-dose crossover study assessing the relative bioavailability of HYD 30 mg and hydrocodone 7.5 mg/ibuprofen 200 mg administered every 6 hours (steady-state study 2). A long-term, open-label study assessed the safety and effectiveness of HYD 20 to 120 mg in patients during a 52-week maintenance period. FINDINGS Thirty-one, 25, and 22 healthy subjects completed the dose-proportionality study, steady-state study 1, and steady-state study 2, respectively, while 410 patients with moderate to severe chronic nonmalignant and non-neuropathic pain completed the long-term effectiveness study. Mean systemic exposure and peak plasma concentration were dose proportional after administration of single doses of HYD 20 to 120 mg. Pharmacokinetic profiles were comparable at day 1 and day 5 after administration of HYD 120 mg once daily. Once-daily HYD 30 mg was associated with lower-fluctuating plasma hydrocodone concentrations compared with immediate-release hydrocodone 7.5 mg/ibuprofen 200 mg administered every 6 hours. In the long-term study, pain control was consistent over the 24-hour dosing interval. IMPLICATIONS Once-daily HYD exhibits linear, dose-proportional PK properties and is associated with a lower variability in plasma hydrocodone concentrations when compared with an immediate-release hydrocodone combination product. Notably, analgesia provided by HYD is sustained during the 24-hour dosing interval. ClinicalTrials.gov identifier: NCT01400139 (Study 4).

Safety of buprenorphine transdermal system in the management of pain in older adults

ABSTRACT Objectives: To evaluate whether buprenorphine transdermal system (BTDS; Butrans®) is an option for the treatment of chronic pain in older adults. Methods: This retrospective analysis of 16 placebo- and active-controlled and uncontrolled studies (N = 6566) evaluated the safety and tolerability profile in patients exposed to BTDS and compared the safety profiles associated with BTDS treatment in older patients ≥ 65 years of age (65 to 98 years) and younger patients < 65 years of age (18 to 64 years). Safety analyses included adverse events (AEs), laboratory values, and electrocardiograms. Results: Overall, the incidence of AEs was similar in the ≥ 65 year patient cohort (N = 1715) and the < 65 year patient cohort (N = 4843) (63.8% and 61.0%, respectively). The older patient cohort experienced more constipation, peripheral edema, and urinary tract infection, but fewer application-site AEs (eg, erythema, irritation, pruritus, rash) and headaches. A statistically significant treatment-by-age interaction was observed for fall, arthralgia, and localized and non-application site-related rash, suggesting a differential increase in the risk of these events among older patients treated with BTDS that cannot be explained by age or treatment alone. A similar trend was observed for accidents and injuries, and for falls, in patients treated with both BTDS and active controls (oxycodone/acetaminophen [OXY/APAP] and hydrocodone/acetaminophen [HCD/APAP]), suggesting an opioid class effect. However, due to small sample sizes of the active control groups, a statistical test of treatment-by-age interaction could not be conducted for the active controls. The incidences of serious AEs and of clinically significant increases in liver enzymes, such as AST, ALT and bilirubin were small, regardless of age. Conclusion: BTDS appears to be a viable option for the management of pain in older adults, but the benefits need to be tempered by potential risks among older adults.