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Drug abuse has become a global health problem over the past few years. Opioid abuse increased with an increase in the prescription of opioids for pain management. Many other classes of drugs are also abused and misused like anti-depressants, stimulants, hallucinogens, anti-psychotic, and anticholinergic drugs. One of the major reasons is that patients falsely diagnosed with depression, anxiety, and severe pain are prescribed these drugs, which are likely to be addictive. Abuse-deterrent formulations are one means to control drug abuse and overdose of prescription opioids. In this review, we explained how abuse-deterrent technology works, key ingredients used in abuse-deterrent formulations, a brief about marketed opioid drug products with abuse-deterrent properties, and the stand of regulatory agencies in the approval process of opioid drug products. In the end, it summarized that pharmaceutical industries and the FDA put their efforts into reducing drug abuse by encouraging the development of ADFs. Most available drug product having abuse-deterrent features contains Polyethylene oxide, which degrades at high temperatures. It requires the attention of the researcher to find an alternate ingredient or process to overcome said problem. From a regulatory point of view, only a few regulatory agencies have published their guidance on ADFs. It is important to convey other regulatory organizations' perspectives on ADFs as well.

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Misuse of prescription opioid drugs is the leading cause of the opioid crisis and overdose-related death. Abuse deterrent formulations (ADFs) have been developed to discourage attempts to tamper with the formulation and alter the ingestion methods. However, abusers develop complex extraction strategies to circumvent the ADF technologies. For comprehensive deterrence of drug abuse, we develop tannic acid nanoparticles (NPs) that protect encapsulated opioids from solvent extraction and thermal challenge (crisping), complementing the existing formulation strategy to deter injection abuse. Here, we develop a hybrid ADF tablet (NP-Tab), consisting of iron-crosslinked tannic acid NPs encapsulating thebaine (model opioid compound), xanthan gum, and chitosan (gel-forming polymers), and evaluate its performance in common abuse conditions. NP-Tab tampered by crushing and suspended in aqueous solvents forms an instantaneous gel, which is difficult to pull or push through a 21-gauge needle. NPs insulate the drug from organic solvents, deterring solvent extraction. NPs also promote thermal destruction of the drug to make crisping less rewarding. However, NP-Tab releases thebaine in the simulated gastric fluid without delay, suggesting that its analgesic effect may be unaffected if consumed orally as prescribed. These results demonstrate that NP-Tab can provide comprehensive drug abuse deterrence, resisting aqueous/organic solvent extraction, injection, and crisping, while retaining its therapeutic effect upon regular usage.

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To combat opioid abuse, the U.S. Food and Drug Administration (FDA) released a comprehensive action plan to address opioid addiction, abuse, and overdose that included increasing the prevalence of abuse-deterrent formulations (ADFs) in opioid tablets. Polyethylene oxide (PEO) has been widely used as an excipient to deter abuse via nasal insufflation. However, changes in abuse patterns have led to unexpected shifts in abuse from the nasal route to intravenous injection. Case reports identify adverse effects similar to thrombotic thrombocytopenic purpura (TTP) syndrome following the intravenous (IV) abuse of opioids containing PEO excipient. Increased risk of IV opioid ADF abuse compared to clinical benefit of the drug led to the removal of one opioid product from the market in 2017. Because many generic drugs containing PEO are still in development, there is interest in assessing safety consistent with generic drug regulation and unintended uses. Currently, there are no guidelines or in vitro assessment tools to characterize the safety of PEO excipients taken via intravenous injection. To create a more robust excipient safety evaluation tool and to study the mechanistic basis of HMW PEO-induced TMA, a dynamic in vitro test system involving blood flow through a needle model has been developed.

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INTRODUCTION: The 2010 release of an abuse deterrent formulation (ADF) of OxyContin, a brand name prescription opioid, has been cited as a major driver for the reduction in prescription drug misuse and the associated increasing illicit opioid use and overdose rates. However, studies of this topic often do not account for changes in supplies of other prescription opioids that were widely prescribed before and after the ADF OxyContin release, including generic oxycodone formulations and hydrocodone. We therefore sought to compare the impact of the ADF OxyContin release to that of decreasing prescription opioid supplies in West Virginia (WV). METHODS: Opioid tablet shipment and overdose data were extracted from The Washington Post ARCOS (2006-2014) and the WV Forensic Drug Database (2005-2020), respectively. Locally estimated scatterplot smoothing (LOESS) was used to estimate the point when shipments of prescription opioids to WV began decreasing, measured via dosage units and morphine milligram equivalents (MMEs). Interrupted time series analysis (ITSA) was used to compare the impact LOESS-identified prescription supply changes and the ADF OxyContin release had on prescription (oxycodone and hydrocodone) and illicit (heroin, fentanyl, and fentanyl analogues) opioid overdose deaths in WV. Model fit was compared using Akaike Information Criteria (AIC). RESULTS: The majority of opioid tablets shipped to WV from 2006 to 2014 were generic oxycodone or hydrocodone, not OxyContin. After accounting for a 6-month lag from ITSA models using the LOESS-identified change in prescription opioid shipments measured via dosage units (2011 Q3) resulted in the lowest AIC for both prescription (AIC = -188.6) and illicit opioid-involved overdoses (AIC = -189.4), indicating this intervention start date resulted in the preferred model. The second lowest AIC was for models using the ADF OxyContin release as an intervention start date. DISCUSSION: We found that illicit opioid overdoses in WV began increasing closer to when prescription opioid shipments to the state began decreasing, not when the ADF OxyContin release occurred. Similarly, the majority of opioid tablets shipped to the state for 2006-2014 were generic oxycodone or hydrocodone. This may indicate that diminishing prescription supplies had a larger impact on opioid overdose patterns than the ADF OxyContin release in WV.

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OBJECTIVE: We offer an overview of ADHD research using mouse models of nicotine exposure. METHOD: Nicotine exposure of C57BL/6 or Swiss Webster mice occurred during prenatal period only or during the prenatal and the pre-weaning periods. Behavioral, neuroanatomical and neurotransmitter assays were used to investigate neurobiological mechanisms of ADHD and discover candidate ADHD medications. RESULTS: Our studies show that norbinaltorphimine, a selective kappa opioid receptor antagonist is a candidate novel non-stimulant ADHD treatment and that a combination of methylphenidate and naltrexone has abuse deterrent potential with therapeutic benefits for ADHD. Other studies showed transgenerational transmission of ADHD-associated behavioral traits and demonstrated that interactions between untreated ADHD and repeated mild traumatic brain injury produced behavioral traits not associated with either condition alone. CONCLUSION: Preclinical models contribute to novel insights into ADHD neurobiology and are valuable tools for drug discovery and translation to benefit humans with ADHD.

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Abuse-deterrent formulations (ADFs) refer to formulation technologies aiming to deter the abuse of prescription drugs by making the dosage forms difficult to manipulate or extract the opioids. Assessments are required to evaluate the performance of the drugs through different routes including injection, ingestion, and insufflation and also when the drugs are manipulated. Chewing is the easiest and most convenient way to manipulate the drugs and deserves investigation. Chewing is one of the most complex bioprocesses, where the ingested materials are subject to periodic tooth crushing, mixed through the tongue, and lubricated and softened by the saliva. Inter- and intra-subject variations in chewing patterns may result in different chewing performances. The purpose of this study is to use a chewing simulator to assess the deterrent properties of tablets made of polyethylene oxide (PEO). The simulator can mimic human molar grinding with variable chewing parameters including molar trajectory, chewing frequency, and saliva flow rate. To investigate the effects of these parameters, the sizes of the chewed tablet particles and the chewing force were measured to evaluate the chewing performance. Thirty-four out of forty tablets were broken into pieces. The results suggested that the simulator can chew the tablets into smaller particles and that the molar trajectory and saliva flow rate had significant effect on reducing the size of the particles by analysis of variance (ANOVA) while the effect of chewing frequency was not clear. Additionally, chewing force can work as an indicator of the chewing performance.

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High molar mass polyethylene oxide (HM-PEO) is commonly used to enhance the mechanical strength of solid oral opioid drug products to deter abuse. Because the properties of PEO depend on molar mass distribution, accurately determining the molar mass distribution is a necessary part of understanding PEO's role in abuse-deterrent formulations (ADF). In this study, an asymmetrical flow field-flow fractionation (AF4) analytical procedure was developed to characterize PEO polymers with nominal molar masses of 1, 4 or 7 MDa as well as those from in-house prepared placebo ADF. The placebo ADF were manufactured using direct compress or hot-melt-extrusion methods, and subjected to physical manipulation, such as heating and grinding before measurement by AF4 were performed. The molar mass distribution characterized by AF4 revealed that PEO was sensitive to thermal stress, exhibiting decreased molar mass with increased heat exposure. The optimized AF4 method was deemed suitable for characterizing HM-PEO, offering adequate dynamic separation range for PEO with molar mass from 100 kDa to approximately 10 MDa.

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Opioid medications play a vital role in treating moderate to severe pain. Unfortunately, many drug misusers and abusers attempt to alter the formulations or properties of these drugs by manipulation, (e.g., crushing, chewing, smoking, snorting, injecting). The intravenous (IV) route is most dangerous to abusers, as the drugs directly enter the circulatory system and produce intense euphoria. To obtain a full understanding of the impact of syringe factors (e.g., needle gauge size, needle length, syringe barrel size), on the ease of injection, we undertook a comprehensive assessment of syringeability and injectability of manipulated abuse-deterrent formulations (ADFs). A texture analyzer-based testing method was developed for the measurement of the resistance force of pulling, holding, and pushing phases of injections. Results showed that the finer needle gauge sizes required higher injection force to withdraw drug solutions. In addition, the syringed liquid volume was highly dependent on needle gauge size, holding time, and sample viscosity. In most cases, a lower needle gauge number and a longer holding time increased the syringed volume. Needle length was highly correlated to injection force (R2 = 0.99). Using longer needles to inject drug solution requires greater force. Furthermore, large barrel size was correlated to pushing force (R2 = 0.99); thus, increasing the difficulty of pushing the plunger of a large syringe with one hand. Finally, relationships between injection force, sample viscosity, and testing conditions were elucidated using a mathematical model, which could be used in the future to assess and predict injection force of solution samples.

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Pharmaceutical opioid dosage forms are commonly misused via an oral route in non-manipulated form, i.e., overdose in intact form, or manipulated form, i.e., after crushing the dosage form, and also via the non-oral route in manipulated form, particularly the parenteral or nasal route. To assess the self-regulated anti-overdose property, crushing strength, extractability, and syringeability of the developed drug delivery system by in vitro laboratory studies. Tapentadol HCl drug particulates fabricated using different polymers were assessed for extractability studies in 25 ml of water at room temperature (RT) and at > 90°C. Crushing strength was assessed by grinding the drug particulates in a mortar and pestle and a coffee grinder for 1 min. For syringeability, an attempt was made to withdraw the drug mixture using a 1 ml insulin syringe for 1 min. To assess the self-regulated anti-overdose property, in vitro dissolution testing on a single-capsule per dissolution vessel (normal condition) and four-capsules per dissolution vessel (overdose condition) was performed. POLYOX, Natrosol, and Blanose-containing drug particles retarded drug extraction by > 80% at RT and > 90°C. After 1 min of grinding in a mortar and pestle and a coffee grinder, crushed POLYOX-containing drug particulates were retained at > 99% on the ASTM-170# screen. The attempt to withdraw the viscous mixture of drug formulation prepared with 5 ml of water for 1 min using a 1 ml insulin syringe was unsuccessful. In dissolution studies, more than 90% of the drug was released in normal conditions, and more than 90% of the drug was retarded in overdose conditions. In vitro laboratory studies demonstrate that the developed self-regulated anti-overdose crush-resistant drug delivery system may deter misuse via oral and non-oral routes.

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Opioids are commonly prescribed across the United States (US) for pain relief, despite their highly addictive nature that often leads to abuse and overdose deaths. Abuse deterrent formulations (ADFs) for prescription opioids make the non-therapeutic use of these drugs more difficult and less satisfying. Although approximately one-third of surveyed abusers in the US reported smoking opioids, to our knowledge, no commercialized ADF effectively prevents opioid smoking. Here, we report a novel approach to deter smoking of a model prescription opioid drug, thebaine (THB), by using polymer blend microspheres (MS) comprising polylactic acid (PLA) and polycaprolactone (PCL). We utilized high-performance liquid chromatography (HPLC) and thermogravimetric analysis (TGA) to test the ability of PLA-PCL MS to limit the escape of vaporized THB. Additionally, we compared the abuse-deterrent potential of PLA-PCL MS to that of activated carbon (AC) and mesoporous silica (MPS), two materials with excellent drug-adsorbing properties. Our MS formulation was effective in reducing the amount of both active drug and thermal degradation products in the vapor generated upon heating of THB. These results support that PLA-PCL microspheres can be co-formulated in a tablet with common prescription opioids to deter their abuse via the smoking route.

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COVID19 has caused a significant socioeconomic burden worldwide. Opioid crisis was further intensified with the increasing number of opioid overdose/misuse related deaths in last two years. Abusers have adopted newer/efficient methods for manipulating and abusing commercial opioid formulations. Food and Drug Administration (FDA) has been strategizing tirelessly to prevent misuse/abuse of prescription opioids. One of the strategies is to develop an abuse deterrent formulation (ADF). The current study aims to develop a novel 3D printed drug-releasing capsule shell filled with an aversion liquid (3D-RECAL). Primarily, metformin hydrochloride (MT, model drug) loaded printable filaments of polyvinyl alcohol was prepared using hot melt extrusion. Following extrusion, a 3D printed capsule shell was designed and fabricated using a single nozzle fuse deposition modelling 3D printer. An aversion liquid to be filled in 3D-RECAL capsules was prepared by combining sudan black and sodium polyacrylamide starch in oil base. Mechanical analysis of extruded filaments suggested that the filaments with 20%w/w MT had a higher mechanical strength compared to other drug loadings. Instantaneous gelling and large black non-snortable particles were formed during solvent extraction and physical manipulation studies, respectively. Due to the drug being embedded in the capsule shell, MT release was immediately started with >85% of MT release within 45 mins in 0.1 N HCl. Due to the everlasting need for the newer efficient ADF technologies, 3D-RECAL can be a step in the right direction towards saving lives, providing safe and effective measures to deterring abusers.

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Poly (ethylene oxide) (PEO) has been widely used in abuse-deterrent formulations (ADFs) to increase tablet hardness. Previous studies have shown that formulation variables such as processing conditions and particle size of PEO can affect ADF performance in drug extraction efficiency. This work aims to understand the effect of PEO grades and sources on the compaction characteristics of model ADFs. PEOs from Dow Chemical and Sumitomo Chemical with different molecular weights were examined using a Styl'One compaction simulator at slow, medium, and fast tableting speeds. Particle-size distribution, thermal behavior, tabletability, compressibility using the Heckel model, compactibility, and elastic recovery were determined and compared between the neat PEOs and model ADFs. Multivariate linear regression was performed to understand the effect of compression conditions and PEO grades and sources. Our results show that neat PEOs with high molecular weight exhibit high tabletability. The source of neat PEOs contributes to the difference in tabletability, out-die compressibility, compactibility, and elastic recovery. However, the influence of the PEO source on tabletability and compactibility decreases after adding the model drug. In our model ADFs, tablets using PEOs with high molecular weight have high crushing strength, and tablets using PEOs from Dow Chemical display low elastic recovery.

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The objective of present study is to develop bilayer abuse-deterrent extended-release tablets (ADERTs) using propranolol HCl as model drug for opioids overdose crisis. Bilayer ADERTs were fabricated by direct compression and formulated with polymer matrix in extended-release drug layer coupled with alkalizing and aversive agents in fast-disintegrating pH modifying layer. Various alkalizing agents, like magnesium hydroxide, aluminum hydroxide, calcium carbonate, and calcium hydroxide, were evaluated for their abuse-deterrent potential via in-vitro drug release and extraction studies. Based on the outcomes, magnesium hydroxide was selected as an alkalizing agent, since it raised the pH of dissolving media near to pKa of the drug studied in this investigation. The formulated bilayer ADERTs with magnesium hydroxide provided similar drug release profiles as compared to conventional extended-release tablets for single-unit ingestion. However, upon ingestion of multiple-unit bilayer ADERTs, the fast-disintegrating pH modifying layer increases pH of dissolving media, while extended-release layer increases micro-environmental pH within tablets. Retarding drug release owing to low solubility of basic drug at higher pH was observed. Therefore, the application of alkalizing agent has impact on pH-dependent solubility of drug like opioids and demonstrate its useful potential to be incorporated in bilayer ADERTs for opioids overdose crisis.

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Death from an accidental or intentional overdose of sleeping tablets has increased exponentially in the USA. Furthermore, the simultaneous consumption of sleeping tablets with alcoholic beverages not only intensifies the effect of sleeping tablets but also leads to blackouts, sleepwalking, and death in many cases. In this article, we proposed a unique and innovative technology to prevent multi-tablet and alcohol-associated abuse of sleeping tablet. Agonist- and antagonist-loaded polymeric filaments of appropriate Eudragit® polymers were prepared using hot melt extrusion. Metoprolol tartrate and hydrochlorothiazide were used as model drugs in place of zolpidem tartrate (agonist-BCS class I) and flumazenil (antagonist-BCS class IV), respectively. Crushed filaments were converted into a tablet with a novel rapidly soluble co-processed alkalizing agent. Dissolution studies of single tablet and multiple tablets (5) in fasted state simulated gastric fluid (FaSSGF) confirmed that the release of the agonist was significantly (p < 0.0001) reduced in multi-tablet dissolution. Furthermore, the release of antagonist was significantly higher when tablet was exposed to FaSSGF+20% ethanol and various alcoholic beverages. Thus, appropriate use of Eudragit® polymer's chemistry could help design a tablet to prevent the release of agonist in case of overdose and simultaneous release of antagonist when consumed with alcohol.

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Prescription opioid abuse also known as opioid epidemic has been an ever-growing problem in the United States. It has been associated with numerous emergencies and mortality with significant burden on healthcare system. Amongst various approaches proposed by FDA, development of an abuse deterrent formulation is one of the key strategies to address this opioid crisis. Existing abuse deterrent technologies have several deficiencies which enable abusers to manipulate/bypass it. The proposed study aims to develop and optimize an abuse-deterrent immediate release bilayer film (ADRIFT). A novel material with distinct process engineering was employed to achieve immediate drug release with nasal/intravenous abuse deterrent properties. Drug layer (DL) composed of a rapidly soluble film forming polymer - polyvinyl alcohol (PVA) while various solvent system and biocompatible polymers were screened to incorporate sodium polyacrylamide starch (KPX) in abuse deterrent layer (AL). Mechanical analysis of ADRIFT suggested that individual excipients played significant role in improving the mechanical strength of ADRIFT. Spontaneous formation of highly viscous gels in different solvents and resistance to mill into fine powder support the injection and snorting abuse deterrent potential, respectively. Immediate release (>85% release) was achieved in < 30mins, indicating that there was no interference between either of the layers towards their specific purposes. Hence, our novel yet simple ADRIFT oral film technology could potentially be useful in manufacturing immediate release abuse-deterrent formulation of opioid drugs.

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The objective of the present study was to develop extended-release (ER) hot-melt extruded (HME) abuse-deterrent pellets of acetaminophen, a model drug, by utilizing high molecular weight polyethylene oxide (PEO) and gelling agents (xanthan gum, guar gum, and gellan gum). The HME pellets were evaluated for their abuse-deterrence (AD) potential by Category-1 laboratory in-vitro evaluation parameters, including particle size reduction (PSR), small volume extraction, dissolution, viscosity, syringeability, and injectability. Further, the pellets were investigated for resistance to physical (crushing) and thermal (oven and microwave) manipulation to evaluate the strength of the AD properties. Physical manipulation studies demonstrated that the pellets were intact, extremely hard, and resistant to PSR and manipulation to bypass ER properties. Dissolution of all intact and physically manipulated pellets led to complete drug release within 8 h, and resistance to dose-dumping in 40% ethanol was observed. The drug extraction was <50% in 10 mL of ingestible and non-ingestible solvents under static, agitation, and thermal manipulation conditions with an incubation time of 30 min. The PEO/xanthan gum-based formulation showed higher viscosity, syringe and injection forces, and lower syringeable volume in all manipulation conditions compared with plain PEO pellets. These findings supported the AD potential of PEO and xanthan gum pellets against intravenous abuse.

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PURPOSE: Xtampza ER® (XER) is a long-acting oxycodone formulation which was designed to be abuse-deterrent and to overcome capsule-swallowing issues. This pilot study evaluated the effectiveness of XER at reducing swallowing difficulty while providing effective analgesia in the setting of chronic pain. SUBJECTS AND METHODS: Eleven subjects with chronic pain who reported pill-swallowing difficulty were enrolled in a 6-week uncontrolled open-label pilot study in which their prescribed daily opioid medication was converted to XER. Swallowing difficulty, pain intensity, opioid satisfaction, and secondary indicators of pain response were recorded for subjects throughout the study. RESULTS: Both swallowing difficulty and opioid satisfaction (XER vs baseline opioid) improved significantly over the 6-week study period (p < 0.05), while pain intensity ratings demonstrated no significant change. No significant change was noted in any of the secondary pain, mental health, or physical function measures after conversion to XER compared to baseline. CONCLUSION: Subjects experienced improvement in both swallowing and opioid medication satisfaction after conversion to XER with no significant change in pain intensity and related measures.

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INTRODUCTION AND AIMS: We aimed to evaluate and compare the effect of different intravenous doses of naloxone on reinforcing effect of intravenous buprenorphine (2 mg) in patients stabilised on sublingual buprenorphine. DESIGN AND METHODS: This is a double-blind, within-subject, randomised, crossover study. Opioid-dependent patients, with history of intravenous drug use, stabilised on buprenorphine maintenance treatment were included after informed consent (n = 14). We administered and assessed the reinforcing effects of six test conditions: buprenorphine and naloxone co-formulation (BNX) in 4:1, 2:1 and 1:1 dose ratio (i.e. buprenorphine 2 mg + naloxone 0.5, 1 and 2 mg, respectively), buprenorphine alone (2 mg), pheniramine maleate (45.5 mg) and saline at 24 hourly intervals. RESULTS: No significant opioid withdrawals were precipitated during any test conditions. Compared to buprenorphine alone, 4:1 BNX had comparable euphoria, drug recognition, subjective opiate sensations and drug liking (P > 0.05); 2:1 BNX condition had significantly different subjective euphoria (P = 0.001), opioid recognition (P = 0.002), subjective opioid sensations at 60 min (P = 0.027) and drug liking (P < 0.001), while 1:1 BNX had significantly different objective euphoria (P = 0.002), opioid recognition (P = 0.030), subjective opioid sensations (P < 0.001) and drug liking (P < 0.001). No significant difference was noted on sedation scores between buprenorphine alone and all three combinations of BNX. DISCUSSION AND CONCLUSIONS: The 4:1 BNX condition did not impact the reinforcing agonist effects of buprenorphine. None of the intravenous BNX combination ratios precipitated opioid withdrawals. Findings emphasise the need for exploring more abuse deterrent mechanisms.

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BACKGROUND: Significant public health concerns exist regarding the misuse and abuse of prescription opioids. Abuse-deterrent formulation (ADF) opioids may be leveraged as an important tool for combating the current opioid crisis. OBJECTIVES: To evaluate the relationships between ADF opioid formulary coverage and the ADF utilization rate, the risk for opioid abuse or overdose, opioid abuse or overdose-related healthcare resource utilization, and medical costs within a calendar year. METHODS: This cross-sectional multiyear panel study included adults prescribed an opioid medication in 2015 or 2016. We analyzed the medical and pharmacy claims linked to health plan benefit design data. An ADF opioid-including reformulated oxycodone hydrochloride (HCl) controlled-release (CR; reformulated OxyContin), morphine sulfate and naltrexone HCl extended-release (ER; Embeda), and hydrocodone bitartrate ER (Hysingla ER)-was considered covered if it was listed on the health plan's formulary. Generalized linear models were used to assess the association between ADF opioid formulary coverage and the study outcomes. RESULTS: Of 1,350,607 eligible patients, those enrolled in health plans with coverage of ADF opioids were more likely to fill a prescription for an ADF opioid than those enrolled in plans that did not cover ADF opioids. The risk for opioid abuse or overdose was significantly lower among patients enrolled in plans with broader ADF coverage (adjusted odds ratio [OR], 0.91; 95% confidence interval [CI], 0.86-0.95 for oxycodone HCl CR only vs no ADF coverage; adjusted OR, 0.70; 95% CI, 0.67-0.73 for oxycodone HCl CR plus ≥1 ADF opiods vs no ADF; adjusted OR, 0.77; 95% CI, 0.73-0.81 for oxycodone HCl CR plus ≥1 ADF opiods vs oxycodone HCl CR only; all P <.0001). Approximately 15% and 25% reductions in the opioid abuse or overdose-related hospitalization rate and medical costs were observed for those in the oxycodone HCl CR plus ≥1 ADF opioids coverage group versus those without ADF opioid coverage. CONCLUSIONS: Broad formulary coverage of ADF opioids is associated with reduced rates of opioid abuse or overdose in real-world managed care populations. Health plan administrators and policymakers may consider improving the formulary coverage of ADF opioids as a strategy to ensure appropriate patient access to necessary pain medications while mitigating risk for opioid abuse or overdose.

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The introduction of abuse-deterrent OxyContin in 2010 was intended to reduce its misuse by making it more tamper resistant. However, some studies have suggested that this reformulation might have had unintended consequences, such as increases in heroin-related deaths. We used the 2005-2014 cross-sectional U.S. National Survey on Drug Use and Health to explore the impact of this reformulation on intermediate outcomes that precede heroin-related deaths for individuals with a history of OxyContin misuse. Our study sample consisted of adults who misused any prescription pain reliever prior to the reformulation of OxyContin (n = 81,400). Those who misused OxyContin prior to the reformulation were considered the exposed group and those who misused other prescription pain relievers prior to the reformulation were considered the unexposed group. We employed multivariate logistic regression under a difference-in-differences framework to examine the effect of the reformulation on five dichotomous outcomes: prescription pain reliever misuse; prescription pain reliever use disorder; heroin use; heroin use disorder; and heroin initiation. We found a net reduction in the odds of prescription pain reliever misuse (OR:0.791, p < 0.001) and heroin initiation (OR:0.422, p = 0.011) after the reformulation for the exposed group relative to the unexposed group. We found no statistically significant effects of the reformulation on prescription pain reliever use disorder (OR: 0.934, p = 0.524), heroin use (OR: 1.014p = 0.941), and heroin use disorder (OR: 1.063, p = 0.804). Thus, the reformulation of OxyContin appears to have reduced prescription pain reliever misuse without contributing to relatively greater new heroin use among those who misused OxyContin prior to the reformulation.

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