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1.
Gergely Hetényi Janine Griesser Isabelle Nardin Andreas Bernkop-Schnürch 《Pharmaceutical research》2017,34(6):1171-1179
Purpose
The aim of the study was to create novel mucoadhesive drug delivery systems by incorporating amphiphilic hydrophobically modified, thiolated and preactivated polymers (preactivated thiomers) into self-emulsifying drug delivery systems (SEDDS).Methods
L-Cysteine methyl ester was covalently attached to the polymeric backbone of Pemulen TR-2 and preactivated using 2-mercaptonicotinic acid (2-MNA). These thiomers were incorporated in a concentration of 0.3% (w/v) into SEDDS. The size distribution and the zeta potential of the emulsions were evaluated by dynamic light scattering. Mucoadhesive properties of thiomers-SEDDS spiked with FDA (fluorescein diacetate) were examined utilizing rheological measurement, permeation studies and in vitro residence time study on porcine mucosa. Cell viability tests were additionally performed.Results
734 ± 58 μmol L-Cysteine methyl ester and 562 ± 71 μmol 2-MNA could be attached per gram polymer of Pemulen TR-2. Emulsions exhibited a droplet size range between 180 and 270 nm. Blank SEDDS possessed a zeta potential value between ?5.7 and ?8.6 mV, whereas thiomers-SEDDS between ?14.6 and ?17.2 mV. Viscous modulus of thiomer and preactivated thiomer containing SEDDS-mucus mixture was 8-fold and 11-fold increased in comparison to reference. The amount of FDA permeated the mucus layer was 2-fold lower in case of thiomers-SEDDS compared to blank SEDDS. A prolonged residence time was observed for thiomers-SEDDS over 45 min. During cell viability studies no severe toxic effects were detected.Conclusion
The novel developed SEDDS with incorporated thiomers might be a promising tool for mucoadhesive oral drug delivery.2.
Gamal M. Zayed Islam Kamal Wael A. Abdelhafez Fahd M. Alsharif Mohamed A. Amin Montaser Sh. A. Shaykoon Hatem A. Sarhan Ahmed M. Abdelsalam 《Pharmaceutical research》2018,35(6):112
Purpose
The selective delivery of chemotherapeutic agent to the affected area is mainly dependent on the mode of drug loading within the delivery system. This study aims to compare the physical method to the chemical method on the efficiency of loading DOX.HCl to GNPs and the specific release of the loaded drug at certain tissue.Method
Bifunctional polyethylene glycol with two different functionalities, the alkanethiol and the carboxyl group terminals, was synthesized. Then, DOX·HCl was covalently linked via hydrazone bond, a pH sensitive bond, to the carboxyl functional group and the produced polymer was used to prepare drug functionalized nanoparticles. Another group of GNPs was coated with carboxyl containing polymer; loading the drug into this system by the means of electrostatic adsorption. Finally, the prepared system were characterized with respect to size, shape and drug release in acetate buffer pH 5 and PBS pH 7.4 Also, the effect of DOX.HCl loaded systems on cell viability was assessed using MCF-7 breast cancer cell line.Results
The prepared nanoparticles were spherical in shape, small in size and monodisperse. The release rate of the chemically bound drug in the acidic pH was higher than the electrostatically adsorbed one. Moreover, both systems show little release at pH 7.4. Finally, cytotoxicity profiles against human breast adenocarcinoma cell line (MCF-7) exhibited greater cytotoxicity of the chemically bound drug over the electrostatically adsorbed one.Conclusion
Chemical binding of DOX·HCl to the carboxyl group of PEG coating GNPs selectively delivers high amount of drug to tumour-affected tissue which leads to reducing the unwanted effects of the drug in the non-affected ones.3.
Wenbo Zhan Davis Yohanes Arifin Timothy KY Lee Chi-Hwa Wang 《Pharmaceutical research》2017,34(4):860-873
Purpose
Convection enhanced delivery (CED) is a promising method of anticancer treatment to bypass the blood–brain barrier. This paper is aimed to study drug transport under different CED operating conditions.Methods
The convection enhanced delivery of chemotherapeutics to an intact and a remnant brain tumour after resection is investigated by means of mathematical modelling of the key physical and physiological processes of drug transport. Realistic models of brain tumour and its holding tissue are reconstructed from magnetic resonance images. Mathematical modelling is performed for the delivery of carmustine and paclitaxel with different infusion rates, solution concentrations and locations of infusion site.Results
Modelling predications show that drug penetration can be improved by raising the infusion rate and the infusion solution concentration. The delivery of carmustine with CED is highly localised. High drug concentration only can be achieved around the infusion site. The transport of paclitaxel is more sensitive to CED-enhanced interstitial fluid as compared to carmustine, with deeper penetration into tumour interior. Infusing paclitaxel in the upstream of interstitial fluid flow leads to high spatial averaged concentration and relatively uniform distribution.Conclusion
Results obtained in this study can be used to guide the design and optimisation of CED treatment regimens.4.
Purpose
The objective of this study was to use a recently developed nasal dissolution, absorption, and clearance (DAC) model to evaluate the extent to which suspended drug particle size influences nasal epithelial drug absorption for a spray product.Methods
Computational fluid dynamics (CFD) simulations of mucociliary clearance and drug dissolution were used to calculate total and microscale epithelial absorption of drug delivered with a nasal spray pump. Ranges of suspended particle sizes, drug solubilities, and partition coefficients were evaluated.Results
Considering mometasone furoate as an example, suspended drug particle sizes in the range of 1-5 μm did not affect the total nasal epithelial uptake. However, the microscale absorption of suspended drug particles with low solubilities was affected by particle size and this controlled the extent to which the drug penetrated into the distal nasal regions.Conclusions
The nasal-DAC model was demonstrated to be a useful tool in determining the nasal exposure of spray formulations with different drug particle sizes and solubilities. Furthermore, the model illustrated a new strategy for topical nasal drug delivery in which drug particle size is selected to increase the region of epithelial surface exposure using mucociliary clearance while minimizing the drug dose exiting the nasopharynx.5.
Wei-Lun Tang Weihsu Claire Chen Aniruddha Roy Elijus Undzys Shyh-Dar Li 《Pharmaceutical research》2016,33(5):1104-1114
Purpose
This study was aimed at developing a new active loading method to stably encapsulate staurosporine (STS), a water insoluble drug, into lipid-based nanoparticles (LNPs) for drug targeting to tumors.Methods
A limited amount of DMSO was included during the active loading process to prevent precipitation and facilitate the loading of insoluble STS into the aqueous core of a LNP. The drug loading kinetics under various conditions was studied and the STS-LNPs were characterized by size, drug-to-lipid ratio, drug release kinetics and in vitro potency. The antitumor efficacy of the STS-LNPs was compared with free STS in a mouse model.Results
The drug loading efficiency reached 100% within 15 min of incubation at a drug-to-lipid ratio of 0.31 (mol) via an ammonium gradient. STS formed nano-aggregates inside the aqueous core of the LNPs and was stably retained upon storage and in the presence of serum. A 3-fold higher dose of the STS-LNPs could be tolerated by BALB/c mice compared with free STS, leading to nearly complete growth inhibition of a multidrug resistant breast tumor, while free STS only exhibited moderate activity.Conclusion
This simple and efficient drug loading method produced a stable LNP formulation for STS that was effective for cancer treatment.6.
Christopher J. Morris Ghaith Aljayyoussi Omar Mansour Peter Griffiths Mark Gumbleton 《Pharmaceutical research》2017,34(12):2517-2531
Purpose
Polyamidoamine (PAMAM) dendrimers are a promising class of nanocarrier with applications in both small and large molecule drug delivery. Here we report a comprehensive evaluation of the uptake and transport pathways that contribute to the lung disposition of dendrimers.Methods
Anionic PAMAM dendrimers and control dextran probes were applied to an isolated perfused rat lung (IPRL) model and lung epithelial monolayers. Endocytosis pathways were examined in primary alveolar epithelial cultures by confocal microscopy. Molecular interactions of dendrimers with protein and lipid lung fluid components were studied using small angle neutron scattering (SANS).Results
Dendrimers were absorbed across the intact lung via a passive, size-dependent transport pathway at rates slower than dextrans of similar molecular sizes. SANS investigations of concentration-dependent PAMAM transport in the IPRL confirmed no aggregation of PAMAMs with either albumin or dipalmitoylphosphatidylcholine lung lining fluid components. Distinct endocytic compartments were identified within primary alveolar epithelial cells and their functionality in the rapid uptake of fluorescent dendrimers and model macromolecular probes was confirmed by co-localisation studies.Conclusions
PAMAM dendrimers display favourable lung biocompatibility but modest lung to blood absorption kinetics. These data support the investigation of dendrimer-based carriers for controlled-release drug delivery to the deep lung.7.
Purpose
Pulmonary antibiotic delivery is recommended as maintenance therapy for cystic fibrosis (CF) patients who experience chronic infections. However, abnormally thick and sticky mucus present in the respiratory tract of CF patients impairs mucus penetration and limits the efficacy of inhaled antibiotics. To overcome the obstacles of pulmonary antibiotic delivery, we have developed nanocomposite microparticles (nCmP) for the inhalation application of antibiotics in the form of dry powder aerosols.Methods
Azithromycin-loaded and rapamycin-loaded polymeric nanoparticles (NP) were prepared via nanoprecipitation and nCmP were prepared by spray drying and the physicochemical characteristics were evaluated.Results
The nanoparticles were 200 nm in diameter both before loading into and after redispersion from nCmP. The NP exhibited smooth, spherical morphology and the nCmP were corrugated spheres about 1 μm in diameter. Both drugs were successfully encapsulated into the NP and were released in a sustained manner. The NP were successfully loaded into nCmP with favorable encapsulation efficacy. All materials were stable at manufacturing and storage conditions and nCmP were in an amorphous state after spray drying. nCmP demonstrated desirable aerosol dispersion characteristics, allowing them to deposit into the deep lung regions for effective drug delivery.Conclusions
The described nCmP have the potential to overcome mucus-limited pulmonary delivery of antibiotics.8.
Purpose
The potential of electrochemical/temperature dual stimuli-responsive conducting polymer to be used as general drug delivery systems. It allows on-demand release of incorporated drug is kinetically investigated in real time.Methods
Online spectroscopic monitoring was used to investigate the electrochemically/thermally controlled release behavior of a model drug (naproxen) from drug-doped polypyrrole (DDPPy) film. Avrami’s equation has been used to study the kinetics and further analyzing has been carried out using the Arrhenius and the Eyring equations. Furthermore, drug release behavior, with two other electrochemical techniques was investigated.Results
It was observed both temperature and electrical stimuli increase the rate of release while electrical potential has a greater effect as revealed in the values of release rate constant (from 0.0068 to 0.018 min?1 at 37°C). It was also shown that a linear relationship exists between the applied electrical potentials and release activation parameters.Conclusion
The electronic properties of the conducting polymer has an important role in release kinetics, there might be a single mechanism with the same limiting step. In addition, it was demonstrated the rate of drug release from DDPPy dramatically depends on the amounts as well as modes of applying potential which provides enhanced control of drug-release kinetics which can be accelerated or even sustained.9.
Rationale
The view of smoking as an addiction to nicotine implies that nicotine is an addictive drug and a primary reinforcer. However, nicotine other than in tobacco does not appear to be very rewarding for smokers. This potential anomaly to the nicotine addiction thesis is resolved by the proposition that the reward associated with smoking depends on “high-nicotine boli.” According to the nicotine delivery kinetics hypothesis, smoked nicotine reaches the brain in 5–10 s in high concentrations, which provide reinforcing “hits” of nicotine to the brain.Objectives
Because of its essential role in the nicotine addiction thesis, this review set out to examine the current empirical basis of the nicotine delivery kinetics hypothesis.Materials and methods
We reviewed studies that bear on two questions: First, does nicotine from cigarettes reach the brain significantly faster than from other nicotine delivery devices? Second, is there a relationship between delivery kinetics and any rewarding effects of nicotine?Results
There is little empirical support for the nicotine delivery kinetics hypothesis. Several studies found that arterial nicotine levels associated with smoking are much lower than predicted by the nicotine delivery kinetics thesis and not higher than with other nicotine delivery devices. More importantly, comparisons of nicotine delivery devices with varying speeds of delivery do not suggest any correlation between nicotine delivery profile and subjective reward.Conclusions
This review indicates that the wide endorsement of the nicotine delivery kinetics hypothesis is unjustified. Critical research is required to resolve the anomalies within the nicotine addiction theory of smoking.10.
Amira El Merhie Laurent Navarro Xavier Delavenne Lara Leclerc Jérémie Pourchez 《Pharmaceutical research》2016,33(5):1074-1084
Purpose
Enhancement of intranasal sinus deposition involves nebulization of a drug superimposed by an acoustic airflow. We investigated the impact of fixed frequency versus frequency sweep acoustic airflow on the improvement of aerosolized drug penetration into maxillary sinuses.Methods
Fixed frequency and frequency sweep acoustic airflow were generated using a nebulizing system of variable frequency. The effect of sweep cycle and intensity variation was studied on the intranasal sinus deposition. We used a nasal replica created from CT scans using 3D printing. Sodium fluoride and gentamicin were chosen as markers.Results
Studies performed using fixed frequency acoustic airflow showed that each of maxillary sinuses of the nasal replica required specific frequency for the optimal aerosol deposition. Intranasal sinus drug deposition experiments under the effect of the frequency sweep acoustic airflow showed an optimal aerosol deposition into both maxillary sinus of the nasal replica. Studies on the effect of the duration of the sweep cycle showed that the shorter the cycle the better the deposition.Conclusions
We demonstrate the benefit of frequency sweep acoustic airflow on drug deposition into maxillary sinuses. However further in vivo studies have to be conducted since delivery rates cannot be obviously determined from a nasal replica.11.
Kamil Wlodarski Feng Zhang Tongzhou Liu Wieslaw Sawicki Thomas Kipping 《Pharmaceutical research》2018,35(1):16
Purpose
The first objective is to evaluate the feasibility of melt-extruding polyvinyl alcohol-based amorphous solid dispersions for oral drug delivery. The second objective is to investigate the miscibility between polyvinyl alcohol 4-88 and copovidone, and to characterize the properties of ternary itraconazole amorphous solid dispersions comprising both polymers.Methods
Samples were prepared using a co-rotating, twin-screw extruder. A solution precipitation study was conducted to compare the precipitation inhibition of polyvinyl alcohol against other commonly used polymers for amorphous solid dispersions. Miscibility between polyvinyl alcohol 4-88 and copovidone was determined using DSC and XRD analyses. All extrudates were characterized using DSC, XRD, and non-sink dissolution.Results
Polyvinyl alcohol demonstrated the highest capacity for inhibiting the precipitation of itraconazole. Itraconazole was found to be more soluble in copovidone (>30%) than in polyvinyl alcohol 4-88 (<5%) in binary extrudates. Polyvinyl alcohol and copovidone are miscible when the proportion of polyvinyl alcohol 4-88 does not exceed 30% (w/w). Compared to binary extrudates, the ternary extrudate demonstrated a higher degree of supersaturation and more sustained supersaturation of itraconazole in purified water and phosphate buffer pH 6.8 solution.Conclusion
As a surface-active material, polyvinyl alcohol was effective in inhibiting precipitation of itraconazole in aqueous media. Solubility of itraconazole in polyvinyl alcohol in solid state was limited because of the high polarity of the polymer. Ternary systems comprising a mixture of polyvinyl alcohol and copovidone demonstrated better supersaturation in aqueous media than binary systems. Ternary systems benefited from both the high solubilizing capacity of copovidone and high precipitation inhibition capacity of polyvinyl alcohol.12.
Huaqing Zhang Weiguang Chen Ziqiang Zhao Qiuling Dong Lifang Yin Jianping Zhou Yang Ding 《Journal of pharmaceutical innovation》2017,12(3):271-280
Purpose
We describe here a novel lyophilized nanosuspension technology in order to improve the dissolution rate and oral bioavailability of the insoluble drug P2X7 receptor antagonist (PRA), which is an effective antagonist to P2X7 receptor for non-steroidal anti-inflammatory.Methods
PRA-lyophilized nanosuspension (PRA-LNS) was fabricated by anti-solvent precipitation in combination with high pressure homogenization, and then lyophilized for prolonged storage. After preparations, various characterization experiments were performed including particle size, zeta potential, surface morphology, X-ray powder diffraction (XRPD), differential scanning calorimetry (DSC), in vitro dissolution study, and in vivo pharmacokinetic study.Results
The re-dissolved particle size of PRA-LNS was about 180~250 nm with uniform distribution, confirmed by TEM image. The drug PRA in nanosuspensions possessed crystalline form evaluated via XRPD and DSC analysis. The solubility of PRA-LNS in water was 1.52 times larger than PRA raw drug; in vitro dissolution tests showed that PRA-LNS could dissolve completely within 5 min, which is a significant improvement compared to the raw drug. The relative bioavailability of PRA-LNS is 290.70% compared to the raw drug and 177.94% compared to the physical mixture.Conclusions
PRA-LNS could easily re-disperse in water with increased solubility, enhanced oral bioavailability, and controllable production process.13.
Julie Babyar 《Journal of pharmaceutical innovation》2017,12(2):185-187
Purpose
The purpose of this perspective piece is to address the potential for drug and medical product innovation through sound regulation and strengthened international harmonization.Methods
Current literature, recommendations and guidelines in regulatory agencies assisted in this perspective review.Results
Multiple guidelines and recommendations provide for strategic planning and process improvement capabilities at local, national and international levels.Conclusions
Seeking best practice starts with identifying and improving individual nation drug regulatory bodies, including the US Food and Drug Administration (FDA). Inefficiency causes and process improvement solutions have been suggested and outlined in strategic plans at the FDA as well as with multiple stakeholder organizations and public-private partnerships. Cohesively, these groups should be tasked with formal, consistent updates on improvement as well as ongoing supportive research and evaluation of the changes implemented. Simultaneously, the international community has a tremendous opportunity to act on best practice for drug and medical product innovation by aligning sound and consistent approach to regulation.14.
Jacob Bouman Peter Belton Paul Venema Erik van der Linden Renko de Vries Sheng Qi 《Pharmaceutical research》2016,33(3):673-685
Purpose
In earlier studies, the corn protein zein is found to be suitable as a sustained release agent, yet the range of drugs for which zein has been studied remains small. Here, zein is used as a sole excipient for drugs differing in hydrophobicity and isoelectric point: indomethacin, paracetamol and ranitidine.Methods
Caplets were prepared by hot-melt extrusion (HME) and injection moulding (IM). Each of the three model drugs were tested on two drug loadings in various dissolution media. The physical state of the drug, microstructure and hydration behaviour were investigated to build up understanding for the release behaviour from a zein based matrix for drug delivery.Results
Drug crystallinity of the caplets increases with drug hydrophobicity. For ranitidine and indomethacin, swelling rates, swelling capacity and release rates were pH dependent as a consequence of the presence of charged groups on the drug molecules. Both hydration rates and release rates could be approached by existing models.Conclusion
The drug state and pH dependant electrostatic interactions are hypothesised to influence release kinetics. Both factors can potentially be used to influence release kinetics release, thereby broadening the horizon for zein as a tuneable release agent.15.
Yanghuan Ye Tianpeng Zhang Wan Li Hua Sun Danyi Lu Baojian Wu Xingwang Zhang 《Pharmaceutical research》2016,33(3):792-803
Purpose
Oral therapy with raloxifene (RXF), an amphiphobic drug for remedy of the postmenopausal osteoporosis and estrogen-dependent breast cancer, is less effective due to its poor bioavailability (2% or so). This work aimed to devise mesoporous carbon nanospheres (MCNs) for oral delivery of RXF and evaluate their performance in bioavailability enhancement and lymphatic transport.Methods
Glucose-based MCNs were fabricated by hydrothermal reaction followed by high-temperature activation. RXF-loaded MCNs (RXF-MCNs) were prepared by solvent-diffusion/high-pressure homogenization and stabilized by phospholipid. RXF-MCNs were fully characterized by particle size, morphology, in vitro drug release and metabolism, in vivo pharmacokinetics and lymphatic transport, and ex vivo fluorescent imaging.Results
The prepared RXF-MCNs were 230 nm around in particle size, showing high entrapment efficiency (95.35%) and satisfactory physical stability. The oral bioavailability of RXF was enhanced by 2.07 folds through MCNs compared with RXF suspensions in rats. It was shown that reduced intestinal metabolism due to entrapment into MCNs, active transcellular uptake and increased lymphatic transport were responsible for enhanced bioavailability as a result of transport improvement.Conclusions
The results suggest that MCNs are suitable nanocarriers for oral delivery of poorly bioavailable RXF.16.
Purpose
To investigate the sustained ocular delivery of small and large drug molecules from photocrosslinked poly(ethylene glycol) diacrylate (PEGDA) implants with varying pore forming agents.Methods
Triamcinolone acetonide and ovalbumin loaded photocrosslinked PEGDA implants, with or without pore-forming agents, were fabricated and characterised for chemical, mechanical, swelling, network parameters, as well as drug release and biocompatibility. HPLC-based analytical methods were employed for analysis of two molecules; ELISA was used to demonstrate bioactivity of ovalbumin.Results
Regardless of PEGDA molecular weight or pore former composition all implants loaded with triamcinolone acetonide released significantly faster than those loaded with ovalbumin. Higher molecular weight PEGDA systems (700 Da) resulted in faster drug release of triamcinolone acetonide than their 250 Da counterpart. All ovalbumin released over the 56-day time period was found to be bioactive. Increasing PEGDA molecular weight resulted in increased system swelling, decreased crosslink density (Ve), increased polymer-water interaction parameter (χ), increased average molecular weight between crosslinks (Mc) and increased mesh size (ε). SEM studies showed the porosity of implants increased with increasing PEGDA molecular weight. Biocompatibility showed both PEGDA molecular weight implants were non-toxic when exposed to retinal epithelial cells over a 7-day period.Conclusion
Photocrosslinked PEGDA implant based systems are capable of controlled drug release of both small and large drug molecules through adaptations in the polymer system network. We are currently continuing evaluation of these systems as potential sustained drug delivery devices.17.
Shannon Ruzycki Mark Yarema Hossein Sadrzadeh Alain Tremblay 《Journal of medical toxicology》2016,12(2):185-188
Context
Increasing rates of opioid abuse, particularly fentanyl, may lead to more presentations of unusual effects of opioid toxicity. Diffuse alveolar hemorrhage is a rare complication of fentanyl overdose.Case Details
A 45-year-old male presented in hypoxic respiratory failure secondary to diffuse alveolar hemorrhage requiring intubation. Comprehensive drug screening detected fentanyl without exposure to cocaine. Further history upon the patient’s recovery revealed exposure to snorted fentanyl powder immediately prior to presentation.Discussion
Diffuse alveolar hemorrhage is a potential, though rare, presentation of opioid intoxication.Conclusions
Recognition of less common complications of opioid abuse such as diffuse alveolar hemorrhage is important in proper management of overdoses.18.
Kohsaku Kawakami Aoi Miyazaki Mayuko Fukushima Keiko Sato Yuko Yamamura Kohta Mohri Shinji Sakuma 《Pharmaceutical research》2017,34(1):208-216
Purpose
A novel drug delivery platform, mesoporous phospholipid particle (MPP), is introduced. Its physicochemical properties and ability as a carrier for enhancing oral absorption of poorly soluble drugs are discussed.Methods
MPP was prepared through freeze-drying a cyclohexane/t-butyl alcohol solution of phosphatidylcholine. Its basic properties were revealed using scanning electron microscopy, x-ray diffraction, thermal analysis, hygroscopicity measurement, and so on. Fenofibrate was loaded to MPP as a poorly soluble model drug, and effect of MPP on the oral absorption behavior was observed.Results
MPP is spherical in shape with a diameter typically in the range of 10–15 μm and a wide surface area that exceeds 10 m2/g. It has a bilayer structure that may accommodate hydrophobic drugs in the acyl chain region. When fenofibrate was loaded in MPP as a model drug, it existed partially in a crystalline state and improvement in the dissolution behavior was achieved in the presence of a surfactant, because of the formation of mixed micelles composed of phospholipids and surfactants in the dissolution media. MPP greatly improved the oral absorption of fenofibrate compared to that of the crystalline drug and its efficacy was almost equivalent to that of an amorphous drug dispersion.Conclusion
MPP is a promising option for improving the oral absorption of poorly soluble drugs based on the novel mechanism of dissolution improvement.19.
Rizzo M Lamers CT Sauer CG Ramaekers JG Bechara A Andersen GJ 《Psychopharmacology》2005,179(3):559-566
Rationale
Illicit drug use can increase driver crash risk due to loss of control over vehicle trajectory. This study asks, does recreational use of ±3,4-Methylenedioxymethamphetamine (MDMA; ecstasy) and tetrahydrocannabinol (THC; marijuana) impair cognitive processes that help direct our safe movement through the world?Objective
This study assesses the residual effects of combined MDMA/THC use, and of THC use alone, upon perceived trajectory of travel.Methods
Perception of self-motion, or heading, from optical flow patterns was assessed using stimuli comprising random dot ground planes presented at three different densities and eight heading angles (1, 2, 4 and 8° to the left or right). On each trial, subjects reported if direction of travel was to the left or the right.Results
Results showed impairments in both drug groups, with the MDMA/THC group performing the worst.Conclusions
The finding that these psychoactive agents adversely affect heading perception, even in recently abstinent users, raises potential concerns about MDMA use and driving ability.20.