[Comparative clinical study of the pharmacokinetics and bioequivalence of the combined drug Mioreol and the combined use of mono-drugs containing donepezil and memantine]. / Sravnitel'noe klinicheskoe issledovanie farmakokinetiki i bioekvivalentnosti kombinirovannogo lekarstvennogo preparata Mioreol i sovmestnogo primeneniya monopreparatov, soderzhashchikh donepezil i memantin.

OBJECTIVE: The study of bioequivalence and safety of the fixed combination of the drug Mioreol (Donepezil + Memantine, 10 mg + 20 mg) in relation to the combined use of Yasnal 10 mg and Akatinol Memantin 20 mg. MATERIAL AND METHODS: The safety analysis study included 36 male (n=8) and female (n=10) subjects, sexes (age 26.3±7.1 years, body mass index (BMI) 23.0±2.8 kg/m2). In the study for the analysis of pharmacokinetics - 31 male (n=8) and female (n=10) persons (age 26.5±7.9 years, BMI 23.5±3.1 kg/m2). The method used high performance liquid chromatography with tandem mass spectrometric detection. Pharmacokinetic analysis was carried out using Phoenix WinNonlin software («CERTARA¼, Pharsight, USA) v. 8.2. Statistical analysis of the obtained data was performed based on the assumption of a lognormal distribution of parameters AUC0-72 and Cmax. RESULTS: Geometric mean ratio for key pharmacokinetic parameters (AUC0-t, AUC0-####sub/sub#### and Cmax) donepezil and memantine are close to 100% and 90%, measuring ranges are within acceptable limits for bioequivalent drugs range (80-125%) for both active ingredients. Within-subject variability (CVintra) for donepezil was 9.34% (Cmax), 6.12% (AUC0-t), and for memantine - 8.13% (Cmax), 6.67% (AUC0-t).The average profiles of the pharmacokinetic curves of donepezil and memantine when taking the test drug and the combination of comparator drugs have similar forms. Fixed combination Mioreol (Donepezil + Memantine, drug, 10 mg + 20 mg) and Yasnal preparations 10 mg (Krka JSC, d.d., Novo Mesto) and Akatinol Memantine 20 mg («Merz Pharma GmbH and Co. KGaA¼, Germany) when taken together are bioequivalent. CONCLUSION: The results of the study allow us to recommend Mioreol for further clinical study and wide practical application.

Memantine and its benefits for cancer, cardiovascular and neurological disorders.

Memantine is a non-competitive N-methyl-D-aspartate (NMDA) receptor antagonist that was initially indicated for the treatment of moderate to severe Alzheimer's disease. It is now also considered for a variety of other pathologies in which activation of NMDA receptors apparently contributes to the pathogenesis and progression of disease. In addition to the central nervous system (CNS), NMDA receptors can be found in non-neuronal cells and tissues that recently have become an interesting research focus. Some studies have shown that glutamate signaling plays a role in cell transformation and cancer progression. In addition, these receptors may play a role in cardiovascular disorders. In this review, we focus on the most recent findings for memantine with respect to its pharmacological effects in a range of diseases, including inflammatory disorders, cardiovascular diseases, cancer, neuropathy, as well as retinopathy.

Nanoporous microneedle arrays seamlessly connected to a drug reservoir for tunable transdermal delivery of memantine.

Conventional transdermal drug patches have been on the market since 1997 but their applicability for drug delivery is limited: currently only nearly two dozen of molecules have been approved by the regulatory authorities for transdermal administration and have reached the market. The possibilities for drug delivery via the skin can be improved and expanded by using microneedle patch technologies. However, most microneedle patches focus on the delivery of low amounts of drugs that are generally very potent due to the small dimensions of the microneedle systems. In this study nanoporous microneedle arrays (npMNAs) were combined with a liquid drug reservoir. The parameters that influence the diffusion of memantine from the drug reservoir through the npMNAs in an acceptor solution were investigated. Based on these results a model was developed to predict the diffusion of low-molecular-weight drugs as a function of npMNA properties (i.e., backplate thickness and surface area) and reservoir properties (i.e., volume and drug concentration). This generated an in silico model to predict the release of low-molecular-weight drug from a drug reservoir through a microneedle array into receptor solution, showed a good correlation with the delivery of memantine in a preclinical minipig study. The drug release rates by the npMNAs can be tuned and allow for both zero and first order release kinetics. Summarizing, this work shows that the npMNA technology is a versatile drug delivery system. The npMNAs can be combined with a (seamlessly connected) external drug reservoir and this integrated drug delivery system can be used to deliver at least 9 mg of memantine over 72 h in a preclinical minipig study.

Lactoferrin Coupled Lower Generation PAMAM Dendrimers for Brain Targeted Delivery of Memantine in Aluminum-Chloride-Induced Alzheimer's Disease in Mice.

Lower generation PAMAM dendrimers have an immense potential for drug delivery with lower toxicity, but these dendrimers yet need certain basic ameliorations. In this study, the brain delivery potential of the synthesized PAMAM-Lf (lower generation PAMAM and lactoferrin conjugate) loaded with memantine (MEM) was explored and evaluated in vitro and in vivo in the disease-induced mouse model. The developed nanoscaffolds were characterized for size, zeta potential and in vitro release. Increase in the average size from 11.54 ± 0.91 to 131.72 ± 4.73 nm, respectively, was observed for drug-loaded PAMAM (i.e., PAMAM-MEM) and PAMAM-Lf (i.e., MEM-PAMAM-Lf).  Release profile of MEM from MEM-PAMAM-Lf was slow and sustained up to 48 h. In vivo biodistribution in the Sprague-Dawley rat model revealed that the brain uptake of MEM-PAMAM-Lf was significantly higher than that of MEM alone. The behavioral response study in the healthy rats did not result in any significant changes. The in vivo study in an AlCl3-induced Alzheimer's (AD) mice model showed a significant improvement in behavioral responses. Optical density, which reflects the acetylcholinesterase (AChE) activity, was highest in the AL group 0.16 ± 0.01 (higher than the CON group, 0.09 ± 0.02; p < 0.05). No significant suppression of AChE activity was recorded in all the other treated groups. Similarly, the DOPAmine and 3,4 dihydroxyphenylacetic acid (DOPAC) levels were unaffected by the developed formulations. The study reported improved brain bioavailability of MEM in AlCl3-induced Alzheimer's mice leading to improved memory, with the resultant mechanism behind in a descriptive manner. This study is among the preliminary studies reporting the memory improvement aspect of PAMAM-Lf conjugates for MEM in AlCl3-AD induced mice. The formulation developed was beneficial in AD-induced mice and had a significant impact on the memory aspects.

Pharmacokinetics and Bioequivalence of Memantine Tablet and a New Dry Syrup Formulation in Healthy Japanese Males: Two Single-Dose Crossover Studies.

INTRODUCTION: Memantine hydrochloride, an N-methyl-D-aspartate receptor antagonist, is used to treat Alzheimer's disease (AD). A new dry syrup formulation containing memantine hydrochloride has been developed to improve medication adherence in AD patients and to reduce family and caregiver burden. This study was conducted to assess the bioequivalence of this new formulation to the tablet. METHODS: Two single-dose, randomized, open-label, two-period, two-group, crossover studies were conducted to assess the bioequivalence of a test product [dry syrup, 2%, 1 g (containing 20 mg of memantine hydrochloride)] to a reference product (film-coated tablet) under two dosing conditions: administration of the test product as a suspension in water (Study I) and as granules taken with water (Study II). Blood samples were collected at specified time intervals, and memantine plasma concentrations were determined using a validated liquid chromatography tandem mass spectrometry method. The pharmacokinetic parameters of memantine were calculated using non-compartmental analysis. The maximum concentration (Cmax) and area under the concentration-time curve up to the last sampling time (AUCall) were used to assess the bioequivalence of the two formulations. RESULTS: The geometric least square mean (GLSM) ratios [90% confidence interval (CI)] of the Cmax and AUCall of memantine for the test product to the reference product were 0.981 (0.943-1.020) and 0.978 (0.955-1.001) in Study I, and 0.973 (0.944-1.003) and 1.004 (0.983-1.025) in Study II, respectively. In both studies, the 90% CI values of the GLSM ratios of Cmax and AUCall were within the prespecified bioequivalence range (0.80-1.25). The safety of the test product under both dosing conditions and that of the reference product were not different. CONCLUSIONS: The new dry syrup formulation containing memantine hydrochloride showed bioequivalence to the film-coated tablet under the two dosing conditions. Thus, the new dry syrup is suitable under either dosing condition for patients with AD. FUNDING: Daiichi Sankyo Co., Ltd.

Controlled Iontophoretic Delivery in Vitro and in Vivo of ARN14140-A Multitarget Compound for Alzheimer's Disease.

ARN14140 is a galantamine-memantine conjugate that acts upon both cholinergic and glutamatergic pathways for better management of Alzheimer's disease. Poor oral bioavailability and pharmacokinetics meant that earlier preclinical in vivo studies employed intracerebroventricular injection to administer ARN14140 directly to the brain. The aim of the present study was to evaluate the feasibility of using constant current transdermal iontophoresis for the noninvasive systemic delivery of ARN14140 and to quantify the amounts present in the blood and the brain. Preliminary experiments in vitro were performed using porcine skin and validated with human skin. Cumulative ARN14140 permeation across the skin increased linearly with current density and concentration. Delivery efficiency (i.e., fraction of the amount applied that is delivered) reached an exceptional 76.9%. Statistically equivalent delivery was observed after iontophoresis across human and porcine skin. In vivo studies in male Wistar rats showed that iontophoretic transport of ARN14140 could be controlled using the current density (426.7 ± 42 and 1118.3 ± 73 nmol/cm2 at 0.15 and 0.5 mA/cm2 for 6 h) and demonstrated that transdermal iontophoresis was able to deliver ARN14140 noninvasively to the brain. This is the first report quantifying drug levels in the blood and the brain following transdermal iontophoresis.

Potential Pharmacokinetic Drug⁻Drug Interaction Between Harmine, a Cholinesterase Inhibitor, and Memantine, a Non-Competitive N-Methyl-d-Aspartate Receptor Antagonist.

Harmine (HAR) is a beta-carboline alkaloid widely distributed in nature. It exhibits psychopharmacological effects of improving learning and memory. However, excessive dose of HAR can cause central tremor toxicity, which may be related to the glutamate system. Memantine (MEM) is a non-competitive N-methyl-d-aspartate receptor antagonist. It can be used for the treatment of Alzheimer's disease and also can block the neurotoxicity caused by glutamate. Therefore, combination of HAR and MEM would be meaningful and the pharmacokinetics investigation of HAR and MEM in combination is necessary. A ultra-performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) method was established and validated for the simultaneous quantitative determination of MEM, HAR and harmol (HOL), a main metabolite of HAR, in rat plasma after oral administration of HAR and MEM in combination (5.0 mg/kg of MEM combined with 20.0, 40.0, 80.0 mg/kg of HAR). The contents of HAR and HOL were determined after oral administration of HAR (20.0, 40.0 and 80.0 mg/kg), and the content of MEM was determined after oral administration of MEM (5.0 mg/kg). Blood samples were collected from each rat at 0 (pre-dose), 0.08, 0.17, 0.25, 0.33, 0.50, 0.75, 1.0, 2.0, 4.0, 8.0, 12.0 and 24.0 h after administration. The maximum peak concentration (Cmax) of MEM was obviously decreased, and the area under the plasma concentration versus time curve from zero to time t (AUC(0-t)) and mean residence time (MRT) were significantly increased after combination with HAR. The Cmax and AUC(0-t) of HAR and its metabolite HOL were increased after combination with MEM. These findings suggested that co-administration of HAR and MEM could extend their residence time in rats, and then might increase the efficacy for treatment of Alzheimer's disease. Therefore, this study will provide a basis for the rational combined application of HAR and MEM.

A pharmaceutical answer to nonadherence: Once weekly oral memantine for Alzheimer's disease.

Adherence to medication regimens is a major barrier to effective treatment in many disease areas, notably in dementia which causes cognitive impairment that reduces patients' awareness of non-adherence and their ability to manage medication. The development of oral dosage forms that can be infrequently dosed, and therefore improve adherence rate and facilitate direct observed therapy, has been a goal for decades. We describe the first demonstration of an oral formulation that achieves >7-day gastric retention and sustained pharmacokinetics in the challenging dog model. Gastric retention requires physical resistance of the dosage form to gastric emptying forces, which are known to be stronger in dogs than in humans, making successful gastric retention in dogs a stringent test for predicting human translatability. This formulation of memantine hydrochloride is the first oral dosage form that achieves multi-day drug release with near zero-order kinetics and efficient delivery. In the dog model, relative memantine bioavailability approaches 100% with sustained plasma levels of memantine over seven days and profiles that can be tuned by varying components of the formulation. A single gastric resident dosage form achieves an AUC equivalent to 7 daily treatments with the marketed daily capsule, with a Cmax that is no higher than the daily product. PK modeling predicts that the gastroretentive formulation will maintain therapeutic blood levels in humans when administered once weekly. The formulation methodology presented here is applicable to many water soluble drugs and may enable the development of long-acting oral therapies for a wide variety of conditions.

In Depth Analysis of Pressure-Sensitive Adhesive Patch-Assisted Delivery of Memantine and Donepezil Using Physiologically Based Pharmacokinetic Modeling and in Vitro/in Vivo Correlations.

The objective of this work was to evaluate the feasibility of transdermal delivery of two widely prescribed dementia drugs for the Alzheimer's disease. In this regard, the drug in adhesive patches of memantine (ME) co-loaded with donepezil (DO) was prepared using an ethylene vinyl acetate polymer and characterized for drug content, the crystallinity of drugs in the polymer matrix, and in vitro permeation. To understand the different physical and chemical processes underlying the percutaneous absorption, it is required to employ a comprehensive model that accounts for the anatomy and physiology of the skin. A transdermal physiologically based pharmacokinetic (TPBPK) model was developed and was integrated in a compartmental pharmacokinetic model to predict the plasma drug concentrations in rats. The model predictions showed a good fit with the experimental data, as evaluated by the prediction error calculated for both drugs. It was evident from the simulations that the drug diffusivity and partition coefficient in the polymer matrix are the critical parameters that affect the drug release from the vehicle and subsequently influence the in vivo pharmacokinetic profile. Moreover, a correlation function was built between the in vitro permeation data and in vivo absorption for both ME and DO. A good point-to-point in vitro/in vivo correlation (IVIVC, Level A correlation) was achieved by predicting the plasma concentrations with convolution for the entire study duration. The results of our study suggested that the implementation of mechanistic modeling along with IVIVC can be a valuable tool to evaluate the relative effects of formulation variables on the bioavailability from transdermal delivery systems.

Memantine loaded PLGA PEGylated nanoparticles for Alzheimer's disease: in vitro and in vivo characterization.

BACKGROUND: Memantine, drug approved for moderate to severe Alzheimer's disease, has not shown to be fully effective. In order to solve this issue, polylactic-co-glycolic (PLGA) nanoparticles could be a suitable solution to increase drug's action on the target site as well as decrease adverse effects. For these reason, Memantine was loaded in biodegradable PLGA nanoparticles, produced by double emulsion method and surface-coated with polyethylene glycol. MEM-PEG-PLGA nanoparticles (NPs) were aimed to target the blood-brain barrier (BBB) upon oral administration for the treatment of Alzheimer's disease. RESULTS: The production parameters were optimized by design of experiments. MEM-PEG-PLGA NPs showed a mean particle size below 200 nm (152.6 ± 0.5 nm), monomodal size distribution (polydispersity index, PI < 0.1) and negative surface charge (- 22.4 mV). Physicochemical characterization of NPs confirmed that the crystalline drug was dispersed inside the PLGA matrix. MEM-PEG-PLGA NPs were found to be non-cytotoxic on brain cell lines (bEnd.3 and astrocytes). Memantine followed a slower release profile from the NPs against the free drug solution, allowing to reduce drug administration frequency in vivo. Nanoparticles were able to cross BBB both in vitro and in vivo. Behavioral tests carried out on transgenic APPswe/PS1dE9 mice demonstrated to enhance the benefit of decreasing memory impairment when using MEM-PEG-PLGA NPs in comparison to the free drug solution. Histological studies confirmed that MEM-PEG-PLGA NPs reduced ß-amyloid plaques and the associated inflammation characteristic of Alzheimer's disease. CONCLUSIONS: Memantine NPs were suitable for Alzheimer's disease and more effective than the free drug.

Psychotomimetic-like behavioral effects of memantine in the mouse.

A single administration of mice with memantine (1-amino-3,5-dimethyladamantane), a glutamatergic N-methyl-d-aspartate (NMDA) receptor antagonist, induced stereotyped behaviors in dose- and time-dependent manners. The predominant behavioral component of the stereotypy was a continuous, exaggerated sniffing which was accompanied by persistent locomotion. In contrast, a psychostimulant methamphetamine (METH) predominantly induced a stereotyped biting and other forms of intense stationary stereotypical behaviors. Memantine-induced stereotyped sniffing was attenuated by pretreatment with haloperidol, a dopamine D2 receptor antagonist, in a dose-dependent manner. The memantine-induced stereotyped sniffing was also attenuated by pretreatment with betahistine (2-[2-(methylamino)ethyl]pyridine), an agent which increases histamine turnover and releases histamine in the brain. These observations suggest that memantine might induce stereotypies through neuronal mechanisms that are somewhat different from those of METH, but still overlap to a certain extent, since memantine-induced stereotypies can be attenuated by the mechanisms that also suppress METH-induced stereotypy. Importantly, these data suggests that the effects of memantine may be more limited to the ventral striatum including nucleus accumbens than those of METH, which is associated with dorsal striatal stimulation at high doses. In this respect memantine may also have pharmacological properties such as compartmentation (i.e. brain distribution) and neuronal mechanisms different from those of other NMDA receptor antagonists, such as ketamine, which may have important implications for therapeutic uses of these drugs.

Evaluation of [18F]FNM biodistribution and dosimetry based on whole-body PET imaging of rats.

INTRODUCTION: The aim of this work was to study the biodistribution, metabolism and radiation dosimetry of rats injected with [18F]FNM using PET/CT images. This novel radiotracer targeting NMDA receptor has potential for investigation for neurological and psychiatric diseases. METHODS: Free fraction and stability in fresh human plasma were determined in vitro. PET/CT was performed on anesthetized rats. Organs were identified and 3D volumes of interest (VOIs) were manually drawn on the CT in the center of each organ. Time activity curves (TACs) were created with these VOIs, enabling the calculation of residence times. To confirm these values, ex vivo measurements of organs were performed. Plasma and urine were also collected to study in vivo metabolism. Data was extrapolated to humans, effective doses were estimated using ICRP-60 and ICRP-89 dosimetric models and absorbed doses were estimated using OLINDA/EXM V1.0 and OLINDA/EXM V2.0 (which use weighting factors from ICRP-103 to do the calculations). RESULTS: The [18F]FNM was stable in human plasma and the diffusible free fraction was 53%. As with memantine, this tracer is poorly metabolized in vivo. Ex vivo distributions validated PET/CT data as well as demonstrating a decrease of radiotracer uptake in the brain due to anesthesia. Total effective dose was around 6.11 µSv/MBq and 4.65 µSv/MBq for female and male human dosimetric models, respectively. CONCLUSIONS: This study shows that the presented compound exhibits stability in plasma and plasma protein binding very similar to memantine. Its dosimetry shows that it is suitable for use in humans due to a low total effective dose compared to other PET radiotracers.

Basic Study of Drug-Drug Interaction between Memantine and the Traditional Japanese Kampo Medicine Yokukansan.

Several basic pharmacokinetic and pharmacological studies were conducted as part of a group of studies to clarify the drug-drug interaction (DDI) between memantine (MEM), a drug used to treat Alzheimer's disease, and yokukansan (YKS), a traditional Japanese Kampo medicine used to treat behavioral and psychological symptoms of dementia. The pharmacokinetic studies showed that there were no statistically significant differences in MEM concentrations in the plasma, brain, and urine between mice treated with MEM alone and with MEM plus YKS. Regarding candidate active ingredients of YKS, there were also no statistically significant differences in concentrations of geissoschizine methyl ether in the plasma and brain, urine, glycyrrhetinic acid in the plasma, and isoliquiritigenin in the urine, in mice treated with YKS alone or with MEM plus YKS. The pharmacological studies showed that isoliquiritigenin, which has an N-methyl-d-aspartic acid (NMDA) receptor antagonistic effect, did not affect the inhibitory effect of MEM on NMDA-induced intracellular Ca2+ influx in primary cultured rat cortical neurons. Moreover, YKS did not affect either the ameliorative effects of MEM on NMDA-induced learning and memory impairment, or the MEM-induced decrease in locomotor activities in mice. These results suggest that there is probably no pharmacokinetic or pharmacological interaction between MEM and YKS in mice, but more detailed studies are needed in the future. Our findings provide important information for future studies, to clarify the DDI more regarding the efficacy and safety of combined use of these drugs in a clinical situation.

Intervenciones farmacológicas que mejoren la cognición y el funcionamiento adaptativo en el síndrome de Down: Progresos hasta la fecha / No disponible

Pese al creciente número de ensayos clínicos desarrollados para evaluar la cognición en el síndrome de Down, sus resultados para identificar intervenciones eficaces han sido muy limitados hasta la fecha. Las intervenciones en los modelos animales, con frecuencia muy favorables, no se han visto reflejadas en los ensayos clínicos. Esta revisión describe los resultados de los principales ensayos realizados. Ofrece consideraciones a los investigadores y describe estrategias a la industria farmacéutica para que se implique crecientemente en el descubrimiento de fármacos en el síndrome de Down

Although an increasing number of clinical trials have been developed for cognition in Down syndrome, there has been limited success to date in identifying effective interventions. This review describes the progression from pre-clinical studies with mouse models to human clinical trials research using pharmacological interventions to improve cognition and adaptive functioning in Down syndrome. We also provide considerations for investigators when conducting human clinical trials and describe strategies for the pharmaceutical industry to advance the field in drug discovery for Down syndrome

[Memantine: from the original brand to generics]. / Memantin: ot original'nogo preparata k dzhenerikam.

Memantine is the first clinically available glutamate antagonist, with an antagonist action at the N-methyl-D-aspartate receptors in the brain, for correction of cognitive and behavioral functions in neurodegenerative disorders. Glutamate mediated excitotoxic neuronal damage has been implicated in Alzheimer's disease (AD) and other parkinsonism-related dementias and, therefore, memantine represents a novel mode of action to counteract the glutamate-mediated excitotoxicity. In moderate to severe AD, 20 mg of memantine shows a positive effect on cognition, mood, behavior and the ability to perform activities of daily living. Long-term studies show good tolerability of memantine with an acceptable side-effect profile. In recent years, there have been a proliferation of a number of companies producing generic memantine with different trade names. In Russia, the first memantine generic drug noojerone was approved in 2010 and its use has since been supported by a growing evidence base of efficacy in real-life clinical practice. Postmarketing studies show that noojerone provides long-term and effective therapy in patients with moderate and severe Alzheimer's dementia. This observation is supported by the clinically significant therapeutic effect of noojerone on cognitive and daily functioning, behavioral and psychotic symptoms of dementia and a reduction of the burden on caregivers. This generic version of memantine is affordable and, therefore, reduces financial burden on patients and improves compliance with treatment.

A bioequivalence study of two memantine formulations in healthy Chinese male volunteers
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OBJECTIVE: The aim of the current study is to evaluate the bioequivalence between the test and reference formulations of memantine in a single-dose, two-period and two-sequence crossover study with a 44-day washout interval. MATERIALS AND METHODS: A total of 20 healthy Chinese male volunteers were enrolled and completed the study, after oral administration of single doses of 10 mg test and reference formulations of memantine. The blood samples were collected at different time points and memantine concentrations were determined by a fully validated HPLC-MS/MS method. The evaluated pharmacokinetic parameters (test vs. reference) including Cmax (18 ± 3.2 vs. 17.8 ± 3.4), AUC0-t (1,188.5 ± 222.2 vs. 1,170.9 ± 135.7), and AUC0-∞ (1,353.3 ± 258.6 vs. 1,291.3 ± 136.7) values were assessed for bioequivalence based on current guidelines. RESULTS: The observed pharmacokinetic parameters of memantine test drug were similar to those of the reference formulation. The 90% confidence intervals of test/reference ratios for Cmax, AUC0-t, and AUC0-∞ were within the bioequivalence acceptance range of 80 - 125%. CONCLUSION: The results obtained from the healthy Chinese subjects in this study suggests that the test formulation of memantine 10 mg tablet is bioequivalent to the reference formulation (Ebixa®10 mg tablet).
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Classics in Chemical Neuroscience: Memantine.

Memantine was the first breakthrough medication for the treatment of moderate to severe Alzheimer's disease (AD) patients and represents a fundamentally new mechanism of action (moderate-affinity, uncompetitive, voltage-dependent, N-methyl-d-aspartate (NMDA) receptor antagonist that exhibits fast on/off kinetics) to modulate glutamatergic dysfunction. Since its approval by the FDA in 2003, memantine, alone and in combination with donepezil, has improved patient outcomes in terms of cognition, behavioral disturbances, daily functioning, and delaying time to institutionalization. In this review, we will highlight the historical significance of memantine to AD (and other neuropsychiatric disorders) as well as provide an overview of the synthesis, pharmacology, and drug metabolism of this unique NMDA uncompetitive antagonist that clearly secures its place among the Classics in Chemical Neuroscience.

Efecto de la terapia adyuvante con memantina en el control de los síntomas positivos, negativos y depresivos de la esquizofrenia: estudio aleatorizado, doble ciego y controlado / The effect of add-on memantine on positive, negative and depressive symptoms of schizophrenia: a double-blind, randomized, controlled trial

Antecedentes. Aunque los fármacos antipsicóticos son el pilar básico del tratamiento de la esquizofrenia, no resuelven adecuadamente los síntomas residuales positivos, negativos y depresivos. El objetivo del presente estudio es evaluar el efecto del tratamiento adyuvante con memantina sobre los síntomas positivos, negativos y depresivos de la esquizofrenia. Métodos. Este estudio aleatorizado, controlado con placebo se ha realizado en el hospital Noor en Isfahan, Irán, de 2013 a 2014. En cada grupo se seleccionaron al azar 32 pacientes con tratamiento de mantenimiento. Los pacientes fueron seleccionados como muestreo en bloque. Los criterios de inclusión fueron: edad de 18 a 65 años, con capacidad mental normal, diagnosticados de esquizofrenia durante los últimos dos años y tratados con dosis fijas de antipsicóticos atípicos al menos durante los tres meses previos a la aleatorización. Los criterios de exclusión incluyeron embarazo, lactancia, tratamiento electroconvulsivo en las últimas dos semanas, abuso y dependencia de sustancias, comorbilidad de trastornos psiquiátricos o neurológicos e hipersensibilidad a la memantina. Los pacientes del grupo de intervención recibieron un fármaco antipsicótico atípico más memantina, mientras que el grupo control recibió el antipsicótico atípico más placebo. Los pacientes fueron evaluados por la Escala de Síntomas positivos y negativos (PANSS) y la Escala de Depresión de Calgary para la Esquizofrenia (CDSS) al inicio y luego cada cuatro semanas hasta el final en la duodécima semana. Los datos se analizaron con SPSS-17 utilizando test t, test de ji cuadrado, análisis de varianza (ANOVA) y análisis de covarianza (ANCOVA). Resultados. En el grupo al que se añadió Memantina los síntomas positivos (p=0,028), los síntomas negativos (0,004), la psicopatología general (p<0,001), los síntomas depresivos (p<0,001) y la gravedad general de los síntomas (p<0,001) disminuyeron significativamente. Conclusión. Este estudio muestra que la adición de memantina podría ser útil como tratamiento adyuvante de los síntomas depresivos, positivos, negativos y síntomas generales en pacientes esquizofrénicos (AU)

Background. Although antipsychotics are the mainstay treatment of schizophrenia, they don’t adequately address residual positive, negative and depressive symptoms. The aim of the present study is to assess the effect of adjunctive memantine treatment on positive, negative and depressive symptoms of schizophrenia. Methods. This randomized, placebo-controlled study was conducted in Noor Hospital, Isfahan, Iran, 2013-2014; 32 patients in maintenance treatment were included in each group, using block sampling; inclusion criteria were age 18-65 years, normal intellectual ability, being diagnosed with schizophrenia for the past two years, being treated with fixed doses of atypical antipsychotic for at least three months before randomization. Exclusion criteria were pregnancy, breast-feeding, having received electro-convulsive therapy in the past two weeks, drug or substance abuse and dependence, psychiatric/ neurological comorbidities, and sensitivity to memantine. Patients in the intervention group were treated with memantine plus atypical antipsychotic; while in the control group, patients received placebo and atypical antipsychotic. Patients were assessed by Positive and Negative Symptom Scale (PANSS) and Calgary Depression Scale for Schizophrenia (CDSS) initially and every four weeks to the end of the 12th week. Data were analyzed in SPSS 17.0 using t-test, chi square, analysis of variance (ANOVA), and analysis of covariance (ANCOVA). Results. Positive symptoms (p=0.028), negative symptoms (0.004), general psychopathology (p<0.001), depressive symptoms (p<0.001) and total symptom severity (p<0.001) decreased significantly in patients receiving add-on memantine. Conclusion. This study shows that, add-on memantine would be helpful, in the adjunctive treatment of depressive, positive, negative and general symptoms in patients with schizophrenia (AU)

Pharmacokinetic Properties of Memantine after a Single Intraperitoneal Administration and Multiple Oral Doses in Euploid Mice and in the Ts65Dn Mouse Model of Down's Syndrome.

Memantine is a drug approved for the treatment of moderate-to-severe Alzheimer's disease (AD), and there is ongoing research on the potential expansion of its clinical applicability. Published data on the pharmacokinetics of memantine in the mouse are still incomplete, particularly for chronic administration regimens and mouse models of specific genetic disorders. Down's syndrome (DS) is a genetic disorder known to affect multiple organs and systems, with the potential to alter significantly drug pharmacokinetics. Here, we describe a simple, efficient and sensitive GC/MS-based procedure for the determination of memantine concentrations in murine blood and tissue samples. We analysed pharmacokinetic properties of memantine, particularly its distribution in blood, brain and liver in the Ts65Dn mouse model of DS and euploid F1 hybrid mice after single intraperitoneal administrations of increasing doses of this drug. We also determined steady-state memantine concentrations in plasma, brain and liver after chronic oral administration of this drug in adult male Ts65Dn mice, euploid littermate controls and nursing or pregnant Ts65Dn mice. Our results revalidated the acute dose of memantine used in previously published work, determined the appropriate amount of memantine to be mixed into mouse chow to achieve steady and pharmacologically relevant plasma and tissue levels of this drug and demonstrated that memantine can be transferred from mother to offspring via maternal milk and placenta. Most of these findings are potentially applicable not only to the study of DS but also to other neurodevelopmental and neurodegenerative disorders.

Transdermal therapeutic systems for memantine delivery. Comparison of passive and iontophoretic transport.

Memantine is a non-competitive N-methyl-d-aspartate (NMDA) receptor antagonist used in the treatment of moderate to severe dementia including the symptoms of Alzheimer's disease (AD). It is administered orally but compliance, swallowing problems and the routine use of multiple medications in elderly AD patients means that an alternative route of administration would be of interest. The aim of the present study was to develop memantine hydrochloride occlusive transdermal therapeutic systems (TTS) for passive and iontophoretic delivery across the skin. Polyvinyl pyrrolidone (PVP) and a mixture with polyvinyl alcohol (PVA) were employed as polymeric matrices. The study involved the TTS characterization in addition to quantification of the memantine transport across porcine skin in vitro. The evaluation of the TTS physical properties suggested that systems were made more mechanically resistant by including PVA (6%) or high concentrations of PVP (24%). Moreover, a linear correlation was observed between the concentration of PVP and the bioadhesion of the systems. Drug delivery experiments showed that the highest transdermal flux provided by a passive TTS (PVP 24% w/w limonene) was 8.89±0.81µgcm-2h-1 whereas the highest iontophoretic transport was 46.4±3.6µgcm-2h-1. These innovative TTS would enable two dosage regimens that could lead to therapeutic plasma concentrations.