Fampridine is a Substrate and Inhibitor of Human OCT2, but not of Human MATE1, or MATE2K.

PURPOSE: The renal clearance of fampridine (Fampyra®, or Ampyra®) significantly exceeds the glomerular filtration rate, suggesting active renal secretion is likely the major elimination pathway. The goal of this study was to identify the renal transporters that are involved in the renal active secretion, and elucidate the active renal secretion mechanism of fampridine. METHODS: The uptake of fampridine to HEK-293 cells overexpressing human OCT2, MATE1 or MATE2K was determined in the absence and presence of Cimetidine, the prototypical inhibitor of the transporters. The inhibition potential of fampridine on the renal transporters was evaluated by determining the uptake of TEA and Metformin, the probe substrates of the transporters of OCT2 and MATEs, respectively, in the absence or presence of fampridine. RESULTS: Significant time- and concentration-dependent uptake of fampridine by human OCT2 was observed. The Km and Vmax were determined as 51.0 ± 17.1 µM and 1107 ± 136 pmole/min/106 cells, respectively. Fampridine also inhibited OCT2 mediated uptake of Metformin with estimated IC50 of 66.8 µM. In contrast, there was not significant uptake of fampridine by human MATE1 or MATE2K, and fampridine did not inhibit MATE1 or MATE2K mediated uptake of TEA. CONCLUSION: The studies indicated fampridine is a substrate and inhibitor of OCT2, but not MATE1 or MATE2K. Results from the study suggested the active renal secretion of fampridine is mediated by human OCT2 but not MATE1 or MATE2K. To our knowledge, fampridine is the first reported substrate specific to OCT2 but not to MATE1 or MATE2K.

Comparison of LC-UV and LC-MS methods for simultaneous determination of teriflunomide, dimethyl fumarate and fampridine in human plasma: application to rat pharmacokinetic study.

This study describes a comparison between LC-UV and LC-MS method for the simultaneous analyses of a few disease-modifying agents of multiple sclerosis. Quantitative determination of fampridine (FAM), teriflunomide (TFM) and dimethyl fumarate (DMF) was performed in human plasma with the recovery values in the range of 85-115%. A reversed-phase high-performance liquid chromatography (HPLC) with UV as well as MS detection is used. The method utilizes an XBridge C18 silica column and a gradient elution with mobile phase consisting of ammonium formate and acetonitrile at a flow rate of 0.5 mL min(-1) . The method adequately resolves FAM, TFM and DMF within a run time of 15 min. Owing to low molecular weights, the estimation of DMF and FAM is more versatile in UV than MS detection. With LC-UV, the detection limits of FAM, TFM and DMF were 0.1, 0.05, 0.05 µg and the quantification limit for all the analytes was 1 µg. With LC-MS, the detection and quantification limits for all of the analytes were 1 and 5 ng, respectively. The two techniques were completely validated and shown to be reproducible and sensitive. They were applied to a pharmacokinetic study in rats by a single oral dose. Copyright © 2016 John Wiley & Sons, Ltd.

Pharmacokinetics and safety of 3,4-diaminopyridine base in healthy Japanese volunteers.

OBJECTIVE: 3,4-diaminopyridine (3,4-DAP) is commonly used for treating neuromuscular diseases, such as the Lambert-Eaton myasthenic syndrome, but the pharmacokinetics of 3,4-DAP base have not been investigated. We therefore studied 3,4-DAP base pharmacokinetics in healthy Japanese volunteers. MATERIALS AND METHODS: In this crossover study, we administered a single oral dose of 10 or 20 mg 3,4-DAP base to healthy Japanese volunteers (n = 5) after food intake, or 10 mg 3,4-DAP to fasting individuals. We measured serum 3,4-DAP concentrations, performed electrocardiography (ECG), and administered questionnaires. RESULTS: After administration of 10 or 20 mg 3,4-DAP following food intake, the maximum serum concentrations (Cmax) were 8.09 ± 4.47 ng/mL and 35.8 ± 15.7 ng/mL, respectively (mean ± standard deviation; SD), and the areas under the serum concentration-time curve (extrapolated to infinity) were 639 ± 213 ng x min/mL and 2,097 ± 936 ng x min/mL (mean ± SD), respectively. Administration to fasted individuals indicated that food intake did not significantly alter 3,4-DAP pharmacokinetics. ECG showed no clinically significant changes, but PR intervals were prolonged in all cases. Two out of 5 subjects showed perioral paresthesia symptoms after administration of 20 mg 3,4-DAP. CONCLUSION: This study indicated that 3,4-DAP base pharmacokinetics were non-linear. Although no clinically significant changes in ECG were observed, it is advisable to perform ECG periodically during 3,4-DAP administration in order to monitor cardiac function. Moreover, the development of perioral paresthesia may be dependent on the dose of 3,4-DAP used.

Dalfampridine: a medication to improve walking in patients with multiple sclerosis.

OBJECTIVE: To review the pharmacology, pharmacokinetics, efficacy, and safety of dalfampridine. DATA SOURCES: A search of PubMed (1966-March 2012) was conducted using the words dalfampridine and Ampyra. Bibliographies of retrieved articles were reviewed to identify additional references. STUDY SELECTION AND DATA EXTRACTION: All identified studies published in English involving the efficacy and safety of dalfampridine were reviewed. DATA SYNTHESIS: Dalfampridine (Ampyra) is a broad-spectrum potassium channel blocker that is indicated as a treatment to improve walking in patients with multiple sclerosis (MS). Dalfampridine is the only medication approved for this indication. Efficacy has been demonstrated in 2 Phase 3 trials involving patients with MS. Dalfampridine 10 mg twice daily improved walking, as shown by a higher proportion of timed walk responders in the dalfampridine-treated group (42.9% and 35%) versus the placebo-treated group (9.3% and 8%) during the 2 studies (p < 0.001). The maximum recommended dose of dalfampridine is 10 mg twice daily; higher doses are associated with an increased risk of seizures. At doses greater than 10 mg twice daily, the frequency of other adverse reactions and discontinuations was greater and showed no additional benefit. The average wholesale price of a 10-mg dalfampridine tablet is $21.12, which would make a 1-month supply of therapy cost $1267.20. CONCLUSIONS: In clinical trials, dalfampridine improved walking speed in approximately one third of patients with MS. The risk of seizures appears to be dose-related and the incidence is low at doses of 10 mg twice daily. Because of the cost, dalfampridine should be reserved for patients who meet criteria for the drug and continued only if they have an adequate response.

Radiochemical Synthesis and Evaluation of 3-[11C]Methyl-4-aminopyridine in Rodents and Nonhuman Primates for Imaging Potassium Channels in the CNS.

Demyelination, the loss of the insulating sheath of neurons, causes failed or slowed neuronal conduction and contributes to the neurological symptoms in multiple sclerosis, traumatic brain and spinal cord injuries, stroke, and dementia. In demyelinated neurons, the axonal potassium channels Kv1.1 and Kv1.2, generally under the myelin sheath, become exposed and upregulated. Therefore, imaging these channels using positron emission tomography can provide valuable information for disease diagnosis and monitoring. Here, we describe a novel tracer for Kv1 channels, [11C]3-methyl-4-aminopyridine ([11C]3Me4AP). [11C]3Me4AP was efficiently synthesized via Pd(0)-Cu(I) comediated Stille cross-coupling of a stannyl precursor containing a free amino group. Evaluation of its imaging properties in rats and nonhuman primates showed that [11C]3Me4AP has a moderate brain permeability and slow kinetics. Additional evaluation in monkeys showed that the tracer is metabolically stable and that a one-tissue compartment model can accurately model the regional brain time-activity curves. Compared to the related tracers [18F]3-fluoro-4-aminopyridine ([18F]3F4AP) and [11C]3-methoxy-4-aminopyridine ([11C]3MeO4AP), [11C]3Me4AP shows lower initial brain uptake, which indicates reduced permeability to the blood-brain barrier and slower kinetics, suggesting higher binding affinity consistent with in vitro studies. While the slow kinetics and strong binding affinity resulted in a tracer with less favorable properties for imaging the brain than its predecessors, these properties may make 3Me4AP useful as a therapeutic.

Pharmacokinetics of 14C-radioactivity after oral intake of a single dose of 14C-labeled fampridine (4-aminopyridine) in healthy volunteers.

BACKGROUND: Fampridine (4-aminopyridine) is a potassium channel blocker that has been evaluated as a treatment for patients with spinal cord injury and multiple sclerosis. OBJECTIVE: The purpose of this study was to determine the pharmacokinetics of a single dose of an orally administered solution of (14)C-labeled fampridine in healthy volunteers. METHODS: In this open-label, single-dose study conducted in an inpatient setting, healthy adult men were administered an oral solution containing 15 mg of (14)C-labeled fampridine (100 microCi) in a fasted state. In addition to blood sampling for analysis of plasma (14)C-radioactivity at prescribed intervals over 7 days, all urine and feces were collected for analysis of drug recovery and disposition. Urine samples were also analyzed for metabolic profiling. Plasma pharmacokinetic parameters of the (14)C-radiolabeled drug were determined using standard liquid-scintillation techniques. Recovery was calculated to provide the total amount of radioactivity excreted as a proportion of the original dose. Nonhydrolyzed and hydrolyzed urine extracts were analyzed for radioactivity and metabolites using reverse-phase, isocratic high-performance liquid chromatography with spectrophotometric and radioactive detection. Tolerability was assessed through evaluation of vital signs, hematologic and other laboratory parameters, and electrocardiography. RESULTS: The 4 white male subjects had a mean (SD) age of 21 (2) years. No clinically significant abnormalities in vital signs, clinical chemistry, hematology, urinalysis, or electrocardiography were observed either before or during the study. Peak plasma radioactivity was reached at 1 hour after dosing, with a median concentration of 72.9 ng x mL(-1). There was complete disappearance of radioactivity by 24 hours (limit of quantitation, 400 disintegrations/min per peak), and the calculated median t(1/2) was 3.14 hours. Total cumulative recovery of (14)C-radioactivity was 96.36%, with only 0.51% of drug recovered in feces. On chromatography, 2 metabolites accounted for a low proportion of total urinary radioactivity (3% and 6% of total radioactivity in the interval from 0 to 4 hours after dosing; 17% and 9% in the interval from 8 to 12 hours after dosing). Three subjects reported mild and transient dizziness occurring 1 half-hour after dosing; this was considered possibly related to the study drug. CONCLUSION: Fampridine administered as an oral solution was rapidly absorbed and was nearly completely and rapidly eliminated as unchanged drug via urinary excretion, suggesting that it is unlikely to undergo substantial metabolic transformation.

Pharmacokinetics of 4-aminopyridine derivatives in dogs.

Blockade of potassium channels with 4-aminopryidine (4-AP) restores conduction to demyelinated axons and improves function. Unfortunately, 4-AP causes adverse effects and its clinical effects are unpredictable and limited. Derivatives of 4-AP have been tested in models of spinal cord injury in guinea pigs; three derivatives (methyl-, ethyl- and t-butyl carbamate derivatives) showed promise. This study investigates the safety and pharmacokinetics of these derivatives in dogs. Each derivative was administered orally to dogs starting at doses below effective doses in guinea pigs, and increasing the dose on sequential days. Routine blood work was performed prior to and 24 h after drug administration, blood samples were collected at intervals over 24 h after drug administration, and dogs were monitored for side effects. Derivative plasma levels were determined using high-pressure liquid chromatography. Cerebrospinal fluid (CSF) samples were taken to determine CSF levels. No adverse effects were seen even when using doses higher than those that improved conduction in spinal cord injured guinea pigs. Peak plasma levels occurred at 36.6 (ethyl), 87 (t-butyl) and 175 (methyl) min and plasma level was related to drug dose. Penetration of the central nervous system (CNS) was good, with CSF levels higher than plasma levels for the t-butyl derivative.

Treatment of internuclear ophthalmoparesis in multiple sclerosis with fampridine: A randomized double-blind, placebo-controlled cross-over trial.

AIM: To examine whether the velocity of saccadic eye movements in internuclear ophthalmoparesis (INO) improves with fampridine treatment in patients with multiple sclerosis (MS). METHODS: Randomized, double-blind, placebo-controlled, cross-over trial with fampridine in patients with MS and INO. Horizontal saccades were recorded at baseline and at multiple time points post-dose. Main outcome measures were the change of peak velocity versional dysconjugacy index (PV-VDI) and first-pass amplitude VDI (FPA-VDI). Both parameters were compared between fampridine and placebo using a mixed model analysis of variance taking patients as their own control. Pharmacokinetics was determined by serial blood sampling. RESULTS: Thirteen patients had a bilateral and 10 had a unilateral INO. One patient had an INO of abduction (posterior INO of Lutz) and was excluded. Fampridine significantly reduced both PV-VDI (-17.4%, 95% CI: -22.4%, -12.1%; P < 0.0001) and FPA-VDI (-12.5%, 95% CI: -18.9%, -5.5%; P < 0.01). Pharmacokinetics demonstrated that testing coincided with the average tmax at 2.08 hours (SD 45 minutes). The main adverse event reported after administration of fampridine was dizziness (61%). CONCLUSION: Fampridine improves saccadic eye movements due to INO in MS. Treatment response to fampridine may gauge patient selection for inclusion to remyelination strategies in MS using saccadic eye movements as primary outcome measure.

Comparative Randomized, Single-Dose, Two-Way Crossover Open-Label Study to Determine the Bioequivalence of Two Formulations of Dalfampridine Tablets.

Dalfampridine is a medication that is approved by the US Food and Drug Administration to improve walking impairments in patients with multiple sclerosis (MS). The branded dalfampridine is enormously expensive; hence, the availability of generic dalfampridine will provide better access to the medication, especially for uninsured patients with MS. Bioequivalence studies are demanded by the regulatory authorities to allow the marketing of new generics of dalfampridine. The aim of this study was to assess the bioavailability of the generic (test) and branded (reference) formulations of 10 mg dalfampridine of extended-release tablets after oral administration to healthy adults under fed conditions. The current report methodology was based on a comparative, randomized, single-dose, 2-way crossover open-label study design. Twenty-seven subjects were given a single dose of the test dalfampridine tablet and completed the clinical study. The pharmacokinetic parameters Cmax and AUC0→t, Kel , AUC0→∞ , tmax , and t1/2el were estimated to prove bioequivalence. The confidence intervals for the log-transformed test/reference ratios for dalfampridine 100.96% (97.09%-104.97%) and 99.77% (95.81%-103.87%) for Cmax and AUC0→∞ , respectively, were within the allowed limit specified by the regulatory authorities (80%-125%). Hence, clinically, the test tablet can be prescribed as an alternative to the reference for the indication of improving walking impairments in patients with MS.

Evaluating dalfampridine for the treatment of relapsing-remitting multiple sclerosis: does it add to the treatment armamentarium?

Introduction: Multiple sclerosis (MS) is a demyelinating disease, causing axonal damage and disability. Dalfampridine (DAL) is an extended-release formulation of 4-aminopyridine (4AP) and broad-spectrum voltage-dependent potassium channel blocker that is reported to improve motor, visual and cognitive functions. Furthermore, it is presently the only approved drug for walking impairment in MS. Areas covered: Herein, the authors evaluate DAL as a relapsing-remitting MS treatment, reporting and commenting on all aspects of the drug including its chemistry, safety, pharmacokinetics, and cost-effectiveness. A bibliographic search was performed on PubMed using the terms 'dalfampridine OR fampridine OR 4-aminopyridine'. Expert opinion: Evidence from post-marketing studies suggests that DAL, consistent with the effects of 4AP, may not only improve walking speed, but also arm function, fatigue, mood and cognition through restored nerve conduction in central nervous system demyelinated areas. Long-term safety data confirm that the approved dose of 10 mg twice daily is generally well tolerated. However, despite the reported efficacy, the extent of the benefits is limited in real life activities, although significant improvements have been demonstrated in the clinical setting. Patients often complain of side effects (such as cramps and painful paraesthesia) or lack of efficacy. Also, its considerably higher pricing in comparison to 4AP represents an important limitation.

Sustained-release fampridine for symptomatic treatment of multiple sclerosis.

OBJECTIVE: To review the pharmacology, pharmacokinetics, clinical trials, and adverse effects of sustained-release (SR) fampridine in patients with multiple sclerosis (MS). DATA SOURCES: An English-language human data search was done using PubMed/MEDLINE (1966-August 2008) to retrieve relevant material using the search terms fampridine-SR, 4-aminopyridine, and multiple sclerosis. References of selected articles and information from the drug developer were used to further identify pertinent trials. STUDY SELECTION AND DATA EXTRACTION: Article selection was based primarily on studies that evaluated the pharmacokinetics, safety, and efficacy of fampridine-SR in patients with MS. Relevant meeting abstracts were also included as part of the analysis. DATA SYNTHESIS: Fampridine-SR is a sustained-release, orally administered potassium-channel blocker acting in the central nervous system to enhance conduction in demyelinated axons. Several small trials have evaluated the safety and efficacy of fampridine-SR in patients with MS to improve their walking ability. Data from a recent large Phase 3 trial indicated that walking speed improved in 42.9% of patients with MS who were treated with fampridine-SR compared with 9.3% of those who received placebo (p < 0.001). Treatment-related adverse events associated with the use of fampridine-SR include dizziness, insomnia, nausea, and paresthesia. More severe adverse events, such as seizure, have occurred in patients receiving doses higher than those currently recommended. CONCLUSIONS: Positive results from 2 Phase 3 clinical trials have put fampridine-SR on the path toward approval as a medication for improving walking speed and lower extremity strength in patients with MS.

Acetylator Status Impacts Amifampridine Phosphate (Firdapse™) Pharmacokinetics and Exposure to a Greater Extent Than Renal Function.

PURPOSE: The purpose of this study is to evaluate safety, tolerability, and pharmacokinetic (PK) properties of amifampridine phosphate (Firdapse™) and its major inactive 3-N-acetyl metabolite in renally impaired and healthy individuals with slow acetylator (SA) and rapid acetylator (RA) phenotypes. METHODS: This was a Phase I, multicenter, open-label study of the PK properties and safety profile of amifampridine phosphate in individuals with normal, mild, moderate, or severely impaired renal function. Amifampridine phosphate was given as a single 10 mg (base equivalent) dose, and the plasma and urine PK properties of amifampridine and its 3-N-acetyl metabolite were determined. The safety profile was evaluated by monitoring adverse events (AEs), clinical laboratory tests, and physical examinations. FINDINGS: Amifampridine clearance was predominantly metabolic through N-acetylation, regardless of renal function in both acetylator phenotypes. In individuals with normal renal function, mean renal clearance represented approximately 3% and 18% of the total clearance of amifampridine in RA and SA, respectively. Large differences in amifampridine exposure were observed between acetylation phenotypes across renal function levels. Mean amifampridine exposure values of AUC0-∞ and Cmax were up to 8.8-fold higher in the SA group compared with the RA group across renal function levels. By comparison, mean AUC0-∞ was less affected by renal function within an acetylator group, only 2- to 3-fold higher in individuals with severe renal impairment (RI) compared with those with normal renal function. Exposure to amifampridine in the SA group with normal renal function was higher (AUC0-∞, approximately 1.8-fold; Cmax, approximately 4.1-fold) than the RA group with severe RI. Exposure to the inactive 3-N-acetyl metabolite was higher than amifampridine in both acetylator groups, independent of renal function level. The metabolite is cleared by renal excretion, and exposure was clearly dependent on renal function with 4.0- to 6.8-fold increases in AUC0-∞ from normal to severe RI. No new tolerability findings were observed. IMPLICATIONS: A single dose of 10 mg of amifampridine phosphate was well tolerated, independent of renal function and acetylator status. The results indicate that the PK profile of amifampridine is affected by metabolic acetylator phenotype to a greater extent than by renal function level, supporting Firdapse™ administration in individuals with RI in line with current labeling recommendations. Amifampridine should be dosed to effect per the individual patient need, altering administration frequency and dose in normal through severe RI. The therapeutic dose of amifampridine phosphate should be tailored to the individual patient needs by gradual dose titration up to the present maximum recommended dose (60-80 mg/day) or until dose-limiting AEs intervene to avoid overdosing and underdosing. EudraCT identifier: 2013-005349-35.

Population Pharmacokinetics/Pharmacodynamics of 3,4-Diaminopyridine Free Base in Patients With Lambert-Eaton Myasthenia.

Lambert-Eaton myasthenia (LEM) is a rare autoimmune disorder associated with debilitating muscle weakness. There are limited treatment options and 3,4-diaminopyridine (3,4-DAP) free base is an investigational orphan drug used to treat LEM-related weakness. We performed a population pharmacokinetic/pharmacodynamic (PK/PD) analysis using 3,4-DAP and metabolite concentrations collected from a phase II study in patients with LEM. The Triple Timed Up & Go (3TUG) assessment, which measures lower extremity weakness, was the primary outcome measure. A total of 1,270 PK samples (49 patients) and 1,091 3TUG data points (32 randomized patients) were included in the PK/PD analysis. A two-compartment and one-compartment model for parent and metabolite, respectively, described the PK data well. Body weight and serum creatinine partially explained the variability in clearance for the final PK model. A fractional inhibitory maximum effect (Emax ) model characterized the exposure-response relationship well. The PK/PD model was applied to identify a suggested dosing approach for 3,4-DAP free base.

Clinically Relevant Levels of 4-Aminopyridine Strengthen Physiological Responses in Intact Motor Circuits in Rats, Especially After Pyramidal Tract Injury.

BACKGROUND: 4-Aminopyridine (4-AP) is a Food and Drug Administration-approved drug to improve motor function in people with multiple sclerosis. Preliminary results suggest the drug may act on intact neural circuits and not just on demyelinated ones. OBJECTIVE: To determine if 4-AP at clinically relevant levels alters the excitability of intact motor circuits. METHODS: In anesthetized rats, electrodes were placed over motor cortex and the dorsal cervical spinal cord for electrical stimulation, and electromyogram electrodes were inserted into biceps muscle to measure responses. The motor responses to brain and spinal cord stimulation were measured before and for 5 hours after 4-AP administration both in uninjured rats and rats with a cut lesion of the pyramidal tract. Blood was collected at the same time as electrophysiology to determine drug plasma concentration with a goal of 20 to 100 ng/mL. RESULTS: We first determined that a bolus infusion of 0.32 mg/kg 4-AP was optimal: it produced on average 61.5 ± 1.8 ng/mL over the 5 hours after infusion. This dose of 4-AP increased responses to spinal cord stimulation by 1.3-fold in uninjured rats and 3-fold in rats with pyramidal tract lesion. Responses to cortical stimulation also increased by 2-fold in uninjured rats and up to 4-fold in the injured. CONCLUSION: Clinically relevant levels of 4-AP strongly augment physiological responses in intact circuits, an effect that was more robust after partial injury, demonstrating its broad potential in treating central nervous system injuries.

Lycopodium clavatum exine microcapsules enable safe oral delivery of 3,4-diaminopyridine for treatment of botulinum neurotoxin A intoxication.

3,4-Diaminopyridine has shown promise in reversing botulinum intoxication, but poor pharmacokinetics and a narrow therapeutic window limit its clinical utility. Thus, we developed a pH-dependent oral delivery platform using club moss spore exines. These exine microcapsules slowed 3,4-diaminopyridine absorption, limited its seizure activity, and enabled delivery of doses which prolonged mouse survival after botulism neurotoxin A intoxication.

The clinical development candidate CCT245737 is an orally active CHK1 inhibitor with preclinical activity in RAS mutant NSCLC and Eµ-MYC driven B-cell lymphoma.

CCT245737 is the first orally active, clinical development candidate CHK1 inhibitor to be described. The IC50 was 1.4 nM against CHK1 enzyme and it exhibited>1,000-fold selectivity against CHK2 and CDK1. CCT245737 potently inhibited cellular CHK1 activity (IC50 30-220 nM) and enhanced gemcitabine and SN38 cytotoxicity in multiple human tumor cell lines and human tumor xenograft models. Mouse oral bioavailability was complete (100%) with extensive tumor exposure. Genotoxic-induced CHK1 activity (pS296 CHK1) and cell cycle arrest (pY15 CDK1) were inhibited both in vitro and in human tumor xenografts by CCT245737, causing increased DNA damage and apoptosis. Uniquely, we show CCT245737 enhanced gemcitabine antitumor activity to a greater degree than for higher doses of either agent alone, without increasing toxicity, indicating a true therapeutic advantage for this combination. Furthermore, development of a novel ELISA assay for pS296 CHK1 autophosphorylation, allowed the quantitative measurement of target inhibition in a RAS mutant human tumor xenograft of NSCLC at efficacious doses of CCT245737. Finally, CCT245737 also showed significant single-agent activity against a MYC-driven mouse model of B-cell lymphoma. In conclusion, CCT245737 is a new CHK1 inhibitor clinical development candidate scheduled for a first in man Phase I clinical trial, that will use the novel pS296 CHK1 ELISA to monitor target inhibition.

Effects of Food Intake on the Relative Bioavailability of Amifampridine Phosphate Salt in Healthy Adults.

PURPOSE: Amifampridine (3,4-diaminopyridine) has been approved in the European Union for the treatment of Lambert-Eaton myasthenic syndrome. Amifampridine has a narrow therapeutic index, and supratherapeutic exposure has been associated with dose-dependent adverse events, including an increased risk for seizure. This study assessed the effect of food on the relative bioavailability of amifampridine in healthy subjects and informed on conditions that can alter exposure. METHODS: This randomized, open-labeled, 2-treatment, 2-period crossover study enrolled 47 healthy male and female subjects. Subjects were randomly assigned to receive 2 single oral doses of amifampridine phosphate salt (20 mg base equivalents per dose) under fed or fasted conditions separated by a washout period. Blood and urine samples for pharmacokinetic analyses were taken before and after dosing. Plasma concentrations of amifampridine and an inactive 3-N-acetyl metabolite were determined. The relative bioavailability values of amifampridine and metabolite were assessed based on the plasma PK parameters AUC0-∞, AUC0-t, and Cmax in the fed and fasted states using noncompartmental pharmacokinetic analysis. Parent drug and metabolite excretion were calculated from urinary concentrations. A food effect on bioavailability would be established if the 90% CI of the ratio of population geometric mean value of AUC0-∞, AUC0-t, or Cmax between fed and fasted administration was not within the bioequivalence range of 80% to 125%. Tolerability was assessed based on adverse-event reporting, clinical laboratory assessments, physical examination including vital sign measurements, 12-lead ECG, and concurrent medication use. FINDINGS: Food slowed and somewhat decreased the absorption of amifampridine. There was a decrease in exposure (Cmax, 44%; AUC, 20%) after oral administration of amifampridine phosphate salt in the presence of food, and mean Tmax was 2-fold longer in the fed state. The extent of exposure and plasma elimination half-life of the major metabolite was greater than those of amifampridine in the fed and fasted conditions. Mean AUCs in the fed and fasted states were slightly greater in women than men, with no difference in mean Cmax. Orally administered amifampridine was renally eliminated (>93%) as the parent compound and metabolite within 24 hours. Single oral doses of 20 mg of amifampridine phosphate salt were considered well tolerated in both the fed and fasted conditions. High intersubject variability (%CVs, >30%) in amifampridine pharmacokinetic parameter values was observed. IMPLICATIONS: At the intended dose under fasting conditions, amifampridine exposure may be increased. European Union Drug Regulating Authorities Clinical Trials identifier: 2011-000596-13.

Selective improvement of aged rat short-term spatial memory by 3,4-diaminopyridine.

Young (10 month) and old (28 month) Fischer 344 rats were injected (IP) with 3,4-diaminopyridine (3,4-DAP) or saline 10 minutes before training on two tests of spatial memory (the Barnes circular platform and the radial 8-arm maze). This agent has been found to block potassium channels in neurons, thereby increasing calcium influx, prolonging the action potential, and leading to increased transmitter release. The circular platform task assessed the drug's effect on spatial reference memory over 24 hour intertrial intervals, and the radial maze assessed its effect on short-term working memory within a 5 minute test session. 3,4-DAP was found to selectively improve memory performance of the old animals, and, within that age group, only improved performance on the short-term memory task. 3,4-DAP may therefore be effective for only a restricted set of age-related memory problems.

The effects of 4-aminopyridine in multiple sclerosis patients: results of a randomized, placebo-controlled, double-blind, concentration-controlled, crossover trial.

Because 4-aminopyridine (AP) improves residual deficits in some multiple sclerosis (MS) patients but has a narrow toxic-to-therapeutic margin, we compared the safety and efficacy of two target peak serum concentration ranges (low: 30 to 59 ng/ml and high: 60 to 100 ng/ml). We enrolled eight MS patients with temperature-sensitive visual and motor deficits in a randomized, placebo-controlled, double-blind, crossover trial of short-term oral AP treatment. We randomized patients to a sequence of three treatments on three separate days: placebo, low serum concentration, and high serum concentration. We determined dosing to achieve the desired steady-state peak serum concentration ranges from a test dose and population pharmacokinetic parameters using bayesian estimation. Contrast sensitivity, standard neurologic examination, ratings of videotaped neurologic examinations, and quantitative strength assessment all improved with treatment, but flicker fusion frequency, visual evoked response latencies, and Expanded Disability Status Scale scores did not. All patients experienced side effects during the high-serum-concentration arm. A grand mal seizure occurred at a serum AP level of 104 ng/ml, and an acute confusional episode occurred at 114 ng/ml. AP treatment produced improvements in residual deficits in MS patients, but the occurrence of significant toxicity suggests that AP serum levels should be monitored and peak levels above 100 ng/ml should be avoided. Concentration-control methodology may be useful in testing putative treatments for other neurologic diseases.

Plasma and cerebrospinal fluid concentrations of 4-aminopyridine following intravenous injection and metered intrathecal delivery in canines.

Potassium channel blockade by 4-aminopyridine (4-AP) has been shown to initiate modest levels of functional recovery in spinal-injured dogs and people following intravenous administration; however, the relevant central nervous system (CNS) concentration mediating these effects is not known. We have determined the concentrations of 4-aminopyridine in plasma and cerebrospinal fluid following intravenous administration (0.5 mg/kg) in large (> 22 kg) dogs, using liquid column chromatography. Plasma levels are initially high (> 1 microgram/mL) and fall rapidly to levels less than 100 ng/mL by about 2 h postinjection. A characteristic secondary peak in plasma 4-AP is observed at about 1 h postinjection. Corresponding concentrations of 4-AP in CSF were relatively stable for nearly 2 h, never exceeding (as a mean) 50 ng/mL within the first 2 h postinjection. We suggest behavioral recovery in clinical cases of spinal cord injury in both dogs and humans is mediated by such low (< 50 ng/mL) concentrations of 4-AP bathing the lesion. Since the adverse side effects that accompany IV administration of the drug limit its potential clinical usefulness, we have evaluated the feasibility of an alternate route of administration, continuous metered delivery of 4-AP into the spinal cord's subarachnoid space. This is accomplished by using a surgically implantable pump and delivery catheter. The pump itself can be interrogated, and is fully programmable, by noninvasive telemetry. Intrathecal delivery rates of between 1 and 60 micrograms of 4-AP per hour never produced detectable levels of the drug in plasma or cervically sampled CSF in dogs independent of the amount or duration of infusion (hours to days). The levels of 4-AP in lumbar samples of CSF near the lumbar delivery site suggest a very steep gradient of the drug, with local concentrations easily reaching 1 microgram/mL or higher (10- to 20-fold higher than can be safely produced by IV administration). The most frequent adverse reaction to intrathecal 4-AP delivery was a mild hindlimb tremor, fully reversible following reduction in the rate of drug delivery or termination of delivery. This route of drug administration relative to clinical spinal cord injury is discussed.