Pharmacokinetics of Inhaled Levodopa Administered With Oral Carbidopa in the Fed State in Patients With Parkinson's Disease.

PURPOSE: Levodopa (LD) is the most effective oral pharmacotherapy for the management of motor symptoms in Parkinson's disease. However, LD use is complicated by a progressive shortening of the duration of efficacy of a dose, resulting in episodes of inadequate responsiveness, or OFF periods. OFF periods may also occur unpredictably, partly due to the pharmacokinetic (PK) variability of oral LD, resulting from gastrointestinal dysfunction and from the effects of food on absorption. CVT-301 is a levodopa inhalation powder for the treatment of OFF period symptoms in patients on oral dopa-decarboxylase inhibitor/LD. PK and safety profiles of single dose CVT-301, administered with oral carbidopa (CD) and oral CD/LD, were examined in patients with Parkinson's disease in the fed state. METHODS: Eligible patients were aged 30-85 years, with a clinical diagnosis of Parkinson's disease and a body mass index of 18-32 kg/m2, and were receiving treatment with a stable regimen that included oral CD/LD (25/100 mg) (total LD, ≤800 mg/d). A high-fat/protein meal was eaten 4-5 h after the administration of the morning oral CD/LD dose. Blood samples for predose PK analysis were obtained after the meal, followed by a single inhaled dose of CVT-301 84 mg (+25 mg of oral CD) or oral CD/LD (25/100 mg) or vice versa in 2 dosing periods in a crossover design. Blood was sampled at 0, 5, 10, 15, 30, and 45 min and at 1, 1.5, 2, 3, and 4 h postdose. Tolerability assessments included treatment-emergent adverse events. FINDINGS: Twenty-three patients were enrolled (65.2% male; 87.0% white; mean age, 69.3 years; mean body mass index, 26.9 kg/m2; mean Parkinson's disease duration, 8.2 years; mean baseline LD dosage, 460.9 mg/d; 73.9% at Hoehn and Yahr stage <2.5). PK analyses were based on LD concentrations without baseline adjustment. Median Tmax values with CVT-301 and oral CD/LD were 15 and 120 min (P < 0.001). Cmax with CVT-301 was lower than with oral CD/LD (590.3 vs 844.3 ng/mL). C10min and C30min values with CVT-301 were approximately twice those with CD/LD (522.9 and 531.5 ng/mL vs 247.3 and 300.9 ng/mL, respectively). %CV for C5min to Cmax with CVT-301 was lower than that with oral CD/LD. The most common treatment-emergent adverse event was cough (CVT-301, 7 patients [30.4%]; oral CD/LD, 1 patient [4.5%]). IMPLICATIONS: PK properties showed that CVT-301 was more rapidly absorbed, with higher plasma LD concentrations in the first 45 min, and demonstrated lower interpatient variability, than was oral CD/LD in the fed condition. The study findings suggest that CVT-301 can be used without regard to food intake. ClinicalTrials.gov identifier: NCT03887884.

Dalfampridine Effects Beyond Walking Speed in Multiple Sclerosis.

BACKGROUND: Dalfampridine extended release (ER) improves walking in people with multiple sclerosis (MS), as demonstrated by walking speed improvement. This exploratory study evaluated treatment effects of dalfampridine-ER on gait, balance, and walking through treatment withdrawal and reinitiation. METHODS: Dalfampridine-ER responders, based on Timed 25-Foot Walk (T25FW) assessment before study entry, were included in this open-label, three-period, single-center study. Period 1: on-drug evaluations performed at screening and 1 week after screening. Period 2: dalfampridine-ER withdrawal and off-drug evaluations (days 5 and 11). Period 3: dalfampridine-ER reinitiation/final on-drug evaluation (day 15). PRIMARY OUTCOME VARIABLES: NeuroCom composite scores for gait and balance; balance was evaluated if gait changes were significant. Secondary variables: individual NeuroCom scores, walking speed (T25FW) and distance (2-Minute Walk Test [2MWT]), and balance (Berg Balance Scale [BBS]). RESULTS: All 20 patients completed the study: mean age, 53.1 years; mean MS duration, 11.3 years; mean time taking dalfampridine-ER, 315.3 days. NeuroCom gait composite scores worsened during period 2 relative to period 1 and improved during period 3; the mean ± SD difference in gait composite scores on drug was 4.03 ± 1.51 points (P = .015). Balance composite scores did not change significantly. Improvements were observed for off-drug versus on-drug for T25FW (0.36 ft/sec, P < .001), 2MWT (25.4 ft, P = .006), and BBS (1.7 points, P = .003). Safety profile was consistent with previous studies. CONCLUSIONS: Significant improvements in gait, walking speed, distance, and balance were demonstrated by dalfampridine-ER reinitiation after a 10-day withdrawal period.

Dalfampridine in chronic sensorimotor deficits after ischemic stroke: A proof of concept study.

OBJECTIVE: To evaluate the safety and tolerability of dalfampridine extended release (D-ER) in participants with chronic post-ischemic stroke deficits, and to assess for potential drug activity on sensorimotor function. METHODS: Using a double-blind, placebo-controlled, cross-over design, participants were randomized to placebo/D-ER or D-ER/placebo sequences and given D-ER 10 mg or placebo twice daily. Key inclusion criteria were: ischemic stroke ≥ 6 months, Fugl-Meyer Assessment lower extremity motor score ≤ 28, ability to complete Timed 25-Foot Walk (T25FW). The primary outcome was safety and tolerability. The key exploratory measure was walking speed (T25FW). Other assessments were: Box and Block, and Grip and Pinch tests; Functional Independence Measure. Full-crossover data were analyzed using mixed-effects model. RESULTS: A total of 83 participants were randomized: 70 completed and 13 discontinued the study. Adverse events were consistent with previous D-ER trials; no new safety signals were observed. Four participants experienced serious adverse events: 3 seizures (1 placebo, 2 D-ER), 1 was secondary to intentional overdose. Most common treatment-emergent adverse events were: dizziness, nausea, arthralgia and fatigue. Mixed-effects analysis showed an effect for D-ER vs. placebo in improving walking speed (0.21 vs. 0.10 ft/s; p = 0.027). CONCLUSIONS: D-ER was generally well tolerated in participants with chronic stroke deficits. Potential drug activity on lower extremity sensorimotor function, with an improvement in walking speed, was seen.

Evaluation of Dalfampridine Extended Release 5 and 10 mg in Multiple Sclerosis: A Randomized Controlled Trial.

BACKGROUND: Dalfampridine extended-release (ER) tablets, 10 mg twice daily, have been shown to improve walking in people with multiple sclerosis. We evaluated the safety and efficacy of dalfampridine-ER 5 mg compared with 10 mg. METHODS: Patients were randomized to double-blind treatment with twice-daily dalfampridine-ER tablets, 5 mg (n = 144) or 10 mg (n = 143), or placebo (n = 143) for 4 weeks. Primary efficacy endpoint was change from baseline walking speed by the Timed 25-Foot Walk 3 to 4 hours after the last dose. At 40% of sites, 2-week change from baseline walking distance was measured by the 6-Minute Walk test. RESULTS: At 4 weeks, walking speed changes from baseline were 0.363, 0.423, and 0.478 ft/s (placebo, dalfampridine-ER 5 mg, and dalfampridine-ER 10 mg, respectively [P = NS]). Post hoc analysis of average changes between pretreatment and on-treatment showed that relative to placebo, only dalfampridine-ER 10 mg demonstrated a significant increase in walking speed (mean ± SE): 0.443 ± 0.042 ft/s versus 0.303 ± 0.038 ft/s (P = .014). Improvement in 6-Minute Walk distance was significantly greater with dalfampridine-ER 10 mg (128.6 ft, P = .014) but not with 5 mg (76.8 ft, P = .308) relative to placebo (41.7 ft). Adverse events were consistent with previous studies. No seizures were reported. CONCLUSIONS: Dalfampridine-ER 5 and 10 mg twice daily did not demonstrate efficacy on the planned endpoint. Post hoc analyses demonstrated significant increases in walking speed relative to placebo with dalfampridine-ER 10 mg. No new safety signals were observed.

Assessment of confirmed urinary tract infection in patients treated with dalfampridine for multiple sclerosis.

Urinary tract infections (UTIs) were reported frequently with dalfampridine extended-release (dalfampridine-ER) 10 mg relative to placebo in previous multiple sclerosis (MS) studies. The objective of this study was to determine whether dalfampridine-ER is associated with increased incidence of confirmed UTIs in MS patients. This post hoc analysis used UTI data from a study comparing the 4-week safety and efficacy of 5 mg (n = 144) and 10 mg (n = 142) twice-daily dalfampridine-ER versus placebo (n = 143). To confirm UTIs, three clinical assessments were used: standard urinalysis (leukocytes > 5/high-power field); urine culture (≥ 100,000 and ≥ 10,000 colony-forming units [CFUs]/mL) for those who reported UTIs as adverse events (AEs) or had positive urinalysis; and UTI symptomatology. Fisher's exact test assessed statistical significance. The proportion of patients who reported UTIs as AEs in the placebo and dalfampridine-ER 5 mg and 10 mg groups were 5.6%, 6.3%, and 9.9%, respectively. In comparison, those with laboratory-confirmed UTIs were lower: ≥ 100,000 CFUs/mL: 4.2%, 2.8%, and 2.8%; and ≥ 10,000 CFUs/mL: 4.2%, 3.5%, and 4.9%, respectively (no significant statistical difference across treatments). The proportion of patients with confirmed UTI was similar between dalfampridine-ER and placebo, thus suggesting that the treatment does not increase the risk of UTIs.

Prescriber utilization of dalfampridine extended release tablets in multiple sclerosis: a retrospective pharmacy and medical claims analysis.

PURPOSE: This study aimed to characterize the prescribing of dalfampridine extended release (D-ER) 10 mg tablet treatment in people with multiple sclerosis (MS). METHODS: A retrospective cohort study was performed using Medco pharmacy and medical claims. Medical claims were used to identify MS patients with more than one prescription for D-ER with 1 year of prior continuous enrollment (n=704). These patients were matched 2:1 on age, sex, and health insurance source with a comparison group of MS patients who were treatment naïve for D-ER (n=1,403). Categorical data were analyzed by χ (2) test; ordinal data by Wilcoxon rank sum test; and continuous data by Student's t-test. RESULTS: Most patients were women aged 45-64 years. In the year preceding D-ER initiation, the prevalence of seizure and renal impairment was numerically lower in the D-ER cohort relative to those who were D-ER naïve (seizure: 3.1% versus 4.7%, respectively; renal impairment: 4.3% versus 5.1%, respectively); however, prescriptions for antiepileptic drugs in the two cohorts were comparable. In the year preceding treatment initiation, 62% of the D-ER cohort was prescribed MS-specific disease-modifying therapies relative to 45% who were D-ER naïve. CONCLUSION: Seizure and renal impairment rates among D-ER-naïve patients were consistent with published literature, yet rates among those prescribed D-ER during the year preceding treatment initiation were slightly lower than rates among D-ER-naïve patients. Given that D-ER is contraindicated in patients with history of seizure or moderate or severe renal impairment, lower rates may indicate that risk-minimization strategies contributed to the lower prevalence.

Long-term safety and efficacy of dalfampridine for walking impairment in patients with multiple sclerosis: Results of open-label extensions of two Phase 3 clinical trials.

BACKGROUND: In Phase 3 double-blind trials (MS-F203 and MS-F204), dalfampridine extended release tablets 10 mg twice daily (dalfampridine-ER; prolonged-release fampridine in Europe; fampridine modified or sustained release elsewhere) improved walking speed relative to placebo in patients with multiple sclerosis (MS). OBJECTIVES: Evaluation of long-term safety and efficacy of dalfampridine-ER in open-label extensions (MS-F203EXT, MS-F204EXT). METHODS: Patients received dalfampridine-ER 10 mg twice daily; and had Timed 25-Foot Walk (T25FW) assessments at 2, 14 and 26 weeks, and then every 6 months. Subjects were categorized as dalfampridine-ER responders or non-responders, based on their treatment response in the double-blind parent trials that assessed T25FW. RESULTS: We had 269 patients enter MS-F203EXT and 154 patients complete it; for a maximum exposure of 5 years. We had 214 patients enter MS-F204EXT and 146 complete it; for a maximum exposure of 3.3 years. No new safety signals emerged and dalfampridine-ER tolerability was consistent with the double-blind phase. Improvements in walking speed were lost after dalfampridine-ER was discontinued in the parent trial, but returned by the 2-week assessment after re-initiation of the drug. Throughout the extensions, mean improvement in walking speed declined, but remained improved, among the double-blind responders as compared with non-responders. CONCLUSIONS: The dalfamipridine-ER safety profile was consistent with the parent trials. Although walking speed decreased over time, dalfampridine-ER responders continued to show improved walking speed, which was sustained compared with non-responders.

Dosing feasibility and tolerability of intranasal diazepam in adults with epilepsy.

OBJECTIVE: To determine the feasibility of administering a diazepam nasal spray formulation (diazepam-NS) to adults with epilepsy during a generalized tonic-clonic seizure or in the postictal period following a tonic-clonic or other seizure type, to assess pharmacokinetics and to assess tolerability. METHODS: An open-label study was conducted in patients admitted to the epilepsy monitoring unit. Eligible patients received a single dose of diazepam-NS approximating 0.2 mg/kg. Plasma diazepam concentrations were measured serially up to 12 h postdose, and maximum observed plasma concentration (Cmax ); time to maximum concentration (Tmax ); and the area under the plasma concentration-time curve for time zero to last sampling time (AUC0-12 ) were estimated and dose-normalized. Pharmacodynamic assessments included Kaplan-Meier analysis to determine the time-to-next seizure. Safety and tolerability were assessed. RESULTS: Of the 78 patients who consented, 30 had treatment and pharmacokinetic data. Ten patients were treated during a convulsive tonic-clonic seizure, seven within 5 min following the last clonic jerk, and 13 in the postictal period ≥ 5 min after a tonic-clonic or following other seizure-types. Diazepam median Tmax was 45 min. Dose-normalized mean Cmax and AUC0-12 values of diazepam were comparable among patients regardless of the timing of diazepam-NS administration in relation to seizure. Of those treated, 65% were seizure-free during the 12-h observation period and 35% had post-dose seizures. Treatment was well tolerated, with no unexpected safety findings: 74% had mild and 25% had moderate adverse events. Nasopharyngeal signs were resolved by 12 h postdose. SIGNIFICANCE: Diazepam can be delivered in effective therapeutic concentrations by a nasal spray device during the convulsive phase of tonic-clonic seizures or in the postictal periods following tonic-clonic or other seizure types.

Development of dalfampridine, a novel pharmacologic approach for treating walking impairment in multiple sclerosis.

Walking impairment is a clinical hallmark of multiple sclerosis (MS). Dalfampridine-ER, an extended-release formulation of dalfampridine (also known by its chemical name, 4-aminopyridine, and its international nonproprietary name, fampridine), was developed to maintain drug plasma levels within a narrow therapeutic window, and assessed for its ability to improve walking in MS. The putative mechanism of action of dalfampridine-ER is restoration of axonal conduction via blockade of the potassium channels that become exposed during axonal demyelination. Two pivotal phase III clinical trials demonstrated that dalfampridine-ER 10-mg tablets administered twice daily improved walking speed and patient-reported perceptions of walking in some patients. Dalfampridine-ER was generally well tolerated, and, at the approved dose, risk of seizure was neither elevated relative to placebo nor higher than the rate in the MS population. Dalfampridine-ER (AMPYRA®) was approved in the United States for the treatment of walking in patients with MS as demonstrated by an increase in walking speed. The use of the dalfampridine-ER is contraindicated in patients with a history of seizure. It is the first pharmacologic therapy for this indication and has been incorporated into clinical management of MS.

Assessment of pharmacokinetics and tolerability of intranasal diazepam relative to rectal gel in healthy adults.

Diazepam rectal gel (RG) is currently the only approved rescue therapy for outpatient management of seizure clusters in the United States. There is an unmet medical need for an alternative rescue therapy for seizure clusters that is effective, and more convenient to administer with a socially acceptable method of delivery. An intranasal diazepam formulation has been developed, and this study evaluates the tolerability and bioavailability of diazepam nasal spray (NS) relative to an equivalent dose of diazepam-RG in healthy adults. Twenty-four healthy adults were enrolled in a phase 1, open-label, 3-period crossover study. Plasma diazepam and metabolite concentrations were measured by serial sampling. Dose proportionality for 5- and 20-mg intranasal doses and the bioavailability of 20mg diazepam-NS relative to 20mg diazepam-RG were assessed by maximum plasma concentration (Cmax) and systemic exposure parameters (AUC0-∞ and AUC0-24). The mean Cmax values for 20mg diazepam-NS and 20mg diazepam-RG were 378 ± 106 and 328 ± 152 ng/mL, achieved at 1.0 and 1.5h, respectively. Subjects administered intranasal and rectal gel formulations experienced nasal and rectal leakage, respectively. Diazepam absorption following intranasal administration was consistent but 3 subjects with diazepam-RG had low plasma drug levels at the earliest assessment of 5 min, due to poor retention, and were excluded from analysis. Excluding them, the treatment ratios (20mg diazepam-NS:20mg diazepam-RG) and 90% confidence intervals for diazepam Cmax and AUC0-24 were 0.98 (0.85-1.14) and 0.89 (0.80-0.98), respectively, suggesting that the bioavailability was comparable between the two formulations. Dose proportionality was observed between the lowest and highest dose-strengths of intranasal formulation. Both intranasal and rectal treatments were well tolerated with mild to moderate adverse events. Results suggest that a single-dose of 20mg diazepam-NS is tolerable and comparable in bioavailability to that of diazepam-RG. The intranasal formulation may provide caregivers and patients with a more socially acceptable and convenient alternative rescue therapy in the acute treatment of seizure clusters.

Pharmacokinetics of dalfampridine extended release 7.5-mg tablets in healthy subjects and individuals with mild and moderate renal impairment: an open-label study.

Dalfampridine extended release tablets (D-ER; prolonged-release fampridine in Europe) are available to improve walking in patients with multiple sclerosis (MS). D-ER is mainly renally eliminated; the approved 10-mg twice daily dose is contraindicated in the United States in patients with moderate or severe renal impairment. This study evaluated single-dose and steady-state pharmacokinetics of a 7.5-mg dose of D-ER in healthy subjects (n = 13) and subjects with mild (n = 17) and moderate (n = 12) renal impairment. D-ER plasma concentrations were consistently higher in subjects with renal impairment relative to healthy individuals with a significant (P < .0001) inverse linear relationship between creatinine clearance and drug exposure. Steady-state AUC0-12 among healthy subjects, 167.0 ± 55.3 ng h/mL, increased 74% and 151% with mild and moderate renal impairment, respectively. The overall incidence of adverse events was 61.5%, 47.1%, and 33.3% in healthy subjects, and subjects with mild and moderate renal impairment, respectively, and for treatment-related adverse events the rates were 0%, 17.6%, and 8.3%, respectively. The most common adverse events were headache, dizziness, and arthralgia. The pharmacokinetics of D-ER 7.5-mg twice daily in subjects with mild renal impairment was comparable to 10-mg twice daily in patients with MS who had normal renal function. Exposure was significantly higher in moderate renal impairment.

Dalfampridine extended release tablets: 1 year of postmarketing safety experience in the US.

BACKGROUND: Dalfampridine extended release tablets (dalfampridine-ER; prolonged-, modified, or sustained-release fampridine in some countries) were approved in the US to improve walking in patients with multiple sclerosis, as demonstrated by improvement in walking speed. Postmarketing safety experience is available from exposure of approximately 46,000 patients in the US from product approval through March 2011. OBJECTIVE: To provide a descriptive analysis of all spontaneously reported postmarketing adverse events (AEs) for dalfampridine-ER since product launch. METHODS: AE data were extracted from the safety database from product launch through March 31, 2011; AEs were classified using the Medical Dictionary for Regulatory Activities. Seizure cases were reviewed for patient demographics, time to event from treatment onset, and presence of additional risk factors. RESULTS: THE MOST FREQUENTLY REPORTED POSTMARKETING AES WERE SIMILAR TO THOSE REPORTED DURING CLINICAL DEVELOPMENT: dizziness, insomnia, balance disorder, headache, nausea, urinary tract infection, asthenia, and back pain (all included in US product labeling). New clinically significant findings are related to lack of efficacy and inappropriate dosing. Of the approximately 46,000 patients exposed, 85 seizures were reported (∼5.4/1000 patient-years), of which 82 were reported or confirmed by a health care practitioner (∼5.2/1000 patient-years). Beyond the intrinsic multiple sclerosis-related seizure risk, more than half of the 85 cases (62%) had an additional potential risk factor for seizure including a previous history of convulsions, renal impairment, incorrect dosing, or use of concurrent medications with a labeled seizure risk. Duration of treatment prior to the seizure ranged from one dose to 365 days; 26/85 (31%) patients suffered a seizure within a week of starting treatment. CONCLUSION: Spontaneous safety data from the US postmarketing experience were consistent with the safety profile seen during clinical development. Although first-year seizure incidence was not substantially different from that observed in dalfampridine-ER clinical trials, patients should be monitored for concomitant use of drugs that lower seizure threshold.

Population pharmacokinetics and pharmacodynamics of dalfampridine-ER in healthy volunteers and in patients with multiple sclerosis.

OBJECTIVE: Using data pooled from several studies of dalfampridine extended release (ER), a population pharmacokinetic model was developed for the purposes of characterizing the population pharmacokinetics and pharmacodynamics of dalfampridine-ER with respect to variability in pharmacokinetics, covariates affecting the pharmacokinetics, and whether the current therapeutic dosage represents an optimal dosage. Studies were conducted in healthy volunteers and multiple sclerosis (MS) patients over the course of development and registration of dalfampridine extended release tablets (dalfampridine-ER [Ampyra *]; prolonged-, modified- or sustained-release fampridine [Fampyra †] in some countries). METHODS: The model used to best describe the population pharmacokinetics of dalfampridine-ER was an open, one-compartment model with first-order absorption, first-order elimination and an absorption lag time. RESULTS: The population median estimated oral clearance was 36 L/h for a 50-year-old woman with a creatinine clearance of 105 mL/min and 42 L/h for a comparable man. The typical volume of distribution was 304 L for women and 403 L for men. The estimated absorption rate constant was 1.22 hours(-1) in the fasted state and 2.22 hours(-1) when given with food. The covariates identified as having a significant effect (p < 0.01) on model fit were food and gender on absorption rate, and gender, age and creatinine clearance on oral clearance. Only creatinine clearance and age are of clinical relevance. Concomitant medications did not affect any of the parameters in the model. Exposure-response relationships for both efficacy and safety were consistent with what has been observed in clinical trials. Limitations of this study include some reliance on unpublished data, and the limited effectiveness of the model for determining the likelihood of the efficacy and safety of dalfampridine-ER in clinical practice. CONCLUSIONS: The approved therapeutic dosage regimen of dalfampridine-ER 10 mg twice daily was identified as the optimum dosing regimen based on model-predicted exposure response relationships for efficacy and adverse events. A limitation of this study is the limited effectiveness of the models used to predict long-term efficacy and safety of dalfampridine-ER in clinical use.

Pharmacokinetic profile of dalfampridine extended release: clinical relevance in patients with multiple sclerosis.

BACKGROUND: In January 2010, dalfampridine extended release tablets (dalfampridine-ER [Ampyra *]; prolonged-, modified- or sustained-release fampridine [Fampyra †] in some countries), 10 mg to be administered twice daily approximately 12 hours apart, were approved by the US Food and Drug Administration. This was the first drug indicated to improve walking in patients with MS. SCOPE: Publications describing the pharmacokinetics of dalfampridine-ER or the immediate release formulation were identified from a search of PubMed through June 2012 using the search terms 'dalfampridine OR fampridine OR 4-aminopyridine' AND 'pharmacokinetics' and were supplemented with unpublished studies made available by Acorda Therapeutics Inc. FINDINGS: Pharmacokinetic studies show dose proportionality, with dalfampridine-ER having a more favorable profile than immediate-release dalfampridine. With twice-daily dosing of dalfampridine-ER, time to peak plasma concentration (3.2-3.9 hours) and apparent terminal plasma half-life (5.6-6.4 hours) are approximately twice those of immediate-release formulations, with comparable overall exposure and peak plasma concentrations (21.6 ng/mL) that were maintained at levels approximately 50% lower than immediate release. Steady state is achieved within 39 hours; pharmacokinetics are predictable based on single dosing. Trough plasma concentrations of 13-15 ng/mL are required to maintain efficacy. Renal excretion is predominantly as unchanged compound, and renal clearance in healthy individuals exceeds the glomerular filtration rate. Since dalfampridine-ER exposure increases with renal impairment, it is contraindicated in patients with moderate or severe impairment in the US, and in patients with any renal impairment in the European Union. CONCLUSIONS: Dalfampridine-ER has low protein binding, is not a substrate for p-glycoprotein and does not affect CYP450 enzymes, suggesting a low potential for drug-drug interactions. Because of the narrow therapeutic range and risk of adverse events, including seizure, with increasing plasma concentrations, the recommended dose and regimen of dalfampridine-ER should not be exceeded and not be used with other dalfampridine formulations. A limitation of this review is that it includes some data that have not yet been published.

Walking impairment in patients with multiple sclerosis - a new therapeutic approach and clinical potential of dalfampridine extended release tablets.

Walking impairment is a clinical hallmark of multiple sclerosis (MS) that has been under-recognized as a therapeutic target for pharmacologic intervention. The development and approval of dalfampridine extended release tablets (dalfampridine-ER; known as prolonged-, modified, or sustained-release fampridine outside the USA), 10 mg taken twice daily, to improve walking in patients with MS, fills a previously unmet need. In three randomized, double-blind, placebo-controlled trials, dalfampridine-ER improved walking speed in approximately one-third (37%) of treated patients, and average walking speed on therapy among these responders improved by approximately 25% relative to baseline. Walking-speed improvement among responders was clinically significant, as determined by a statistically significant improvement in the patient-reported 12-item Multiple Sclerosis Walking Scale. Long-term extension studies indicate that responders were able to maintain benefits, compared with nonresponders over prolonged periods of treatment. Dalfampridine-ER was generally well tolerated. Dizziness, insomnia, balance disorder, headache, nausea, urinary tract infection, and asthenia were the most common adverse events. Although the incidence of seizures appeared to be dose related, among patients treated with dalfampridine-ER in the three trials, the rate of seizures was 0.25%. These efficacy and safety data suggest that dalfampridine-ER can be a useful and clinically relevant addition to the pharmacologic armamentarium for the management of MS symptoms and disabilities. Because of its narrow therapeutic index and potential for seizures, it is especially important in the clinical setting to adhere to the dosing recommended in the approved labels.

Effect of food on the single-dose pharmacokinetics and tolerability of dalfampridine extended-release tablets in healthy volunteers.

PURPOSE: The pharmacokinetics, bioavailability, and tolerability of dalfampridine extended-release tablets in healthy adults under fed and fasted conditions were evaluated. METHODS: The study participants (n = 30) were randomly assigned to receive one 10-mg dalfampridine tablet in a fasted condition (no food for 10-12 hours) or a fed condition (after a high-fat meal); after a seven-day washout period, participants received the same dalfampridine dosage under the converse condition. The endpoints were the maximum plasma drug concentration (C(max)) and areas under the plasma-concentration curve (AUC) for 24-hour exposure (AUC(0-24)) and total exposure (AUC(0-∞)). A 90% two-sided confidence interval (CI) within predefined limits for the fed:fasted ratio of the geometric mean values was used as the standard for determining the absence of a significant food effect. RESULTS: Among the participants who received both treatments (n = 28), food intake was associated with a 23% increase in the log-transformed geometric mean C(max) of dalfampridine (p ≤ 0.10) but no significant change in mean AUC values. Eight (26.7%) of the study participants reported a total of 13 adverse events (AEs), of which only dizziness and upper abdominal pain occurred in more than one participant; all AEs were of mild-to-moderate severity. CONCLUSION: When a single 10-mg dose of dalfampridine was given to healthy volunteers after a high-fat meal, a significant increase in C(max) was observed. However, overall differences in dalfampridine pharmacokinetics when the drug was administered to participants under fasting and fed conditions did not exceed predefined limits, indicating that the extended-release formulation may be taken without regard to meals.

Pharmacokinetics and tolerability of single escalating doses of fampridine sustained-release tablets in patients with multiple sclerosis: a Phase I-II, open-label trial.

BACKGROUND: Fampridine (4-aminopyridine) is a potassium channel-blocking agent that has been reported to have therapeutic potential for improving walking and mobility in patients with multiple sclerosis (MS). A sustained-release (SR) formulation of fampridine was developed to improve the agent's pharmacokinetic profile by extending its t((1/2)) relative to that of immediate-release fampridine. OBJECTIVES: The primary study objective was to examine the pharmacokinetics of fampridine SR tablets after single escalating doses in patients with MS. Tolerability was evaluated as a secondary end point. METHODS: This multicenter, Phase I-II, open-label trial evaluated the dose proportionality and tolerability of 4 single doses of fampridine SR (5, 10, 15, and 20 mg) in patients with MS. There was a 4-day washout between doses. Blood samples were collected immediately before drug administration, hourly for the first 8 hours after administration, and at 10, 12, 14, 18, and 24 hours after administration. The pharmacokinetic parameters evaluated included C(max), T(max), AUC, elimination rate constant, apparent elimination t((1/2)), and apparent CL/F. Twelve-lead ECGs were obtained at baseline (0.5 hour before dosing) and at 1, 4, 12, and 24 hours after drug administration to evaluate potential effects on the QTc interval. All adverse events, abnormal laboratory values, and ECG abnormalities were recorded and evaluated for clinical relevance. Adverse-event data were monitored for 24 hours after the last dose, and patients were instructed to report any adverse events for 14 days after the conclusion of the study. RESULTS: Twenty-four white patients were enrolled (58% female; mean [SD] age, 45.4 [7.3] years; weight range, 47.8-87.1 kg), and 23 completed the study. Mean plasma concentrations and AUC values were dose proportional. T(max) occurred at 3.36 to 3.92 hours after dosing; the apparent elimination t((1/2)) was 5.47 hours. Both sex and weight affected the pharmacokinetic parameters of fampridine SR. Eleven treament-related adverse events were reported in 10 patients, with dizziness being the most common (7 incidents reported by 6 patients [1 at 10 mg, 3 at 15 mg, and 3 at 20 mg]). Other adverse events included amblyopia, asthenia, headache, and ataxia. All treatment-related adverse events were mild to moderate in severity, with the exception of 1 case of dizziness (20 mg) that was considered severe. No serious adverse events were reported, and no clinically significant changes in corrected QT intervals were observed. No patients with-drew due to treatment-related adverse events. CONCLUSION: In these patients with MS, fampridine SR (5-20 mg) had a potentially advantageous pharmacokinetic profile relative to that associated with immediate-release fampridine and was generally well tolerated.

Steady-state pharmacokinetics and tolerability of orally administered fampridine sustained-release 10-mg tablets in patients with multiple sclerosis: a 2-week, open-label, follow-up study.

BACKGROUND: Fampridine sustained release (SR) has generally been well tolerated in clinical studies in patients with multiple sclerosis (MS) at doses < or = 20 mg/d. The pharmacokinetics of single escalating doses of fampridine SR (5, 10, 15, and 20 mg) were evaluated in a companion study. OBJECTIVES: The primary objective of this study, which followed on from the single-dose pharmacokinetic study, was to assess the steady-state pharmacokinetics of fampridine in patients with MS over 2 weeks of oral administration of open-label fampridine SR 20 mg BID. Tolerability was also evaluated. METHODS: The dose of fampridine SR was titrated upward to twice-daily administration over days 1 and 2, with 20 mg given in the morning and 10 mg in the evening. From days 3 to 14, patients received fampridine SR 20 mg BID (total daily dose, 40 mg). Fampridine pharmacokinetic parameters were determined on days 1, 8, and 15. The parameters of interest included C(max), T(max), C(min), AUC, and apparent t((1/2)) These parameters were compared with those from the single-dose study. Tolerability was assessed based on adverse events, physical examinations, vital signs, laboratory tests, and ECGs. RESULTS: Twenty-one white patients who participated in the single-dose study were enrolled in the steady-state study (52.4% female; mean [SD] age, 45.1 [7.4] years; weight range, 54-87 kg). Fampridine pharmacokinetic parameters on day 1 were consistent with those obtained in the single-dose study. The T(max) did not differ significantly between day 1, day 8, day 15, and the single-dose study (range, 3.25-3.78 hours). C(max) values on days 8 and 15 (66.7 and 62.6 ng/mL, respectively) were significantly higher than those on day 1 (48.6 ng/mL) and in the single-dose study (50.5 ng/mL) (all, P < 0.001), reflecting accumulation of fampridine with multiple dosing. Values for C(max)/C(min) did not differ significantly between day 1 and the single-dose study (2.44 and 2.43, respectively) or between days 8 and 15 (2.90 and 2.88, respectively); however, the single-dose and day-1 values differed significantly from the day-8 and day-15 values (P < or = 0.001). There were no significant differences with respect to any other pharmacokinetic parameters. One hundred adverse events were reported by 21 patients. With the exception of 1 case of severe nausea, all adverse events were of mild to moderate severity. Thirty-five events reported by 14 subjects were considered treatment related. Dizziness was the most common treatment-related adverse event, with 11 episodes reported by 8 patients. No clinically significant changes were found in clinical laboratory values, vital signs, or physical examination findings from baseline to the last visit, and there were no clinically significant changes in QTc intervals (Bazett's correction). CONCLUSIONS: In these patients with MS, the steady-state pharmacokinetic profile of fampridine SR 20 mg BID administered for 2 weeks appeared to support the use of twice-daily dosing in this population. This dosage was generally well tolerated.

Pediatric safety of tizanidine: clinical adverse event database and retrospective chart assessment.

BACKGROUND: Tizanidine is an imidazoline with central alpha(2)-adrenoceptor agonist activity at both spinal and supraspinal levels, which is indicated as a short-acting drug for the management of spasticity. Despite being used in pediatric populations, there is no adequate information or well controlled studies to document the safety and efficacy of tizanidine in this group. OBJECTIVE: To evaluate the safety of tizanidine in the pediatric population. We compared spontaneous adverse event reports in the Acorda Therapeutics worldwide clinical adverse event database for children (< or = 16 years; n = 99) and adults (>16 years; n = 1153) who had received tizanidine and for whom at least one adverse event was reported, and performed a retrospective chart review of the safety of tizanidine in children (< or = 16 years; n = 76) at a large US pediatric neurology practice. Causality of adverse events in our worldwide clinical adverse event database were neither assessed nor assigned by the company. RESULTS: When adverse events from the clinical adverse event database were collapsed into the 25 Medical Dictionary for Regulatory Activities (MedDRA; version 9.0) organ system classes, five classes were more frequent in adults (general disorders and administration site conditions [p = 0.0006], hepatobiliary disorders [p = 0.0031], nervous system disorders [p = 0.0108], skin and subcutaneous disorders [p = 0.0063], and vascular disorders [p = 0.0029]), while one class was more frequent in children (psychiatric disorders [p < 0.0001]). The most common adverse event classes in children were psychiatric disorders (52.5%) followed by nervous system disorders (29.3%), and gastrointestinal disorders (16.2%), whereas the most common adverse event classes in adults were nervous system disorders (42.4%), general disorders and administration site conditions (28.6%), and gastrointestinal disorders (21.3%). Serious adverse events were substantially less frequent in children than adults (19.2% vs 45.9%) in the clinical adverse event database. In the pediatric practice chart review, the incidence of adverse events in the MedDRA psychiatric disorders class was very similar (52.6%) to that for children in the clinical adverse event database, while the next most common classes were gastrointestinal disorders (14.5%), and nervous system disorders (13.2%). There were three deaths in children across the databases, including one from accidental exposure and two from cardiac events; the relationship of cardiac events in relation to tizanidine or other causes was difficult to assess with the limited available information.The major causes of death in adults were related to suicide or overdose. Minor, transient liver transaminase increases were occasionally reported; the effect of tizanidine could not be ruled out. CONCLUSION: The overall safety of tizanidine in the pediatric group appeared good; however, the adverse event profile differed from that in adults. This difference most likely reflects the off-label use of tizanidine as adjunctive treatment for attention disorders and autism. The frequency and nature of adverse events in adults were consistent with the tizanidine prescribing information as reported for its approved indication, i.e. management of spasticity.

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.