John Devane scite author profile

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.

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A review of methods used to compare dissolution profile data

O’Hara¹,

Dunne

Butler³

et al. 1998

Pharmaceutical Science & Technology Today

130

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Effects of Exercise Training Modality on Glucose Tolerance in Men with Abnormal Glucose Regulation

et al. 1994

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To determine the effects of exercise training modality on glucose tolerance in men with untreated abnormal glucose regulation, 26 untrained men (age 54 +/- 9 years; mean +/- SD) with either non-insulin-dependent diabetes mellitus (N = 8), impaired glucose tolerance (IGT) (N = 12) or hyperinsulinemia with normal glucose tolerance (N = 6) were studied before and after 20 wk of either strength training (ST) (N = 8), aerobic (treadmill walk/jog) training (AT) (N = 8), or no exercise (control group; N = 10). Plasma concentrations of glucose and insulin were measured after a 12-14 hr fast and during a standard oral glucose tolerance test (OGTT) before and after training. The ST program significantly reduced total plasma glucose area (mmol.l-1.120 min-1) under the OGTT curve (1348 +/- 251 vs 1190 +/- 329, p < 0.05), and plasma glucose levels (mmol.l-1) at 60 min (p < 0.05), 90 min (P < 0.05), and 120 min (p < 0.05) after glucose ingestion. Strength training also lowered the total plasma insulin area (pmol.l-1.120 min-1) under the OGTT curve (60082 +/- 25467 vs 46727 +/- 11273, p < 0.05) as well as plasma insulin levels (pmol.l-1) at fasting (p < 0.05) and at 90 min (p < 0.01) and 120 min (p < 0.05) after glucose ingestion. All men with IGT (four in each training group) normalized their glucose tolerance following the training. There were no significant differences in OGTT results between ST and AT and no changes were observed in the control group.(ABSTRACT TRUNCATED AT 250 WORDS)

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Pharmacokinetics of an Immediate‐Release Oral Formulation of Fampridine (4‐Aminopyridine) in Normal Subjects and Patients with Spinal Cord Injury

Hayes

Katz

Devane³

et al. 2003

The Journal of Clinical Pharma

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Plasma concentration profiles of the K+ channel-blocking compound Fampridine were obtained from (1) control subjects (n = 6) following oral administration of doses of 10, 15, 20, and 25 mg and (2) patients with spinal cord injury (SCI) (n = 11) following a single oral dose of 10 mg of an immediate-release formulation. Plasma concentrations were determined using a reversed-phase ion-pair high-performance liquid chromatography (HPLC) assay with ultraviolet light detection employing liquid extraction. The drug was rapidly absorbed with a tmax approximately 1 hour for both groups; tmax was independent of dose. Cmax and AUC0-infinity were linearly related to dose, and t 1/2 was 3 to 4 hours for both groups. There were no obvious differences in the (10-mg) plasma concentration profiles between control subjects and SCI patients. The drug was well tolerated, with only mild and transient side effects of light-headedness, dysesthesias, and dizziness.

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Steady-State Pharmacokinetic Comparison of a New, Extended-Release, Once-Daily Morphine Formulation, Avinza™, and a Twice-Daily Controlled-Release Morphine Formulation in Patients with Chronic Moderate-to-Severe Pain

Portenoy

Sciberras

Eliot

et al. 2002

Journal of Pain and Symptom Management

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Extended-release morphine formulations are widely used in the management of chronic pain. Avinza (morphine sulfate extended-release [MSER, Morphelan]) is a new, once-a-day, extended-release morphine formulation designed to reach target concentrations rapidly and maintain concentrations throughout a 24-hour period. The primary objective of this study was to compare the 24-hour steady-state pharmacokinetic (PK) profiles of morphine and its metabolites (morphine-6-glucuronide [M6G] and morphine-3-glucuronide [M3G]) following ingestion of MSER once-a-day and MS Contin (controlled-release morphine sulfate [CRM]) twice-a-day in patients with chronic moderate-to-severe pain. Ten patients with chronic moderate-to-severe pain were recruited into an open-label, multiple-dose, nonrandomized, two-period, single-center study. All patients were stabilized for a minimum of 7 days on a twice-daily dose of CRM associated with an optimal balance between pain control and side effects. Patients were then switched to the closest equivalent once-daily dose of MSER for a minimum of 10 days. Twenty-four hour steady-state PK profiles were obtained on the last day of each treatment period and additional clinical and safety assessments were performed. PK data were normalized to a 100-mg total daily dose prior to statistical analysis. Nine of the 10 patients completed the entire study. MSER and CRM demonstrated similar bioavailability (AUC) of morphine and its metabolites. Compared to CRM, MSER demonstrated a 19% lower maximum concentration (C(max)), a 66% higher minimum concentration (C(min)), and a 44% lower peak-to-trough fluctuation (%FI) over the 24-hour period. In addition, MSER maintained concentrations above 50% and 75% of the C(max) longer than CRM. Clinical efficacy and safety were comparable for MSER and CRM. Once-daily MSER approaches maximum morphine concentration more quickly, approximates maximum concentration longer, and demonstrates less fluctuation in morphine concentration during a 24-hour period than CRM dosed twice daily. The pharmacodynamic implications of this profile deserve further study.

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John Devane

The effects of 4‐aminopyridine in multiple sclerosis patients

A review of methods used to compare dissolution profile data

Effects of Exercise Training Modality on Glucose Tolerance in Men with Abnormal Glucose Regulation

Pharmacokinetics of an Immediate‐Release Oral Formulation of Fampridine (4‐Aminopyridine) in Normal Subjects and Patients with Spinal Cord Injury

Steady-State Pharmacokinetic Comparison of a New, Extended-Release, Once-Daily Morphine Formulation, Avinza™, and a Twice-Daily Controlled-Release Morphine Formulation in Patients with Chronic Moderate-to-Severe Pain

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