Differences in side effects of amantadine hydrochloride and rimantadine hydrochloride relate to differences in pharmacokinetics

Hayden, Frederick G.; Hoffman, H.; Spyker, Daniel A.

doi:10.1128/aac.23.3.458

Cited by 111 publications

(64 citation statements)

References 33 publications

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“…Rimantadine is an analog of amantadine, differing only in the replacement of the amino group at position one with a methyl amine group; rimantadine pretreatment significantly inhibited PAF priming of the fMLP-activated respiratory burst at concentrations 10-fold lower (70). The C max of rimantadine is 74 ng/ml (0.3 M) 6 h after an initial dose of 100 mg, indicating that physiologic concentrations are close to the in vitro concentrations required to inhibit PAF-mediated changes in PMN physiology (25,43). Thus, rimantadine may provide a better means to curtail the effect of PMN-mediated organ injury, e.g., the acute respiratory distress syndrome and postinjury organ failure, yet its effects on other clathrin-dependent and -independent endocytotic mechanisms in different tissues need to be more clearly defined.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, rimantadine appears to be a more physiological inhibitor than amantadine because of its ability to inhibit PAF priming at clinically relevant concentrations (25,43), and may represent an effective pharmacological approach to reduce PMN-mediated tissue damage in the injured or critically ill patient.…”

Section: Discussionmentioning

confidence: 99%

“…Amantadine has been further described to inhibit neural proton channel activity (28) and acts as a low-affinity N-methyl-Daspartate (NMDA) receptor antagonist (39,48); however, its specificity inhibiting CME of the PAF receptor is not well understood although it is frequently used as a clathrin inhibitor (3,29,47,50,52,65). Recent work has characterized the early events in PAF-mediated CME (25) including internalization of the ligand:receptor complex and sequestration of these ligated receptors to clathrin-coated vesicle (CCVs) (55). In addition, the PMN is unique for it does not contain caveolin and thus serves as an excellent cellular model to study CME (56).…”

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confidence: 99%

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Amantadine inhibits platelet-activating factor induced clathrin-mediated endocytosis in human neutrophils

Eckels

Banerjee²,

Moore

et al. 2009

American Journal of Physiology-Cell Physiology

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Silliman CC. Amantadine inhibits platelet-activating factor induced clathrin-mediated endocytosis in human neutrophils. Am J Physiol Cell Physiol 297: C886 -C897, 2009. First published March 18, 2009 doi:10.1152/ajpcell.00416.2008.-Receptor signaling is integral for adhesion, emigration, phagocytosis, and reactive oxygen species production in polymorphonuclear neutrophils (PMNs). Priming is an important part of PMN emigration, but it can also lead to PMNmediated organ injury in the host. Platelet-activating factor (PAF) primes PMNs through activation of a specific G protein-coupled receptor. We hypothesize that PAF priming of PMNs requires clathrin-mediated endocytosis (CME) of the PAF receptor (PAFr), and, therefore, amantadine, known to inhibit CME, significantly antagonizes PAF signaling. PMNs were isolated by standard techniques to Ͼ98% purity and tested for viability. Amantadine (1 mM) significantly inhibited the PAF-mediated changes in the cellular distribution of clathrin and the physical colocalization [fluorescence resonance energy transfer positive (FRET ϩ )] of early endosome antigen-1 and Rab5a, known components of CME and similar to hypertonic saline, a known inhibitor of CME. Furthermore, amantadine had no effect on the PAF-induced cytosolic calcium flux; however, phosphorylation of p38 MAPK was significantly decreased. Amantadine inhibited PAFmediated changes in PMN physiology, including priming of the NADPH oxidase and shape change with lesser inhibition of increases in CD11b surface expression and elastase release. Furthermore, rimantadine, an amantadine analog, was a more potent inhibitor of PAF priming of the N-formyl-methionyl-leucyl-phenylalanine-activated oxidase. PAF priming of PMNs requires clathrin-mediated endocytosis that is inhibited when PMNs are pretreated with either amantadine or rimantadine. Thus, amantadine and rimantadine have the potential to ameliorate PMN-mediated tissue damage in humans.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Amantadine inhibits platelet-activating factor induced clathrin-mediated endocytosis in human neutrophils

Eckels

Banerjee²,

Moore

et al. 2009

American Journal of Physiology-Cell Physiology

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“…Limited in vitro and animal model results suggest that rimantadine has greater influenza A virusinhibitory activity than amantadine (7,15,19). More importantly, clinical studies have found that at equivalent oral dosages of 200 mg (5) or 300 mg (8) per day rimantadine is associated with significantly fewer central nervous system side effects than amantadine. The differences in side effect rates observed between the two drugs appear to be related to differences in plasma concentrations (8).…”

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confidence: 99%

Comparative single-dose pharmacokinetics of amantadine hydrochloride and rimantadine hydrochloride in young and elderly adults

Hayden

Minocha

Spyker

et al. 1985

Antimicrob Agents Chemother

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103

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The single-dose pharmacokinetics of amantadine hydrochloride and rimantadine hydrochloride were compared in a randomized, two-period, crossover study involving six young (<35 years) and six elderly (.60 years) adults. Subjects ingested single 200-mg oral doses after an overnight fast, and serial plasma (0 to 96 h), nasal mucus (0 to 8 h), and urine (0 to 24 h) samples were collected for assay of drug concentration by electron capture gas chromatography. For both groups combined, rimantadine differed significantly from amantadine in peak plasma concentration (mean standard deviation, 0.25 ± 0.06 versus 0.65 0.22 ,ug/ml), plasma elimination half-life (36.5 15 versus 16.7 ± 7.7 h), and percentage of administered dose excreted unchanged in urine (0.6 0.8 versus 45.7 + 15.7%). No significant age-related differences were noted for rimantadine. Urinary excretion (0 to 24 h) of rimantadine and its hydroxylated metabolites averaged 19% of the administered dose. The maximum nasal mucus drug concentration was similar for both drugs (0.42 + 0.25 versus 0.45 0.32 ,ug/g), and the ratio of maximum nasal mucus to plasma concentration was over twofold higher after rimantadine than after amantadine. These findings may in part explain the clinical effectiveness of rimantadine in influenza A virus infections at dosages that have lower toxicity than those of amantadine.The adamantane compounds, amantadine hydrochloride and rimantadine hydrochloride, have well-documented prophylactic and therapeutic efficacy in influenza A virus infections (5, 21). Limited in vitro and animal model results suggest that rimantadine has greater influenza A virusinhibitory activity than amantadine (7,15,19). More importantly, clinical studies have found that at equivalent oral dosages of 200 mg (5) or 300 mg (8) per day rimantadine is associated with significantly fewer central nervous system side effects than amantadine. The differences in side effect rates observed between the two drugs appear to be related to differences in plasma concentrations (8). Whereas amantadine pharmacokinetics have received extensive study (1-4, 9, 17), the pharmacokinetics of oral rimantadine have not been delineated. Limited results in healthy adults indicate that rimantadine is associated with significantly lower plasma concentrations after single or multiple doses (8) and has a longer plasma half-life and lower urinary excretion than amantadine (20). In addition, the pharmacokinetics of these drugs have not been defined in the elderly, one of the target populations for the prevention of influenza A virus infections.The current study was conducted to determine the comparative single-dose pharmacokinetics of amantadine and rimantadine in both young and elderly adults. This study also incorported collection of nasal mucus samples to determine concentrations of these drugs in respiratory secretions after systemic administration.MATERIALS AND METHODS Study design. This study was a randomized, open-label, two-treatment, crossover study in which rimantadine and amantadine were ...

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“…In a more recent study, PD patients who switched to placebo after amantadine IR treatment for a mean of 3.4 years showed significant worsening of dyskinesia at a median of 7 days, suggesting that some patients derived benefit over this duration [10]. Although most patients with PD can tolerate amantadine IR doses of 81-161 mg daily (equivalent to 100-200 mg daily of amantadine hydrochloride [HCl]) (electronic supplementary Table 1), higher doses that may provide greater antidyskinetic benefit are associated with increased frequency of central nervous system (CNS) adverse events (AEs) [7,11]. Therefore, amantadine IR is typically administered in divided doses, even though its relatively long half-life (* 17 h) might support once-daily dosing [12].…”

Section: Introductionmentioning

confidence: 99%

Pharmacokinetics of ADS-5102 (Amantadine) Extended Release Capsules Administered Once Daily at Bedtime for the Treatment of Dyskinesia

Hauser

Pahwa

Wargin³

et al. 2018

Clin Pharmacokinet

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Background Preclinical and clinical studies suggest amantadine immediate-release (IR) may reduce dyskinesia in Parkinson's disease (PD), although higher doses are associated with increased CNS adverse events (AEs). ADS-5102 is an extended release amantadine capsule formulation, designed for once-daily dosing at bedtime (qhs) to provide high concentrations upon waking and throughout the day, with lower concentrations in the evening. The pharmacokinetics (PK) of ADS-5102 were assessed in two phase I studies in healthy subjects, and a blinded, randomized phase II/III dose-finding study in PD patients. Methods The first phase I study assessed single ADS-5102 doses (68.5, 137, and 274 mg) in a crossover design, whereas the second phase I study evaluated ADS-5102 137 mg for 7 days followed by amantadine IR 81 mg twice daily (or reverse order). In the phase II/III double-blind study, PD patients with dyskinesia were randomized to ADS-5102 (210, 274, or 338 mg) or placebo for 8 weeks.Results Single ADS-5102 doses resulted in a slow initial rise in amantadine plasma concentration, with delayed time to maximum concentration (12-16 h). Amantadine plasma concentrations were higher in PD patients versus healthy volunteers. The steady-state profile of once-daily ADS-5102 was significantly different from that of twice-daily amantadine IR, such that the two formulations are not bioequivalent. PK modeling suggested the recommended daily ADS-5102 dosage (274 mg qhs) resulted in 1.4-to 2.0-fold higher amantadine plasma concentrations during the day versus amantadine IR. Conclusions ADS-5102 can be administered once-daily qhs to achieve high amantadine plasma concentrations in the morning and throughout the day, when symptoms of dyskinesia occur. Key Points ADS-5102 provides a slow initial rise in amantadine plasma concentration and a delayed time to reach maximum concentration, such that once-daily administration at bedtime results in high plasma concentrations upon waking and throughout the day, with lower concentrations in the evening.Pharmacokinetic (PK) data demonstrate that ADS-5102 has a significantly different PK profile compared with amantadine IR, such that ADS-5102 and amantadine IR are not bioequivalent for the majority of time points throughout the 24-h day.At the approved recommended dosage of 274 mg once daily, ADS-5102 provided 1.4-to 2.0-fold higher daytime plasma amantadine concentrations compared with amantadine IR administered two or three times daily.

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Differences in side effects of amantadine hydrochloride and rimantadine hydrochloride relate to differences in pharmacokinetics

Cited by 111 publications

References 33 publications

Amantadine inhibits platelet-activating factor induced clathrin-mediated endocytosis in human neutrophils

Amantadine inhibits platelet-activating factor induced clathrin-mediated endocytosis in human neutrophils

Comparative single-dose pharmacokinetics of amantadine hydrochloride and rimantadine hydrochloride in young and elderly adults

Pharmacokinetics of ADS-5102 (Amantadine) Extended Release Capsules Administered Once Daily at Bedtime for the Treatment of Dyskinesia

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