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  1. Article: Levetiracetam : a viewpoint by philip N. Patsalos.

    Patsalos, P N

    CNS drugs

    1997  Volume 7, Issue 2, Page(s) 165

    Language English
    Publishing date 1997-02
    Publishing country New Zealand
    Document type Journal Article
    ZDB-ID 1203800-3
    ISSN 1179-1934 ; 1172-7047
    ISSN (online) 1179-1934
    ISSN 1172-7047
    DOI 10.2165/00023210-199707020-00007
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  2. Book ; Online ; E-Book: Antiseizure medication interactions

    Patsalos, Philip N.

    a clinical guide

    2022  

    Author's details Philip N. Patsalos
    Keywords Drug interactions ; Drug interactions/Data processing ; Anticonvulsius ; Interaccions dels medicaments
    Subject code 615.7045
    Language English
    Size 1 online resource (327 pages)
    Edition 4th ed.
    Publisher Springer International Publishing
    Publishing place Cham, Switzerland
    Document type Book ; Online ; E-Book
    Remark Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
    ISBN 3-030-82790-9 ; 9783030827892 ; 978-3-030-82790-8 ; 3030827895
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

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  3. Book: Antiseizure Medication Interactions

    Patsalos, Philip N.

    A Clinical Guide

    2022  

    Author's details Philip Patsalos is an Emeritus Professor of Clinical Pharmacology at University College London's Queen Square Institute of Neurology, Department of Clinical and Experimental Epilepsy, London UK. His clinical and research interests relate to the therapeutics of epilepsy and include: new drug treatments and strategies, new drug development (Phase II and III trials) and formulations, pharmacokinetic profiling and drug interactions. He has in excess of 230 publications (books, book chapters and peer reviewed papers) and has served on various International League Against Epilepsy (ILAE) committees (including the Commission on Therapeutic Strategies, the Commission on Generics, the Sub-Commission on Polytherapy and Drug Interaction and the Sub-Commission on Therapeutic Drug Monitoring) and International Association of Therapeutic Drug Monitoring and Clinical Toxicology committees (including the Clinical Pharmacokinetics Committee and the Impact of Therapeutic Drug Monitoring on Pharmacoec
    Keywords Antiepileptic drug interactions ; Epilepsy treatment ; Pharmacodynamic interactions ; Pharmacokinetic interactions ; Drug Interactions Between AEDs ; Interactions Affecting AEDs ; polytherapy regimen ; Interactions Affected by AEDS ; Psychotropic drugs ; antineoplastics ; Antineoplastics
    Language English
    Size 376 p.
    Edition 4
    Publisher Springer International Publishing
    Document type Book
    Note PDA Manuell_13
    Format 155 x 235 x 21
    ISBN 9783030827892 ; 3030827895
    Database PDA

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  4. Book: Antiepileptic drug interactions

    Patsalos, Philip N.

    a clinical guide

    2013  

    Author's details P.N. Patsalos
    Keywords Anticonvulsants ; Epilepsy--Chemotherapy ; Epilepsy--Treatment
    Language English
    Size LXV, 437 S. : Ill.
    Edition 2. ed.
    Publisher Springer
    Publishing place London u.a.
    Publishing country Great Britain
    Document type Book
    HBZ-ID HT017490556
    ISBN 978-1-4471-2433-7 ; 9781447124344 ; 1-4471-2433-2 ; 1447124340
    Database Catalogue ZB MED Medicine, Health

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    2012 A 4616 order for loan Magazin

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  5. Article ; Online: Drug-drug interactions between antiseizure medications and antipsychotic medications: a narrative review and expert opinion.

    Besag, Frank M C / Berry, Dave / Vasey, Michael J / Patsalos, Philip N

    Expert opinion on drug metabolism & toxicology

    2023  Volume 19, Issue 11, Page(s) 829–847

    Abstract: Introduction: Antiseizure medications (ASMs) and antipsychotic drugs are frequently coadministered with the potential for drug-drug interactions. Interactions may either be pharmacokinetic or pharmacodynamic, resulting in a decrease or increase in ... ...

    Abstract Introduction: Antiseizure medications (ASMs) and antipsychotic drugs are frequently coadministered with the potential for drug-drug interactions. Interactions may either be pharmacokinetic or pharmacodynamic, resulting in a decrease or increase in efficacy and/or an increase or decrease in adverse effects.
    Areas covered: The clinical evidence for pharmacokinetic and pharmacodynamic interactions between ASMs and antipsychotics is reviewed based on the results of a literature search in MEDLINE conducted in April 2023.
    Expert opinion: There is now extensive published evidence for the clinical importance of interactions between ASMs and antipsychotics. Enzyme-inducing ASMs can decrease blood concentrations of many of the antipsychotics. There is also evidence that enzyme-inhibiting ASMs can increase antipsychotic blood concentrations. Similarly, there is limited evidence showing that antipsychotic drugs may affect the blood concentrations of ASMs through pharmacokinetic interactions. There is less available evidence for pharmacodynamic interactions, but these can also be important, as can displacement from protein binding. The lack of published evidence for an interaction should not be interpreted as meaning that the given interaction does not occur; the evidence is building continually. There is no substitute for careful patient monitoring and sound clinical judgment.
    MeSH term(s) Humans ; Antipsychotic Agents/adverse effects ; Antipsychotic Agents/pharmacokinetics ; Expert Testimony ; Drug Interactions ; Drug-Related Side Effects and Adverse Reactions ; Anticonvulsants/adverse effects
    Chemical Substances Antipsychotic Agents ; Anticonvulsants
    Language English
    Publishing date 2023-11-17
    Publishing country England
    Document type Journal Article ; Review
    ZDB-ID 2214462-6
    ISSN 1744-7607 ; 1742-5255
    ISSN (online) 1744-7607
    ISSN 1742-5255
    DOI 10.1080/17425255.2023.2278676
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  6. Article ; Online: The clinical pharmacology profile of the new antiepileptic drug perampanel: A novel noncompetitive AMPA receptor antagonist.

    Patsalos, Philip N

    Epilepsia

    2015  Volume 56, Issue 1, Page(s) 12–27

    Abstract: The clinical pharmacology profile of a drug critically determines its therapeutics, and this review summarizes the characteristics associated with the antiepileptic drug (AED) perampanel. A PubMed literature search was performed for perampanel. Congress ... ...

    Abstract The clinical pharmacology profile of a drug critically determines its therapeutics, and this review summarizes the characteristics associated with the antiepileptic drug (AED) perampanel. A PubMed literature search was performed for perampanel. Congress abstract data are included where necessary and Eisai Ltd provided access to unpublished data on file. After oral ingestion, perampanel is rapidly absorbed and peak plasma concentrations occur 0.5-2.5 h later; its bioavailability is ~100%. Although the rate of perampanel absorption is slowed by food co-ingestion, the extent absorbed remains unchanged; therefore, perampanel can be administered without regard to meal times. The pharmacokinetics of perampanel are linear and predictable over the clinically relevant dose range (2-12 mg); perampanel is 95% protein-bound to albumin and α1-acid glycoprotein. Perampanel is extensively metabolized (>90%) in the liver, primarily by cytochrome P450 (CYP) 3A4, to various pharmacologically inactive metabolites. In healthy volunteers, the apparent terminal half-life is ~105 h, whereas the calculated effective half-life is 48 h. These half-life values allow for once-daily dosing, which will aid patient compliance and in the event of a missed dose, will have minimal impact on seizure control. In healthy volunteers prescribed carbamazepine, half-life decreases to 25 h. Clearance values are not significantly different in adolescents (~13.0 ml/min) and the elderly (~10.5 ml/min) compared with adults (10.9 ml/min). Perampanel has minimal propensity to cause pharmacokinetic interactions. However, it is the target of such interactions and CYP3A4-inducing AEDs enhance its clearance; this can be used to advantage because dose titration can be faster and thus optimum therapeutic outcome can be achieved sooner. Perampanel 12 mg, but not 4 or 8 mg, enhances the metabolism of the progesterone component of the oral contraceptive pill, necessitating the need for an additional reliable contraceptive method. Overall, perampanel has a favorable clinical pharmacology profile, which should aid its clinical use.
    MeSH term(s) Anticonvulsants/pharmacology ; Anticonvulsants/therapeutic use ; Drug Interactions ; Epilepsy/drug therapy ; Humans ; Protein Binding ; Pyridones/pharmacology ; Pyridones/therapeutic use ; Receptors, AMPA/antagonists & inhibitors
    Chemical Substances Anticonvulsants ; Pyridones ; Receptors, AMPA ; perampanel (H821664NPK)
    Language English
    Publishing date 2015-01
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 216382-2
    ISSN 1528-1167 ; 0013-9580
    ISSN (online) 1528-1167
    ISSN 0013-9580
    DOI 10.1111/epi.12865
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  7. Article ; Online: Therapeutic drug monitoring of antiepileptic drugs: current status and future prospects.

    Johannessen Landmark, Cecilie / Johannessen, Svein I / Patsalos, Philip N

    Expert opinion on drug metabolism & toxicology

    2020  Volume 16, Issue 3, Page(s) 227–238

    Abstract: ... ...

    Abstract Introduction
    MeSH term(s) Adverse Drug Reaction Reporting Systems/trends ; Animals ; Anticonvulsants/adverse effects ; Anticonvulsants/pharmacokinetics ; Anticonvulsants/therapeutic use ; Cost-Benefit Analysis ; Drug Interactions/physiology ; Drug Monitoring/methods ; Epilepsy/drug therapy ; Epilepsy/genetics ; Epilepsy/metabolism ; Female ; Forecasting ; Humans ; Pharmacogenetics/methods ; Pharmacogenetics/trends ; Pregnancy
    Chemical Substances Anticonvulsants
    Language English
    Publishing date 2020-02-13
    Publishing country England
    Document type Journal Article ; Review
    ZDB-ID 2214462-6
    ISSN 1744-7607 ; 1742-5255
    ISSN (online) 1744-7607
    ISSN 1742-5255
    DOI 10.1080/17425255.2020.1724956
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  8. Article ; Online: Drug interactions with the newer antiepileptic drugs (AEDs)--part 1: pharmacokinetic and pharmacodynamic interactions between AEDs.

    Patsalos, Philip N

    Clinical pharmacokinetics

    2013  Volume 52, Issue 11, Page(s) 927–966

    Abstract: ... n ≤ 5) are associated with gabapentin, lacosamide, tiagabine, vigabatrin and zonisamide ... whilst lamotrigine (n = 17), felbamate (n = 15), oxcarbazepine (n = 14) and rufinamide (n = 13) are associated ...

    Abstract Since 1989 there has been an exponential introduction of new antiepileptic drugs (AEDs) into clinical practice and these include eslicarbazepine acetate, felbamate, gabapentin, lacosamide, lamotrigine, levetiracetam, oxcarbazepine, perampanel, pregabalin, retigabine (ezogabine), rufinamide, stiripentol, tiagabine, topiramate, vigabatrin and zonisamide; 16 in total. Because often the treatment of epilepsy is lifelong, and because patients are commonly prescribed polytherapy with other AEDs, AED interactions are an important consideration in the treatment of epilepsy and indeed can be a major therapeutic challenge. For new AEDs, their propensity to interact is particularly important because inevitably they can only be prescribed, at least in the first instance, as adjunctive polytherapy. The present review details the pharmacokinetic and pharmacodynamic interactions that have been reported to occur with the new AEDs. Interaction study details are described, as necessary, so as to allow the reader to take a view as to the possible clinical significance of particular interactions. The principal pharmacokinetic interaction relates to hepatic enzyme induction or inhibition whilst pharmacodynamic interactions principally entail adverse effect synergism, although examples of anticonvulsant synergism also exist. Overall, the new AEDs are less interacting primarily because many are renally excreted or not hepatically metabolised (e.g. gabapentin, lacosamide, levetiracetam, topiramate, vigabatrin) and most do not (or minimally) induce or inhibit hepatic metabolism. A total of 139 pharmacokinetic interactions between concurrent AEDs have been described. The least pharmacokinetic interactions (n ≤ 5) are associated with gabapentin, lacosamide, tiagabine, vigabatrin and zonisamide, whilst lamotrigine (n = 17), felbamate (n = 15), oxcarbazepine (n = 14) and rufinamide (n = 13) are associated with the most. To date, felbamate, gabapentin, oxcarbazepine, perampanel, pregabalin, retigabine, rufinamide, stiripentol and zonisamide have not been associated with any pharmacodynamic interactions.
    MeSH term(s) Anticonvulsants/administration & dosage ; Anticonvulsants/pharmacokinetics ; Drug Interactions ; Epilepsy/drug therapy ; Epilepsy/metabolism ; Humans
    Chemical Substances Anticonvulsants
    Language English
    Publishing date 2013-06-20
    Publishing country Switzerland
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 197627-8
    ISSN 1179-1926 ; 0312-5963
    ISSN (online) 1179-1926
    ISSN 0312-5963
    DOI 10.1007/s40262-013-0087-0
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  9. Article ; Online: Drug interactions with the newer antiepileptic drugs (AEDs)--Part 2: pharmacokinetic and pharmacodynamic interactions between AEDs and drugs used to treat non-epilepsy disorders.

    Patsalos, Philip N

    Clinical pharmacokinetics

    2013  Volume 52, Issue 12, Page(s) 1045–1061

    Abstract: ... interactions have been described, with lamotrigine (n = 22), topiramate (n = 18) and oxcarbazepine (n = 7 ...

    Abstract Since antiepileptic drugs (AEDs) are prescribed to treat various non-epilepsy-related disorders in addition to the fact that patients with epilepsy may develop concurrent disorders that will need treatment, the propensity for AEDs to interact with non-AEDs is considerable and indeed can present a difficult clinical problem. The present review details the pharmacokinetic and pharmacodynamic interactions that have been reported to occur with the new AEDs (eslicarbazepine acetate, felbamate, gabapentin, lacosamide, lamotrigine, levetiracetam, oxcarbazepine, perampanel, pregabalin, retigabine (ezogabine), rufinamide, stiripentol, tiagabine, topiramate, vigabatrin and zonisamide) and drugs used to treat non-epilepsy disorders. Interaction study details are described, as necessary, so as to allow the reader to take a view as to the possible clinical significance of particular interactions. Pharmacokinetic interactions relate to hepatic enzyme induction or inhibition and involved a variety of drugs including psychoactive drugs, cardioactive drugs, oral contraceptives, antituberculous agents, analgesics and antineoplastic drugs. A total of 68 pharmacokinetic interactions have been described, with lamotrigine (n = 22), topiramate (n = 18) and oxcarbazepine (n = 7) being associated with most, whilst lacosamide, pregabalin, stiripentol and vigabatrin are associated with none. Overall, only three pharmacodynamic interactions have been described and occur with oxcarbazepine, perampanel and pregabalin.
    MeSH term(s) Anticonvulsants/administration & dosage ; Drug Interactions ; Epilepsy/drug therapy ; Humans ; Pharmacokinetics
    Chemical Substances Anticonvulsants
    Language English
    Publishing date 2013-06-23
    Publishing country Switzerland
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 197627-8
    ISSN 1179-1926 ; 0312-5963
    ISSN (online) 1179-1926
    ISSN 0312-5963
    DOI 10.1007/s40262-013-0088-z
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  10. Article: Clinical efficacy of perampanel for partial-onset and primary generalized tonic-clonic seizures.

    Besag, Frank Mc / Patsalos, Philip N

    Neuropsychiatric disease and treatment

    2016  Volume 12, Page(s) 1215–1220

    Abstract: Background and purpose: Perampanel, a selective noncompetitive antagonist at the α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor, is highly effective in a wide range of experimental models. Although initially licensed as adjunctive ... ...

    Abstract Background and purpose: Perampanel, a selective noncompetitive antagonist at the α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor, is highly effective in a wide range of experimental models. Although initially licensed as adjunctive therapy for partial seizures with or without secondary generalization in patients aged 12 years or older, the US Food and Drug Administration has recently approved its use in the treatment of primary generalized tonic-clonic seizures (PGTCS). This paper reviews the pharmacokinetics, efficacy, and tolerability of perampanel as an antiepileptic drug.
    Results: After oral ingestion, perampanel is rapidly absorbed (T max, 0.5-2.5 hours), has a bioavailability of ~100%, and is highly protein bound (~95%) in plasma. It undergoes extensive (>90%) hepatic metabolism, primarily via cytochrome P450 3A4 (CYP3A4), with a half-life of 48 hours. Carbamazepine and other antiepileptic drugs can enhance its metabolism via induction of CYP3A4. Efficacy of perampanel in focal seizures has been extensively evaluated in Phase II and randomized, placebo-controlled Phase III trials. The efficacy in PGTCS has been reported in one class I study. In the treatment of focal seizures, perampanel showed significant dose-dependent median seizure reductions: 4 mg/d, 23%; 8 mg/d, 26%-31%; 12 mg/d, 18%-35%; and placebo, 10%-21%. The 50% responder rates were 15%-26%, 29%, 33%-38%, and 34%-36% for placebo, 4 mg/d, 8 mg/d, and 12 mg/d perampanel, respectively. Freedom from seizures was recorded in 0%-1.7% of the placebo group, 1.9% of the 2 mg group, 2.6%-4.4% of the 8 mg group, and 2.6%-6.5% of the 12 mg group. For PGTCS, the median seizure reduction was 76.5% for perampanel and 38.4% for placebo. The 50% responder rate was 64.2% for perampanel and 39.5% for placebo. Seizure freedom during maintenance phase was 30.9% for perampanel and 12.3% for placebo. Adverse effects included dose-dependent increases in the frequency of dizziness, somnolence, fatigue, irritability, falls, and probably nausea.
    Conclusion: Perampanel is effective in treating both partial-onset seizures and PGTCS.
    Language English
    Publishing date 2016-05-17
    Publishing country New Zealand
    Document type Journal Article ; Review
    ZDB-ID 2186503-6
    ISSN 1178-2021 ; 1176-6328
    ISSN (online) 1178-2021
    ISSN 1176-6328
    DOI 10.2147/NDT.S83842
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