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| rdf:type
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| description
| - videnskabelig artikel (da)
- article científic (ca)
- articol științific (ro)
- articolo scientifico (it)
- artigo científico (gl)
- artigo científico (pt)
- artigo científico (pt-br)
- artikull shkencor (sq)
- artículo científico (es)
- bilimsel makale (tr)
- scienca artikolo (eo)
- vedecký článok (sk)
- vetenskaplig artikel (sv)
- vitenskapelig artikkel (nb)
- vitskapeleg artikkel (nn)
- vědecký článek (cs)
- wetenschappelijk artikel (nl)
- wissenschaftlicher Artikel (de)
- научная статья (ru)
- научни чланак (sr)
- מאמר מדעי (he)
- artikel ilmiah (id)
- article scientifique (fr)
- বৈজ্ঞানিক নিবন্ধ (bn)
- artículu científicu espublizáu en 1990 (ast)
- наукова стаття, опублікована в грудні 1990 (uk)
- مقالة علمية نشرت في ديسمبر 1990 (ar)
- scientific article published on December 1990 (en)
- scientific article published on December 1990 (en-ca)
- scientific article published on December 1990 (en-gb)
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| language of work or name
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| author name string
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| author name string
| - Starmer CF
- Follmer CH
- Colatsky TJ
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| rdfs:label
| - Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (en)
- Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (nl)
- Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (ast)
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| skos:prefLabel
| - Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (en)
- Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (nl)
- Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (ast)
|
| name
| - Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (en)
- Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (nl)
- Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (ast)
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| title
| |
| title
| - Channel specificity in antiarrhythmic drug action. Mechanism of potassium channel block and its role in suppressing and aggravating cardiac arrhythmias (en)
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| page(s)
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| page(s)
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| instance of
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| instance of
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| PubMed ID
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| PubMed ID
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| PubMed ID
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| published in
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| published in
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| issue
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| volume
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| issue
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| DOI
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| DOI
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| DOI
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| is about
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| is cites work
of | - Current antiarrhythmic drugs: an overview of mechanisms of action and potential clinical utility
- The coming of age of the class III antiarrhythmic principle: retrospective and future trends
- Expanding indications for the use of Class III agents in patients at high risk for sudden death
- The molecular and ionic specificity of antiarrhythmic drug actions
- Antiarrhythmic drugs: a reorientation in light of recent developments in the control of disorders of rhythm
- Atrial fibrillation after cardiac operation: risks, mechanisms, and treatment
- Use-dependent block of the delayed K+ current in rabbit ventricular myocytes
- Molecular biology of the voltage-gated potassium channels of the cardiovascular system
- KvLQT1, a voltage-gated potassium channel responsible for human cardiac arrhythmias
- The min K channel underlies the cardiac potassium current IKs and mediates species-specific responses to protein kinase C.
- Common variation in the NOS1AP gene is associated with drug-induced QT prolongation and ventricular arrhythmia
- Quinidine-induced open channel block of K+ current in rat ventricle
- Drug effects on the electrocardiogram. A review of their clinical importance
- State-dependent barium block of wild-type and inactivation-deficient HERG channels in Xenopus oocytes
- Antiarrhythmic drug-induced internalization of the atrial-specific k+ channel kv1.5.
- Proarrhythmia with class III antiarrhythmic drugs: types, risks, and management
- Can a class III antiarrhythmic drug improve electrical defibrillation efficacy during ventricular fibrillation?
- Cardiac and hemodynamic effects of intravenous dofetilide in patients with heart failure
- Basic concepts in cellular cardiac electrophysiology: Part I: Ion channels, membrane currents, and the action potential
- The calcium-independent transient outward potassium current in isolated ferret right ventricular myocytes. II. Closed state reverse use-dependent block by 4-aminopyridine
- Change of atrial refractory period after short duration of rapid atrial pacing: regional differences and possible mechanisms.
- Resuscitation Outcomes Consortium-Amiodarone, Lidocaine or Placebo Study (ROC-ALPS): Rationale and methodology behind an out-of-hospital cardiac arrest antiarrhythmic drug trial
- Can antiarrhythmic agents be selected based on mechanism of action?
- Electrophysiologic mechanisms of antiarrhythmic efficacy of a sotalol and class Ia drug combination: elimination of reverse use dependence
- Heart rate is a marker of amiodarone mortality reduction in severe heart failure. The GESICA-GEMA Investigators. Grupo de Estudio de la Sobrevida en la Insuficiencia Cardiaca en Argentina-Grupo de Estudios Multicéntricos en Argentina
- Electrophysiological basis for the antiarrhythmic action and positive inotropy of HA-7, a furoquinoline alkaloid derivative, in rat heart
- K+ channels and control of ventricular repolarization in the heart
- The new anticonvulsant retigabine (D-23129) acts as an opener of K+ channels in neuronal cells
- In vitro electrophysiological detection of iatrogenic arrhythmogenicity
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