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PARASYMPATHOMIMETICS MAY COUNTERACT EACH OTHER EFFECTS
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CO-ADMINISTRATION MAY LEAD TO INCREASED PARASYMPHATHOMIMETIC EFFECT CAUSING BRADYCARDIA, HYPOTENSION, A-V CONDUCTION ABNORMALITIES, FLUSHING, DIARRHOEA, ABDOMINAL PAIN, INCREASED SALIVATION ETC
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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DIPYRIDAMOLE MAY COUNTERACT THE ANTICHOLINESTERASE EFFECT OF CHOLINESTERASE INHIBITORS, THEREBY POTENTIALLY AGGRAVATING MYASTHENIA GRAVIS
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PARASYMPATHOMIMETICS EFFECTIVENESS IN MYASTHENIA GRAVIS IS REDUCED BY SOME BETABLOCKERS, ANTIARRHYTHMICS & GENERAL ANAESTHETICS
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PARASYMPATHOMIMETICS EFFECTIVENESS IN MYASTHENIA GRAVIS IS REDUCED BY SOME BETABLOCKERS, ANTIARRHYTHMICS & GENERAL ANAESTHETICS
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ANTICHOLINESTERASES MAY INHIBIT THE METABOLISM OF THE DRUG LEADING TO ITS INCREASED PLASMA LEVELS & TOXICITY
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ECHOTHIOPATE IODIDE POTENTIATES THE EFFECT OF OTHER CHOLINESTERASE INHIBITORS CAUSING INCREASED CHOLINERGIC SIDE EFFECTS
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