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- Preface
- Contributors
- 1 The human γ-aminobutyric acid transporter GAT-2: from cloning to high throughput screening
- 2 Low throughput preclinical models for headache*
- 3 Human models: screening models
- 4 Stricter success criteria, qualitative and quantitative end-points: acute versus prevention trials
- 5 Health-related quality of life and similar end-points
- 6 Clinically relevant designs and outcome measures for acute migraine trials
- 7 Effectiveness of different steroid dosage in Tolosa–Hunt syndrome with different phenotypes: some critical points about the new International Headache Society classification
- 8 Discussion summary: Trials methodology
- 9 Inducible nitric oxide synthase and development of new migraine treatments
- 10 Mechanisms of cortical spreading depression as targets for migraine therapy
- 11 Tonabersat
- 12 Discussion summary: Nitric oxide and spreading depression modulators
- 13 Calcitonin gene-related peptide: relevance for migraine
- 14 New 5-hydroxytryptamine-related drug targets
- 15 Effect of two novel calcitonin gene-related peptide-binding compounds in a closed cranial window rat model
- 16 Vasoactive intestinal polypeptide is unlikely to be a target for headache and migraine treatment
- 17 Discussion summary: Calcitonin gene-related peptide and 5-hydroxytryptamine modulators
- 18 Migraine: from genes to pathophysiology – transgenic mouse models of migraine
- 19 KATP channels and migraine
- 20 Antiepileptic drugs and migraine
- 21 Discussion summary: Ion channel modulators and antiepileptics
- 22 Innovative drug development for headache disorders: glutamate
- 23 The modulation of TRPV1 channels by cannabinoid1 receptors
- 24 Future targets for headache therapy: prostanoids
- 25 Role of anandamide in the modulation of nitroglycerin-induced hyperalgesia: a study in the rat
- Index
(p. 25) Human models: screening models
(p. 25)
Human models: screening models
- Chapter:
- (p. 25) Human models: screening models
- Author(s):
Messoud Ashina
- DOI:
- 10.1093/med/9780199552764.003.0003
Chapter 3 discusses the difficulty in predicting the antimigraine action of drugs, and why early and cost-effective proof of concept studies in humans are important.
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- Preface
- Contributors
- 1 The human γ-aminobutyric acid transporter GAT-2: from cloning to high throughput screening
- 2 Low throughput preclinical models for headache*
- 3 Human models: screening models
- 4 Stricter success criteria, qualitative and quantitative end-points: acute versus prevention trials
- 5 Health-related quality of life and similar end-points
- 6 Clinically relevant designs and outcome measures for acute migraine trials
- 7 Effectiveness of different steroid dosage in Tolosa–Hunt syndrome with different phenotypes: some critical points about the new International Headache Society classification
- 8 Discussion summary: Trials methodology
- 9 Inducible nitric oxide synthase and development of new migraine treatments
- 10 Mechanisms of cortical spreading depression as targets for migraine therapy
- 11 Tonabersat
- 12 Discussion summary: Nitric oxide and spreading depression modulators
- 13 Calcitonin gene-related peptide: relevance for migraine
- 14 New 5-hydroxytryptamine-related drug targets
- 15 Effect of two novel calcitonin gene-related peptide-binding compounds in a closed cranial window rat model
- 16 Vasoactive intestinal polypeptide is unlikely to be a target for headache and migraine treatment
- 17 Discussion summary: Calcitonin gene-related peptide and 5-hydroxytryptamine modulators
- 18 Migraine: from genes to pathophysiology – transgenic mouse models of migraine
- 19 KATP channels and migraine
- 20 Antiepileptic drugs and migraine
- 21 Discussion summary: Ion channel modulators and antiepileptics
- 22 Innovative drug development for headache disorders: glutamate
- 23 The modulation of TRPV1 channels by cannabinoid1 receptors
- 24 Future targets for headache therapy: prostanoids
- 25 Role of anandamide in the modulation of nitroglycerin-induced hyperalgesia: a study in the rat
- Index
