111946-79-3Relevant academic research and scientific papers
P2X3, RECEPTOR ANTAGONISTS FOR TREATMENT OF PAIN
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Paragraph 0106, (2018/02/04)
The subject invention relates to novel P2X3 receptor antagonists that play a critical role in treating disease states associated with pain, in particular peripheral pain, inflammatory pain, or tissue injury pain that can be treated using a P2X3 receptor s
HETEROCYCLIC AMIDE DERIVATIVE AND PHARMACEUTICAL PRODUCT CONTAINING SAME
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Paragraph 0294; 0295, (2014/11/13)
The present invention aims to provide a novel compound having a TRPA1 antagonist activity, and a medicament containing the compound. Moreover, the present invention aims to provide a TRPA1 antagonist and a medicament useful for the prophylaxis or treatmen
P2X3, RECEPTOR ANTAGONISTS FOR TREATMENT OF PAIN
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Page/Page column 61, (2010/11/18)
The subject invention relates to novel P2X3 receptor antagonists that play a critical role in treating disease states associated with pain, in particular peripheral pain, inflammatory pain, or tissue injury pain that can be treated using a P2X3 receptor subunit modulator.
P2X3 RECEPTOR ANTAGONISTS FOR TREATMENT OF PAIN
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Page/Page column 45-46, (2010/11/18)
The subject invention relates to novel P2X3 receptor antagonists that play a critical role in treating disease states associated with pain, in particular peripheral pain, inflammatory pain, or tissue injury pain that can be treated using a P2X
P2X3, RECEPTOR ANTAGONISTS FOR TREATMENT OF PAIN
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Page/Page column 141-142, (2009/06/27)
The subject invention relates to novel P2X3 receptor antagonists that play a critical role in treating disease states associated with pain, in particular peripheral pain, inflammatory pain, or tissue injury pain that can be treated using a P2X3 receptor subunit modulator.
P2X3 RECEPTOR ANTAGONISTS FOR TREATMENT OF PAIN
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Page/Page column 58, (2009/06/27)
The subject invention relates to novel P2X3 receptor antagonists that play a critical role in treating disease states associated with pain, in particular peripheral pain, inflammatory pain, or tissue injury pain that can be treated using a P2X3 receptor s
PYRAZOLE DERIVATIVES AS INHIBITORS OF RECEPTOR TYROSYNE KINASES
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Page/Page column 105, (2008/06/13)
Compounds of formula (I): and their use in the inhibition of Trk activity are described.
