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The integrated brain network that controls respiration | eLife
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
Philipp Kharabarin by David Wang for Kenton Magazine
The integrated brain network that controls respiration | eLife
Frontiers | Apoptosis, Autophagy, NETosis, Necroptosis, and Pyroptosis Mediated Programmed Cell Death as Targets for Innovative Therapy in Rheumatoid Arthritis
Andre Ziehe & Jean Carlos by David Wang for Kenton
January 2, 2016 by Ladue News - Issuu
Frontiers | Apoptosis, Autophagy, NETosis, Necroptosis, and Pyroptosis Mediated Programmed Cell Death as Targets for Innovative Therapy in Rheumatoid Arthritis
Andre Ziehe & Jean Carlos by David Wang for Kenton
Inhibition of acid‐sensing ion channels by diminazene and APETx2 evoke partial and highly variable antihyperalgesia in a rat model of inflammatory pain - Lee - 2018 - British Journal of Pharmacology - Wiley Online Library
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Final Program - American Society of Gene & Cell Therapy
Andre Ziehe & Jean Carlos by David Wang for Kenton
Inhibition of acid‐sensing ion channels by diminazene and APETx2 evoke partial and highly variable antihyperalgesia in a rat model of inflammatory pain - Lee - 2018 - British Journal of Pharmacology - Wiley Online Library
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
The Sports Examiner Blog - Page 3 of 200 - The Sports Examiner
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
The integrated brain network that controls respiration | eLife
Toxins | Free Full-Text | Mechanisms of Action of the Peptide Toxins Targeting Human and Rodent Acid-Sensing Ion Channels and Relevance to Their In Vivo Analgesic Effects
Andre Ziehe & Jean Carlos by David Wang for Kenton
The integrated brain network that controls respiration | eLife