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A major interest in my lab is to use microfluidic cultures to grow neurons responsible for the transmission of pain signals, in a way that closely mimics their functionality in the body. We believe that using such sophisticated organ-in-a-dish models, will help to unravel the mechanisms of pathological pain, and eventually reduce the number of animals used in biomedical research. ‘Pain-in-a-dish', is a microfluidic culture model of peripheral pain system developed in my lab is now being widely applied to research into molecular mechanisms of peripheral pain.
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论文共 23 篇作者统计合作学者相似作者
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biorxiv(2022)
Science Signalingno. 535 (2018): 1-10
Ramin Raouf, Angel Vazquez Alonso,Philippe Seguela,Zizhen Zhang,Yuji Ikegaya,Shigehiro Namiki,Hiroaki Norimoto,Chiaki Kobayashi, K Nakatani,Norio Matsuki
mag(2015)
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Christoforos Tsantoulas,Clare Farmer, Patricia Machado, Katsuhiro Baba,Stephen B McMahon,Ramin Raouf
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