Remote automated delivery of mechanical stimuli coupled to brain recordings in behaving mice
Remote automated delivery of mechanical stimuli coupled to brain recordings in behaving mice
Summary The canonical framework for testing pain and mechanical sensitivity in rodents is manual delivery of stimuli to the paw. However, this approach can produce variability in results, requires significant training, and is ergonomically unfavorable to the experimenter. To circumvent limitations in manual delivery of stimuli, we have created a device called the ARM (Automated Reproducible Mechano-stimulator). Built using a series of linear stages, cameras, and stimulus holders, the ARM is more accurate at hitting the desired target, delivers stimuli faster, and decreases variability in delivery of von Frey hair filaments. We demonstrate that the ARM can be combined with traditional measurements of pain behavior and automated machine-learning based pipelines. Importantly, the ARM enables remote testing of mice with experimenters outside the testing room. Using remote testing, we found that mice appeared to habituate more quickly when an experimenter was not present and experimenter presence leads to significant sex-dependent differences in withdrawal behavior. Lastly, to demonstrate the utility of the ARM for neural circuit dissection of pain mechanisms, we combined the ARM with cellular-resolved microendoscopy in the amygdala, linking stimulus, behavior, and brain activity of amygdalar neurons that encode negative pain states. Taken together, the ARM improves speed, accuracy, and robustness of mechanical pain assays and can be combined with automated pain detection systems and brain recordings to map pain sensation and affect.
Burdge Justin、Fulton Sasha、Foster William、Morizawa Yosuke M.、Loran Noah、Yang Guang、Ogundare Simon、Khan Ashar、Li Miao、Yadessa Leah、Jhumka Anissa、Baer Nicholas、Toussaint Andre、Delinois Abednego、Abdus-Saboor Ishmail、Mayiseni Wadzanayi、Bistis Brittany
Zuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteDepartment of Anesthesiology, Columbia University in the City of New YorkZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteDepartment of Anesthesiology, Columbia University in the City of New YorkZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteDepartment of Anesthesiology, Columbia University in the City of New YorkZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical InstituteZuckerman Mind Brain Behavior Institute, Columbia University in the City of New York||Department of Biological Sciences, Columbia University in the City of New York||Howard Hughes Medical Institute
医学研究方法基础医学生物科学研究方法、生物科学研究技术
Burdge Justin,Fulton Sasha,Foster William,Morizawa Yosuke M.,Loran Noah,Yang Guang,Ogundare Simon,Khan Ashar,Li Miao,Yadessa Leah,Jhumka Anissa,Baer Nicholas,Toussaint Andre,Delinois Abednego,Abdus-Saboor Ishmail,Mayiseni Wadzanayi,Bistis Brittany.Remote automated delivery of mechanical stimuli coupled to brain recordings in behaving mice[EB/OL].(2025-03-28)[2025-05-29].https://www.biorxiv.org/content/10.1101/2024.05.06.592101.点此复制
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