DagsHub-Datasets
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dandiarchive-dataset


  
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            {"id":"DANDI:001031/0.240520.1924","url":"https://dandiarchive.org/dandiset/001031/0.240520.1924","name":"High-frequency (100 kHz) rectangular bipolar pulses stimulation of individual hippocampal neurons: the effect of electric field","about":[],"access":[{"status":"dandi:OpenAccess","schemaKey":"AccessRequirements"}],"license":["spdx:CC-BY-4.0"],"version":"0.240520.1924","@context":"https://raw.githubusercontent.com/dandi/schema/master/releases/0.6.7/context.json","citation":"Silkuniene, Giedre; Kim, Vitalii; Pakhomov, Andrei (2024) High-frequency (100 kHz) rectangular bipolar pulses stimulation of individual hippocampal neurons: the effect of electric field (Version 0.240520.1924) [Data set]. DANDI archive. https://dandiarchive.org/dandiset/001031/0.240520.1924","keywords":[],"protocol":[],"schemaKey":"Dandiset","identifier":"DANDI:001031","repository":"https://dandiarchive.org","contributor":[{"name":"Silkuniene, Giedre","email":"giedre.silkuniene@gmail.com","roleName":["dcite:ContactPerson"],"schemaKey":"Person","identifier":"0000-0001-8436-9718","affiliation":[],"includeInCitation":true},{"name":"Kim, Vitalii","schemaKey":"Person","identifier":"0000-0003-0699-5582","includeInCitation":true},{"name":"Pakhomov, Andrei","roleName":["dcite:ProjectLeader"],"schemaKey":"Person","identifier":"0000-0003-3816-3860","includeInCitation":true},{"name":"National Institutes of Health","roleName":["dcite:Funder"],"schemaKey":"Organization","awardNumber":"5R21EY034803","includeInCitation":false}],"dateCreated":"2024-05-18T20:33:31.336567+00:00","description":"This dataset includes recordings of hippocampal neurons stimulated at 100 kHz under various amplitudes (measured as one polarity, V; the peak-to-peak value would be double this amount). Rectangular bipolar pulses were applied continuously for 2 seconds, beginning at 25 ms, with a 50% duty cycle. The pulse amplitude was constant at the indicated voltage. For the electrode configuration used, 1V corresponds to 36 V/cm. Neuron action potentials were visualized using the voltage-sensitive fluorescent dye, FluoVolt. This study was partially supported by NIH grant 15R21EY034803.","publishedBy":{"id":"urn:uuid:3213d9be-59fc-4ec8-863e-d9a4fdab63d8","name":"DANDI publish","endDate":"2024-05-20T19:24:37.666319+00:00","schemaKey":"PublishActivity","startDate":"2024-05-20T19:24:37.666319+00:00","wasAssociatedWith":[{"id":"urn:uuid:4df2f1a7-edba-42ad-afa9-2cf66a1e3598","name":"DANDI API","version":"0.1.0","schemaKey":"Software","identifier":"RRID:SCR_017571"}]},"studyTarget":[],"assetsSummary":{"species":[{"name":"Mus musculus - House mouse","schemaKey":"SpeciesType","identifier":"http://purl.obolibrary.org/obo/NCBITaxon_10090"}],"approach":[],"schemaKey":"AssetsSummary","dataStandard":[{"name":"Neurodata Without Borders (NWB)","schemaKey":"StandardsType","identifier":"RRID:SCR_015242"}],"numberOfBytes":4305334,"numberOfFiles":10,"numberOfSubjects":20,"variableMeasured":[],"measurementTechnique":[]},"datePublished":"2024-05-20T19:24:37.666319+00:00","schemaVersion":"0.6.7","ethicsApproval":[],"wasGeneratedBy":[{"name":"Next Generation Temporal Interference Stimulation for Non-Invasive Neuromodulation","schemaKey":"Project","identifier":"5R21EY034803"}],"relatedResource":[],"manifestLocation":["https://dandiarchive.s3.amazonaws.com/dandisets/001031/0.240520.1924/assets.yaml"]}