Microelectrode Spinal Implants to Control Paralyzed Limb Function Implantable spinal-cord-neuroprostheses aiming to restore standing and walking after paralysis have been extensively studied in animal models (mainly cats) and have shown promising outcomes.
RT @Kyukimasa: サルにおけるLumbar enlargement (脊椎神経腰部)の運動機能のマッピング https://t.co/xzDDfrvw9t デバイスを埋め込んで代替させることを目指してる。” clinical translation path of…
RT @Kyukimasa: サルにおけるLumbar enlargement (脊椎神経腰部)の運動機能のマッピング https://t.co/xzDDfrvw9t デバイスを埋め込んで代替させることを目指してる。” clinical translation path of…
RT @Kyukimasa: サルにおけるLumbar enlargement (脊椎神経腰部)の運動機能のマッピング https://t.co/xzDDfrvw9t デバイスを埋め込んで代替させることを目指してる。” clinical translation path of…
サルにおけるLumbar enlargement (脊椎神経腰部)の運動機能のマッピング https://t.co/xzDDfrvw9t デバイスを埋め込んで代替させることを目指してる。” clinical translation path of these neuroprostheses”
RT @ctr4neurotech: New study in @nature, co-authored by Steve Perlmutter, CNT member @UW, and Vivian Mushahwar, CNT Scientific Advisory Boa…
RT @ctr4neurotech: New study in @nature, co-authored by Steve Perlmutter, CNT member @UW, and Vivian Mushahwar, CNT Scientific Advisory Boa…
RT @ctr4neurotech: New study in @nature, co-authored by Steve Perlmutter, CNT member @UW, and Vivian Mushahwar, CNT Scientific Advisory Boa…
New study in @nature, co-authored by Steve Perlmutter, CNT member @UW, and Vivian Mushahwar, CNT Scientific Advisory Board chair, investigates the origin of locomotor networks in the spinal cord. @NSF_ENG @uwmnewsroom @uwengineering @vmushahw @neuramirali
RT @vmushahw: Congratulations to Amirali Toossi on the publication of his paper: https://t.co/k1FdaLBCCW. This study investigated the organ…
Congratulations to Amirali Toossi on the publication of his paper: https://t.co/k1FdaLBCCW. This study investigated the organization of locomotor networks in the spinal cord, and demonstrated that this organization is vastly preserved between species.