scholarly article | Q13442814 |
editorial | Q871232 |
P2093 | author name string | E Paul Zehr | |
P2860 | cites work | Bioethics. Embryo engineering alarm | Q48045047 |
Enhancing vigilance in operators with prefrontal cortex transcranial direct current stimulation (tDCS). | Q48256047 | ||
Neuroenhancement: enhancing brain and mind in health and in disease | Q49032611 | ||
Ethics of embryo editing divides scientists. | Q52423479 | ||
Conscious brain-to-brain communication in humans using non-invasive technologies | Q21558794 | ||
Biotechnology. A prudent path forward for genomic engineering and germline gene modification | Q22065510 | ||
Facilitation and restoration of cognitive function in primate prefrontal cortex by a neuroprosthesis that utilizes minicolumn-specific neural firing | Q24607420 | ||
A cortical neural prosthesis for restoring and enhancing memory | Q24630538 | ||
Systems neuroscience in focus: from the human brain to the global brain? | Q28650400 | ||
A brain-to-brain interface for real-time sharing of sensorimotor information. | Q30536903 | ||
The potential transformation of our species by neural enhancement | Q30883794 | ||
Brain mapping using transcranial magnetic stimulation | Q33855075 | ||
Acute human brain responses to intracortical microelectrode arrays: challenges and future prospects | Q33925633 | ||
Brain-machine interfaces: past, present and future | Q33997834 | ||
Forebrain engraftment by human glial progenitor cells enhances synaptic plasticity and learning in adult mice | Q34331873 | ||
A competitive advantage by neonatally engrafted human glial progenitors yields mice whose brains are chimeric for human glia | Q34573451 | ||
Brain-machine interfaces as a challenge to the "moment of singularity". | Q34722158 | ||
Cerebellar direct current stimulation enhances on-line motor skill acquisition through an effect on accuracy | Q35092737 | ||
What will this do to me and my brain? Ethical issues in brain-to-brain interfacing | Q35120523 | ||
Transcranial magnetic stimulation: review of the technique, basic principles and applications | Q35145956 | ||
Transhumanism, medical technology and slippery slopes | Q36581992 | ||
Translational approach to behavioral learning: lessons from cerebellar plasticity | Q37351617 | ||
Neural interface technology for rehabilitation: exploiting and promoting neuroplasticity | Q37458575 | ||
Bridging the Divide between Neuroprosthetic Design, Tissue Engineering and Neurobiology | Q37693739 | ||
Brain-computer interfaces in medicine | Q37983176 | ||
Physiological challenges for intracortical electrodes | Q38128649 | ||
Cell and biomolecule delivery for tissue repair and regeneration in the central nervous system | Q38216096 | ||
The uses and interpretations of the motor-evoked potential for understanding behaviour | Q38309032 | ||
Cellular modulation of polymeric device surfaces: promise of adult stem cells for neuro-prosthetics | Q38659711 | ||
Behavioral rehabilitation of the eye closure reflex in senescent rats using a real-time biosignal acquisition system. | Q39662971 | ||
A VLSI field-programmable mixed-signal array to perform neural signal processing and neural modeling in a prosthetic system. | Q40029365 | ||
A neuro-inspired model-based closed-loop neuroprosthesis for the substitution of a cerebellar learning function in anesthetized rats | Q41809323 | ||
The ethical, moral, and pragmatic rationale for brain augmentation | Q41908610 | ||
A Cerebellar Neuroprosthetic System: Computational Architecture and in vivo Test | Q42778460 | ||
P921 | main subject | tissue engineering | Q1540285 |
P304 | page(s) | 72 | |
P577 | publication date | 2015-05-19 | |
P1433 | published in | Frontiers in Systems Neuroscience | Q15816495 |
P1476 | title | Future think: cautiously optimistic about brain augmentation using tissue engineering and machine interface | |
P478 | volume | 9 |
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