Cometa, AndreaFalasconi, AntonioBiasizzo, MarcoCarpaneto, JacopoHorn, AndreasMazzoni, AlbertoMicera, Silvestro2022-12-192022-12-192022-12-192022-10-2110.1016/j.isci.2022.105124https://infoscience.epfl.ch/handle/20.500.14299/193405WOS:000886528900004In the last decades, clinical neuroscience found a novel ally in neurotechnologies, devices able to record and stimulate electrical activity in the nervous system. These technologies improved the ability to diagnose and treat neural disorders. Neurotechnologies are concurrently enabling a deeper understanding of healthy and pathological dynamics of the nervous system through stimulation and record-ings during brain implants. On the other hand, clinical neurosciences are not only driving neuroengineering toward the most relevant clinical issues, but are also shaping the neurotechnologies thanks to clinical advancements. For instance, un-derstanding the etiology of a disease informs the location of a therapeutic stim-ulation, but also the way stimulation patterns should be designed to be more effective/naturalistic. Here, we describe cases of fruitful integration such as Deep Brain Stimulation and cortical interfaces to highlight how this symbiosis be-tween clinical neuroscience and neurotechnology is closer to a novel integrated framework than to a simple interdisciplinary interaction.Multidisciplinary SciencesScience & Technology - Other Topicsdeep brain-stimulationhuman subthalamic nucleusprimate motor cortexparkinsons-diseasebasal gangliacomputer interfacecortical controlglobus-pallidusarm movementsintraoperative electrocorticographytext::journal::journal article::review article