Selective stimulation with intraneural electrodes for bionic limb prostheses can contribute to shed light on human touch sensorimotor integration.

"Additional information: Competing interests: No competing interests declared.: Author contributionsSole author.: FundingThe ideas discussed in this perspective paper were supported in part by the Tuscany Region through the TUscany NEtwork for BioElectronic Approaches in Medicine: AI based predictive algorithms for fine‐tuning of electroceutics treatments in neurological, cardiovascular and endocrinological diseases (TUNE‐BEAM, n. H14I20000300002) and by the European Commission through the NEuro‐controlled BIdirectional Artificial upper limb and hand prosthesiS project (NEBIAS, n. 611687)."

"Funding The ideas discussed in this perspective paper were supported in part by the Tuscany Region through the TUscany NEtwork for BioElectronic Approaches in Medicine: AI based predictive algorithms for fine‐tuning of electroceutics treatments in neurological, cardiovascular and endocrinological diseases (TUNE‐BEAM, n. H14I20000300002) and by the European Commission through the NEuro‐controlled BIdirectional Artificial upper limb and hand prosthesiS project (NEBIAS, n. 611687)."