Add to ORKGJournal ArticleWe are exploring alternatives to Pt/Ir wire for constructing ultra-flexible neural intrafascicular electrodes suitable for chronic implantation. In this study we measured the flexural properties of several kinds of fine metal wires and conducting polymer fibers. The fibers were made either of intrinsically conductive polymers (polyaniline, polythiophene) or good mechanical polymers (nylon, Kevlar). The latter were made conductive through sputter coating with a thin layer of platinum. While the fiber flexibility (moment required for a 7.5º deflection) of the nylon and Kevlar fibers ranged from 10-35 pg-cm, some 50 to 150 times less stiff than Pt/Ir wire, their tensile strengths were approximately equal to that of M...
Objective. Electrical stimulation of the peripheral nervous system (PNS) can treat various diseases ...
Nerve damage is the major cause of disability worldwide. Unlike other cells in the body, neurons do ...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2006.This ele...
Journal ArticleWe examined the recording characteristics of two different types of polymer-based lon...
Platinum is electrochemically stable and biocompatible, and remains the preferred material for the f...
Flexible polymeric bioelectronics have the potential to address the limitations of metallic electrod...
Compliant microelectrodes have been designed in a microcable geometry that can be used individually ...
Neuroprosthetic interventions are strategies aimed at treating a wide range of neurological disorder...
Journal ArticleWe have designed a new type of intrafascicular, implanted electrode for stimulating p...
Neuroprosthetic interventions are strategies aimed at treating a wide range of neurological disorder...
Nerve block waveforms require the passage of large amounts of electrical energy at the neural interf...
Parylene C is a highly flexible polymer used in several biomedical implants. Since previous studies ...
Abstract Peripheral nerve interfaces are a central technology in advancing bioelectronic medicines b...
Ultra-flexible thin film microelectrode arrays were designed, fabricated and tested in vitro and in ...
Neural prosthetic devices are artificial extensions to the body that restore or supplement function ...
Objective. Electrical stimulation of the peripheral nervous system (PNS) can treat various diseases ...
Nerve damage is the major cause of disability worldwide. Unlike other cells in the body, neurons do ...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2006.This ele...
Journal ArticleWe examined the recording characteristics of two different types of polymer-based lon...
Platinum is electrochemically stable and biocompatible, and remains the preferred material for the f...
Flexible polymeric bioelectronics have the potential to address the limitations of metallic electrod...
Compliant microelectrodes have been designed in a microcable geometry that can be used individually ...
Neuroprosthetic interventions are strategies aimed at treating a wide range of neurological disorder...
Journal ArticleWe have designed a new type of intrafascicular, implanted electrode for stimulating p...
Neuroprosthetic interventions are strategies aimed at treating a wide range of neurological disorder...
Nerve block waveforms require the passage of large amounts of electrical energy at the neural interf...
Parylene C is a highly flexible polymer used in several biomedical implants. Since previous studies ...
Abstract Peripheral nerve interfaces are a central technology in advancing bioelectronic medicines b...
Ultra-flexible thin film microelectrode arrays were designed, fabricated and tested in vitro and in ...
Neural prosthetic devices are artificial extensions to the body that restore or supplement function ...
Objective. Electrical stimulation of the peripheral nervous system (PNS) can treat various diseases ...
Nerve damage is the major cause of disability worldwide. Unlike other cells in the body, neurons do ...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2006.This ele...