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Literature DB >> 17554829

Optical parameter variability in laser nerve stimulation: a study of pulse duration, repetition rate, and wavelength.

Agnella D Izzo¹, Joseph T Walsh, E Duco Jansen, Mark Bendett, Jim Webb, Heather Ralph, Claus-Peter Richter.

Abstract

Pulsed lasers can evoke neural activity from motor as well as sensory neurons in vivo. Lasers allow more selective spatial resolution of stimulation than the conventional electrical stimulation. To date, few studies have examined pulsed, mid-infrared laser stimulation of nerves and very little of the available optical parameter space has been studied. In this study, a pulsed diode laser, with wavelength between 1.844-1.873 microm, was used to elicit compound action potentials (CAPs) from the auditory system of the gerbil. We found that pulse durations as short as 35 micros elicit a CAP from the cochlea. In addition, repetition rates up to 13 Hz can continually stimulate cochlear spiral ganglion cells for extended periods of time. Varying the wavelength and, therefore, the optical penetration depth, allowed different populations of neurons to be stimulated. The technology of optical stimulation could significantly improve cochlear implants, which are hampered by a lack of spatial selectivity.

Mesh：

Year: 2007 PMID： 17554829 PMCID： PMC3471085 DOI： 10.1109/TBME.2007.892925

Source DB: PubMed Journal: IEEE Trans Biomed Eng ISSN： 0018-9294 Impact factor: 4.538

24 in total

1. Speech recognition in noise as a function of the number of spectral channels: comparison of acoustic hearing and cochlear implants.

Authors: L M Friesen; R V Shannon; D Baskent; X Wang
Journal: J Acoust Soc Am Date: 2001-08 Impact factor: 1.840

Optical parameter variability in laser nerve stimulation: a study of pulse duration, repetition rate, and wavelength.

1. Speech recognition in noise as a function of the number of spectral channels: comparison of acoustic hearing and cochlear implants.

2. Stiffness of the gerbil basilar membrane: radial and longitudinal variations.

3. Psychophysical recovery from pulse-train forward masking in electric hearing.

4. Selectivity of neural stimulation in the auditory system: a comparison of optic and electric stimuli.

5. Single fiber mapping of spatial excitation patterns in the electrically stimulated auditory nerve.

6. Rate versus level functions for auditory-nerve fibers in cats: tone-burst stimuli.

7. Current distributions in the cat cochlea: a modelling and electrophysiological study.

8. Differential electrical excitation of the auditory nerve.

9. Tissue impedance and current flow in the implanted ear. Implications for the cochlear prosthesis.

10. Auditory-nerve response from cats raised in a low-noise chamber.

1. Acoustic events and "optophonic" cochlear responses induced by pulsed near-infrared laser.

2. Spatial extent of cochlear infrared neural stimulation determined by tone-on-light masking.

3. Target structures for cochlear infrared neural stimulation.

4. [Which colours can we hear?: light stimulation of the hearing system].

5. Spatial channel interactions in cochlear implants.

6. Laser stimulation of auditory neurons: effect of shorter pulse duration and penetration depth.

7. Pulsed 808-nm infrared laser stimulation of the auditory nerve in guinea pig cochlea.

8. Whole cell patch clamp for investigating the mechanisms of infrared neural stimulation.

9. Adult human nasal mesenchymal-like stem cells restore cochlear spiral ganglion neurons after experimental lesion.

Review 10. Electrical stimulation of cranial nerves in cognition and disease.