Infrared neural stimulation of human spinal nerve roots in vivo
Infrared neural stimulation (INS) is a neurostimulation modality that uses pulsed infrared light to evoke artifact-free, spatially precise neural activity with a noncontact interface; however, the technique has not been demonstrated in humans. The objective of this study is to demonstrate the safety...
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| Published in: | Neurophotonics (Print) Vol. 2; no. 1; p. 015007 |
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| Main Authors: | , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Society of Photo-Optical Instrumentation Engineers
01-01-2015
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| Abstract | Infrared neural stimulation (INS) is a neurostimulation modality that uses pulsed infrared light to evoke artifact-free, spatially precise neural activity with a noncontact interface; however, the technique has not been demonstrated in humans. The objective of this study is to demonstrate the safety and efficacy of INS in humans in vivo. The feasibility of INS in humans was assessed in patients (n=7) undergoing selective dorsal root rhizotomy, where hyperactive dorsal roots, identified for transection, were stimulated in vivo with INS on two to three sites per nerve with electromyogram recordings acquired throughout the stimulation. The stimulated dorsal root was removed and histology was performed to determine thermal damage thresholds of INS. Threshold activation of human dorsal rootlets occurred in 63% of nerves for radiant exposures between 0.53 and 1.23 J/cm2. In all cases, only one or two monitored muscle groups were activated from INS stimulation of a hyperactive spinal root identified by electrical stimulation. Thermal damage was first noted at 1.09 J/cm2 and a 2∶1 safety ratio was identified. These findings demonstrate the success of INS as a fresh approach for activating human nerves in vivo and providing the necessary safety data needed to pursue clinically driven therapeutic and diagnostic applications of INS in humans. |
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| AbstractList | Infrared neural stimulation (INS) is a neurostimulation modality that uses pulsed infrared light to evoke artifact-free, spatially precise neural activity with a noncontact interface; however, the technique has not been demonstrated in humans. The objective of this study is to demonstrate the safety and efficacy of INS in humans
in vivo
. The feasibility of INS in humans was assessed in patients (
n
=
7
) undergoing selective dorsal root rhizotomy, where hyperactive dorsal roots, identified for transection, were stimulated
in vivo
with INS on two to three sites per nerve with electromyogram recordings acquired throughout the stimulation. The stimulated dorsal root was removed and histology was performed to determine thermal damage thresholds of INS. Threshold activation of human dorsal rootlets occurred in 63% of nerves for radiant exposures between 0.53 and
1.23
J
/
cm
2
. In all cases, only one or two monitored muscle groups were activated from INS stimulation of a hyperactive spinal root identified by electrical stimulation. Thermal damage was first noted at
1.09
J
/
cm
2
and a
2
∶
1
safety ratio was identified. These findings demonstrate the success of INS as a fresh approach for activating human nerves
in vivo
and providing the necessary safety data needed to pursue clinically driven therapeutic and diagnostic applications of INS in humans. Infrared neural stimulation (INS) is a neurostimulation modality that uses pulsed infrared light to evoke artifact-free, spatially precise neural activity with a noncontact interface; however, the technique has not been demonstrated in humans. The objective of this study is to demonstrate the safety and efficacy of INS in humans in vivo. The feasibility of INS in humans was assessed in patients ([Formula: see text]) undergoing selective dorsal root rhizotomy, where hyperactive dorsal roots, identified for transection, were stimulated in vivo with INS on two to three sites per nerve with electromyogram recordings acquired throughout the stimulation. The stimulated dorsal root was removed and histology was performed to determine thermal damage thresholds of INS. Threshold activation of human dorsal rootlets occurred in 63% of nerves for radiant exposures between 0.53 and [Formula: see text]. In all cases, only one or two monitored muscle groups were activated from INS stimulation of a hyperactive spinal root identified by electrical stimulation. Thermal damage was first noted at [Formula: see text] and a [Formula: see text] safety ratio was identified. These findings demonstrate the success of INS as a fresh approach for activating human nerves in vivo and providing the necessary safety data needed to pursue clinically driven therapeutic and diagnostic applications of INS in humans. Infrared neural stimulation (INS) is a neurostimulation modality that uses pulsed infrared light to evoke artifact-free, spatially precise neural activity with a noncontact interface; however, the technique has not been demonstrated in humans. The objective of this study is to demonstrate the safety and efficacy of INS in humans in vivo. The feasibility of INS in humans was assessed in patients (n=7) undergoing selective dorsal root rhizotomy, where hyperactive dorsal roots, identified for transection, were stimulated in vivo with INS on two to three sites per nerve with electromyogram recordings acquired throughout the stimulation. The stimulated dorsal root was removed and histology was performed to determine thermal damage thresholds of INS. Threshold activation of human dorsal rootlets occurred in 63% of nerves for radiant exposures between 0.53 and 1.23 J/cm2. In all cases, only one or two monitored muscle groups were activated from INS stimulation of a hyperactive spinal root identified by electrical stimulation. Thermal damage was first noted at 1.09 J/cm2 and a 2∶1 safety ratio was identified. These findings demonstrate the success of INS as a fresh approach for activating human nerves in vivo and providing the necessary safety data needed to pursue clinically driven therapeutic and diagnostic applications of INS in humans. |
| Author | Cayce, Jonathan M Malphrus, Jonathan D Tulipan, Noel B Kao, Chris Jansen, E. Duco Konrad, Peter E Thomsen, Sharon Mahadevan-Jansen, Anita Wells, Jonathon D |
| Author_xml | – sequence: 1 givenname: Jonathan M surname: Cayce fullname: Cayce, Jonathan M organization: aVanderbilt University, Department of Biomedical Engineering, 5824 Stevenson Center, Station B, Box 351631 Nashville, Tennessee 37235-1631, United States – sequence: 2 givenname: Jonathon D surname: Wells fullname: Wells, Jonathon D organization: bLockheed Martin, 22121 20th Avenue SE, Bothell, Washington 98021, United States – sequence: 3 givenname: Jonathan D surname: Malphrus fullname: Malphrus, Jonathan D organization: aVanderbilt University, Department of Biomedical Engineering, 5824 Stevenson Center, Station B, Box 351631 Nashville, Tennessee 37235-1631, United States – sequence: 4 givenname: Chris surname: Kao fullname: Kao, Chris organization: cVanderbilt University, Department of Neurological Surgery, 1161 21st Avenue, Nashville, Tennessee 37232-2380, United States – sequence: 5 givenname: Sharon surname: Thomsen fullname: Thomsen, Sharon organization: dUniversity of Texas, Department of Biomedical Engineering, Austin, Texas, and 500 Discovery View Drive, Sequim, Washington 98382, United States – sequence: 6 givenname: Noel B surname: Tulipan fullname: Tulipan, Noel B organization: cVanderbilt University, Department of Neurological Surgery, 1161 21st Avenue, Nashville, Tennessee 37232-2380, United States – sequence: 7 givenname: Peter E surname: Konrad fullname: Konrad, Peter E organization: cVanderbilt University, Department of Neurological Surgery, 1161 21st Avenue, Nashville, Tennessee 37232-2380, United States – sequence: 8 givenname: E. Duco surname: Jansen fullname: Jansen, E. Duco organization: cVanderbilt University, Department of Neurological Surgery, 1161 21st Avenue, Nashville, Tennessee 37232-2380, United States – sequence: 9 givenname: Anita surname: Mahadevan-Jansen fullname: Mahadevan-Jansen, Anita email: anita.mahadevan-jansen@vanderbilt.edu organization: cVanderbilt University, Department of Neurological Surgery, 1161 21st Avenue, Nashville, Tennessee 37232-2380, United States |
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| Keywords | infrared neural stimulation neurophotonics optics electromyography spinal nerve roots |
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| Title | Infrared neural stimulation of human spinal nerve roots in vivo |
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