Christi L Kolarcik1, Carlos A Castro, Andrew Lesniak, Anthony J Demetris, Lee E Fisher, Robert A Gaunt, Douglas J Weber, X Tracy Cui. 1. Department of Bioengineering, University of Pittsburgh, Pittsburgh, PA, United States of America. Center for the Neural Basis of Cognition, University of Pittsburgh and Carnegic Mellon University, Pittsburgh, PA, United States of America. McGowan Institute for Regenerative Medicine, Pittsburgh, PA, United States of America. Systems Neuroscience Center, Pittsburgh, PA, United States of America. Live Like Lou Center for ALS Research, Department of Neurobiology, University of Pittsburgh, Pittsburgh, PA, United States of America.
Abstract
OBJECTIVE: Neural interfacing technologies could significantly improve quality of life for people living with the loss of a limb. Both motor commands and sensory feedback must be considered; these complementary systems are segregated from one another in the spinal nerve. APPROACH: The dorsal root ganglion-ventral root (DRG-VR) complex was targeted chronically with floating microelectrode arrays designed to record from motor neuron axons in the VR or stimulate sensory neurons in the DRG. Hematoxylin and eosin and Nissl/Luxol fast blue staining were performed. Characterization of the tissue response in regions of interest and pixel-based image analyses were used to quantify MAC387 (monocytes/macrophages), NF200 (axons), S100 (Schwann cells), vimentin (fibroblasts, endothelial cells, astrocytes), and GLUT1 (glucose transport proteins) reactivity. Implanted roots were compared to non-implanted roots and differences between the VR and DRG examined. MAIN RESULTS: The tissue response associated with chronic array implantation in this peripheral location is similar to that observed in central nervous system locations. Markers of inflammation were increased in implanted roots relative to control roots with MAC387 positive cells distributed throughout the region corresponding to the device footprint. Significant decreases in neuronal density and myelination were observed in both the VR, which contains only neuronal axons, and the DRG, which contains both neuronal axons and cell bodies. Notably, decreases in NF200 in the VR were observed only at implant times less than ten weeks. Observations related to the blood-nerve barrier and tissue integrity suggest that tissue remodeling occurs, particularly in the VR. SIGNIFICANCE: This study was designed to assess the viability of the DRG-VR complex as a site for neural interfacing applications and suggests that continued efforts to mitigate the tissue response will be critical to achieve the overall goal of a long-term, reliable neural interface.
OBJECTIVE: Neural interfacing technologies could significantly improve quality of life for people living with the loss of a limb. Both motor commands and sensory feedback must be considered; these complementary systems are segregated from one another in the spinal nerve. APPROACH: The dorsal root ganglion-ventral root (DRG-VR) complex was targeted chronically with floating microelectrode arrays designed to record from motor neuron axons in the VR or stimulate sensory neurons in the DRG. Hematoxylin and eosin and Nissl/Luxol fast blue staining were performed. Characterization of the tissue response in regions of interest and pixel-based image analyses were used to quantify MAC387 (monocytes/macrophages), NF200 (axons), S100 (Schwann cells), vimentin (fibroblasts, endothelial cells, astrocytes), and GLUT1 (glucose transport proteins) reactivity. Implanted roots were compared to non-implanted roots and differences between the VR and DRG examined. MAIN RESULTS: The tissue response associated with chronic array implantation in this peripheral location is similar to that observed in central nervous system locations. Markers of inflammation were increased in implanted roots relative to control roots with MAC387 positive cells distributed throughout the region corresponding to the device footprint. Significant decreases in neuronal density and myelination were observed in both the VR, which contains only neuronal axons, and the DRG, which contains both neuronal axons and cell bodies. Notably, decreases in NF200 in the VR were observed only at implant times less than ten weeks. Observations related to the blood-nerve barrier and tissue integrity suggest that tissue remodeling occurs, particularly in the VR. SIGNIFICANCE: This study was designed to assess the viability of the DRG-VR complex as a site for neural interfacing applications and suggests that continued efforts to mitigate the tissue response will be critical to achieve the overall goal of a long-term, reliable neural interface.
Authors: Gregory A Clark; Suzanne Wendelken; David M Page; Tyler Davis; Heather A C Wark; Richard A Normann; David J Warren; Douglas T Hutchinson Journal: Conf Proc IEEE Eng Med Biol Soc Date: 2014
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Authors: C L Kolarcik; D Bourbeau; E Azemi; E Rost; L Zhang; C F Lagenaur; D J Weber; X T Cui Journal: Acta Biomater Date: 2012-06-29 Impact factor: 8.947
Authors: Sandy Feng; John C Bucuvalas; Anthony J Demetris; Bryna E Burrell; Katherine M Spain; Sai Kanaparthi; John C Magee; David Ikle; Andrew Lesniak; Juan J Lozano; Estella M Alonso; Robert A Bray; Nancy E Bridges; Edward Doo; Howard M Gebel; Nitika A Gupta; Ryan W Himes; Annette M Jackson; Steven J Lobritto; George V Mazariegos; Vicky L Ng; Elizabeth B Rand; Averell H Sherker; Shikha Sundaram; Yumirle P Turmelle; Alberto Sanchez-Fueyo Journal: Gastroenterology Date: 2018-08-23 Impact factor: 22.682
Authors: Kumiko Isse; Andrew Lesniak; Kedar Grama; John Maier; Susan Specht; Marcela Castillo-Rama; John Lunz; Badrinath Roysam; George Michalopoulos; Anthony J Demetris Journal: Hepatology Date: 2013-03-19 Impact factor: 17.425