Maria Bacova1, Katarina Bimbova1, Jana Fedorova1, Nadezda Lukacova1, Jan Galik2. 1. Institute of Neurobiology of Biomedical Research Center Slovak Academy of Sciences, Soltesovej 4, 040 01 Kosice, Slovakia. 2. Institute of Neurobiology of Biomedical Research Center Slovak Academy of Sciences, Soltesovej 4, 040 01 Kosice, Slovakia. Electronic address: galik@saske.sk.
Abstract
BACKGROUND: Traumatic spinal cord injury (SCI) causes partial or total loss of sensory and motor functions. Despite enormous efforts, there is still no effective treatment which might improve patients' neurological status.The application of electric current to the injured spinal cord is known to promote healing and tissue regeneration. The use of this modality in treating the injured spinal cord to improve neurological recovery has been introduced as a potential treatment. NEW METHOD: Here we describe the method of epidural implantation of a miniature oscillating field (OF) stimulator designed in our laboratory immediately after Th9 spinal compression in Wistar rats. Three groups of animals were analyzed (intact; SCI only; OFS + SCI; n = 8 each). Histological, immunohistological and behavioral analysis were used to show the favorable effect of epidural OF stimulation on axonal regeneration and modulation of astrogliosis. RESULTS: Our study revealed considerable differences in white matter integrity in animals with an implanted OF stimulator. Moreover, we detected significantly increased numbers of neurofilaments and massive reduction in activated forms of astrocytes in the group of stimulated animals compared to the animals without stimulation. COMPARISON WITH EXISTING METHOD(S): Compared with previous research, our study revealed that epidural implantation of an OF stimulator immediately after spinal compression effectively reduced the expression of inflammatory response and suppressed activated astrocyte formation. CONCLUSIONS: Our finding confirms that implanting an OF stimulator is safe, stable and suitable for future combined therapy which could effectively promote and accelerate regeneration and functional restoration after spinal trauma.
BACKGROUND:Traumatic spinal cord injury (SCI) causes partial or total loss of sensory and motor functions. Despite enormous efforts, there is still no effective treatment which might improve patients' neurological status.The application of electric current to the injured spinal cord is known to promote healing and tissue regeneration. The use of this modality in treating the injured spinal cord to improve neurological recovery has been introduced as a potential treatment. NEW METHOD: Here we describe the method of epidural implantation of a miniature oscillating field (OF) stimulator designed in our laboratory immediately after Th9 spinal compression in Wistar rats. Three groups of animals were analyzed (intact; SCI only; OFS + SCI; n = 8 each). Histological, immunohistological and behavioral analysis were used to show the favorable effect of epidural OF stimulation on axonal regeneration and modulation of astrogliosis. RESULTS: Our study revealed considerable differences in white matter integrity in animals with an implanted OF stimulator. Moreover, we detected significantly increased numbers of neurofilaments and massive reduction in activated forms of astrocytes in the group of stimulated animals compared to the animals without stimulation. COMPARISON WITH EXISTING METHOD(S): Compared with previous research, our study revealed that epidural implantation of an OF stimulator immediately after spinal compression effectively reduced the expression of inflammatory response and suppressed activated astrocyte formation. CONCLUSIONS: Our finding confirms that implanting an OF stimulator is safe, stable and suitable for future combined therapy which could effectively promote and accelerate regeneration and functional restoration after spinal trauma.
Authors: Brian A Karamian; Nicholas Siegel; Blake Nourie; Mijail D Serruya; Robert F Heary; James S Harrop; Alexander R Vaccaro Journal: J Orthop Traumatol Date: 2022-01-06
Authors: Nadezda Lukacova; Alexandra Kisucka; Katarina Kiss Bimbova; Maria Bacova; Maria Ileninova; Tomas Kuruc; Jan Galik Journal: Int J Mol Sci Date: 2021-12-17 Impact factor: 5.923