Repair of spinal cord injury with neuronal relays: From fetal grafts to neural stem cells

Bonner, Joseph F.; Steward, Oswald

doi:10.1016/j.brainres.2015.01.006

Cited by 75 publications

(52 citation statements)

References 74 publications

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“…FSC tissue has been used as a cellular resource for spinal cord repair [30,31]. Our results demonstrated that FSC-derived Table 1 The body weight and respiratory behavior of unanesthetized rats before and after transplantation grafts can fill the lesion cavity and survive in the injured spinal cord for at least 8 weeks.…”

Section: Survival Of Fsc Graftsmentioning

confidence: 74%

The Therapeutic Effectiveness of Delayed Fetal Spinal Cord Tissue Transplantation on Respiratory Function Following Mid-Cervical Spinal Cord Injury

et al. 2017

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Respiratory impairment due to damage of the spinal respiratory motoneurons and interruption of the descending drives from brainstem premotor neurons to spinal respiratory motoneurons is the leading cause of morbidity and mortality following cervical spinal cord injury. The present study was designed to evaluate the therapeutic effectiveness of delayed transplantation of fetal spinal cord (FSC) tissue on respiratory function in rats with mid-cervical spinal cord injury. Embryonic day-14 rat FSC tissue was transplanted into a C4 spinal cord hemilesion cavity in adult male rats at 1 week postinjury. The histological results showed that FSC-derived grafts can survive, fill the lesion cavity, and differentiate into neurons and astrocytes at 8 weeks post-transplantation. Some FSC-derived graft neurons exhibited specific neurochemical markers of neurotransmitter (e.g., serotonin, noradrenalin, or acetylcholine). Moreover, a robust expression of glutamatergic and γ-aminobutyric acid-ergic fibers was observed within FSC-derived grafts. Retrograde tracing results indicated that there was a connection between FSC-derived grafts and host phrenic nucleus. Neurophysiological recording of the phrenic nerve demonstrated that phrenic burst amplitude ipsilateral to the lesion was significantly greater in injured animals that received FSC transplantation than in those that received buffer transplantation under high respiratory drives. These results suggest that delayed FSC transplantation may have the potential to repair the injured spinal cord and promote respiratory functional recovery after mid-cervical spinal cord injury.

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Section: Survival Of Fsc Graftsmentioning

confidence: 74%

The Therapeutic Effectiveness of Delayed Fetal Spinal Cord Tissue Transplantation on Respiratory Function Following Mid-Cervical Spinal Cord Injury

et al. 2017

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“…Cell grafting after SCI has a long history comprehensively reviewed elsewhere (161,162). In humans, anatomically complete lesions are dominated by large non-neural lesion cores ( Figure 1C and ref.…”

Section: R E V I E W S E R I E S : G L I a A N D N E U R O D E G E N mentioning

confidence: 99%

Cell biology of spinal cord injury and repair

O’Shea¹,

Burda²,

Sofroniew³

2017

Journal of Clinical Investigation

432

349

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“…These strategies are primarily directed towards promoting repair of the damage and/or minimising the secondary injury processes. [33] Besides several invasive and pharmacological management strategies, we selected to study the influence of ELF-MF exposure in SCI rats. ELF-MF has the advantage of being non-invasive, non-pharmacological and simple to administer management strategy.…”

Section: Discussionmentioning

confidence: 99%

Extremely Low Frequency Magnetic Field Exposure Attenuates Pain By Inactivation Of Descending Facilitatory System In Complete Spinal Cord Injured Rats

Ambalayam¹,

Mathur²

2018

AIMDR

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Background: To investigate the effect of chronic exposure to extremely low frequency magnetic field (ELF-MF) on pain modulation status of completely spinal cord injured (SCI) in rats. Methods: Male Wistar rats were divided into Sham (Laminectomy), SCI (complete transection of T13 spinal cord) and SCI+MF (ELF-MF: 17.96 µT, 50 Hz, 2h/day exposure to SCI rats) groups. Pain was studied by utilizing threshold of tail flick (TTF), forepaw lick latency (FPL) and its modulation by temporal summation (TS) and diffuse noxious inhibitory control (DNIC). These tests were performed before surgery (week 0), and after surgery (weeks 4 and 8). Locomotor function was assessed by BBB score at post-SCI weeks 1,3,5,7 and 8. At the end of week 8, spinal cords were collected for histological analysis. Results: Data revealed post-SCI significant decrease in TTF and FPL. The amplitude of TS response was increased, while TTF response was not disappeared after pressure pain application in DNIC paradigm. SCI rats also revealed a significant lower BBB score. However, MF exposure to SCI rats significantly restored the above parameters. Conclusion: Our observations suggested reduction in post-SCI hyperalgesia by inactivation of descending facilitatory system after MF exposure to SCI rats.

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Repair of spinal cord injury with neuronal relays: From fetal grafts to neural stem cells

Cited by 75 publications

References 74 publications

The Therapeutic Effectiveness of Delayed Fetal Spinal Cord Tissue Transplantation on Respiratory Function Following Mid-Cervical Spinal Cord Injury

The Therapeutic Effectiveness of Delayed Fetal Spinal Cord Tissue Transplantation on Respiratory Function Following Mid-Cervical Spinal Cord Injury

Cell biology of spinal cord injury and repair

Extremely Low Frequency Magnetic Field Exposure Attenuates Pain By Inactivation Of Descending Facilitatory System In Complete Spinal Cord Injured Rats

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