| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| G R Tobin, M Chvapil, P L Gildenber. Collagen biosynthesis in healing wounds of the spinal cord and surrounding membranes. Surgery. vol 88. issue 2. 1980-09-28. PMID:6248997. |
implications of these findings on the hypothetical relationship of scar to spinal cord and central nervous system regeneration are noted. |
1980-09-28 |
2023-08-12 |
Not clear |
| A P Khreno. [Reparative regeneration of cat spinal cord nerve fibers]. Arkhiv anatomii, gistologii i embriologii. vol 78. issue 1. 1980-08-15. PMID:7387409. |
morphology of the regenerative process of certain neural elements at the place where the medullar scar was forming after a lateral hemisection was studied in the cat spinal cord at the level of the 11th thoracic segment. |
1980-08-15 |
2023-08-12 |
cat |
| M A Matthews, M F St Onge, C L Faciane, J B Gelder. Spinal cord transection: a quantitative analysis of elements of the connective tissue matrix formed within the site of lesion following administration of piromen, cytoxan or trypsin. Neuropathology and applied neurobiology. vol 5. issue 3. 1979-10-17. PMID:471188. |
it is concluded that a major impediment to whatever longterm regenerative potential exists within the spinal cord is the lack of axonal guiding elements within the scar, but more importantly, the severe erosion of the remaining spinal cord due to cyst enlargement. |
1979-10-17 |
2023-08-11 |
rat |
| J M Derlon, R Roy-Camille, G Saillant, J Poirier, F Picho. [Experimental transection of the spinal cord (author's transl)]. Neuro-Chirurgie. vol 24. issue 2. 1978-09-29. PMID:673107. |
this technique did not prevent an unfavorable evolution of the suture, which demonstrated three different morphological features:--necrosis of the spinal cord cut ends with secondary formation of a transverse cyst;--secondary infiltration of the operated focus by a fibrous scar growing from the inner aspect of the dura;--failure of axon regeneration through this fibrous block in spite of noteworthy proliferation of axons coming from the dorsal roots. |
1978-09-29 |
2023-08-11 |
human |
| D H Wilson, P Jagadees. Experimental regeneration in peripheral nerves and the spinal cord in laboratory animals exposed to a pulsed electromagnetic field. Paraplegia. vol 14. issue 1. 1976-09-01. PMID:180476. |
a similar controlled study of spinal cord regeneration following hemicordotomy in cats has been started, and preliminary results indicate that when the animals are sacrificed three months after the hemicordotomy, the pulsed electromagnetic therapy has induced nerve fibre regeneration across the region of the scar. |
1976-09-01 |
2023-08-11 |
rat |
| J Prendergast, D J Stelzne. Changes in the magnocellular portion of the red nucleus following thoracic hemisection in the neonatal and adult rat. The Journal of comparative neurology. vol 166. issue 2. 1976-07-06. PMID:1262553. |
ninety days later a glial and connective tissue scar had formed at the lesion site in the adult hemisected rats while in neonatally lesioned animals only normal appearing regions of the contralateral spinal cord were found in the area of hemisection. |
1976-07-06 |
2023-08-11 |
rat |
| H Higuch. [Reconstruction of the transected spinal cord--prevention of scar tissue formation]. No to shinkei = Brain and nerve. vol 23. issue 9. 1971-11-30. PMID:5109852. |
[reconstruction of the transected spinal cord--prevention of scar tissue formation]. |
1971-11-30 |
2023-08-11 |
Not clear |
| L C Perkins, E Solow, L W Freema. The effect of enzymatic debridement on scar formation and cavitation in experimental spinal cord transection. Neurology. vol 20. issue 12. 1971-01-15. PMID:4249412. |
the effect of enzymatic debridement on scar formation and cavitation in experimental spinal cord transection. |
1971-01-15 |
2023-08-11 |
Not clear |
| C C Kao, Y Shimizu, L C Perkins, L W Freema. Experimental use of cultured cerebellar cortical tissue to inhibit the collagenous scar following spinal cord transection. Journal of neurosurgery. vol 33. issue 2. 1970-10-28. PMID:5456808. |
experimental use of cultured cerebellar cortical tissue to inhibit the collagenous scar following spinal cord transection. |
1970-10-28 |
2023-08-11 |
Not clear |
| J J Bernstein, M E Bernstei. Effect of glial-ependymal scar and teflon arrest on the regenerative capacity of goldfish spinal cord. Experimental neurology. vol 19. issue 1. 1967-12-15. PMID:6051300. |
effect of glial-ependymal scar and teflon arrest on the regenerative capacity of goldfish spinal cord. |
1967-12-15 |
2023-08-12 |
Not clear |