| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| J L Hinton, D J Warejcka, Y Mei, R E McLendon, C Laurencin, P A Lucas, J S Robinso. Inhibition of epidural scar formation after lumbar laminectomy in the rat. Spine. vol 20. issue 5. 1995-08-04. PMID:7604326. |
an animal model of laminectomy in rats was used to study scar tissue formation around the spinal cord. |
1995-08-04 |
2023-08-12 |
rat |
| A Logan, J J Oliver, M Berr. Growth factors in CNS repair and regeneration. Progress in growth factor research. vol 5. issue 4. 1995-07-14. PMID:7780087. |
after injuries that penetrate into either the mature brain or spinal cord, damaged neurons initially begin to regrow, but this regeneration is aborted as a fibrotic scar is laid down within the wound. |
1995-07-14 |
2023-08-12 |
Not clear |
| J Frisén, A Haegerstrand, M Risling, K Fried, C B Johansson, H Hammarberg, R Elde, T Hökfelt, S Cullhei. Spinal axons in central nervous system scar tissue are closely related to laminin-immunoreactive astrocytes. Neuroscience. vol 65. issue 1. 1995-06-21. PMID:7753403. |
we have investigated the relation between scar cells, laminin-like immunoreactivity and cut spinal axons in two previously characterized spinal cord lesion types. |
1995-06-21 |
2023-08-12 |
rat |
| J Frisén, A Haegerstrand, M Risling, K Fried, C B Johansson, H Hammarberg, R Elde, T Hökfelt, S Cullhei. Spinal axons in central nervous system scar tissue are closely related to laminin-immunoreactive astrocytes. Neuroscience. vol 65. issue 1. 1995-06-21. PMID:7753403. |
adhesive and neurite orienting properties in the scar tissue were assessed in an in vitro system where pc12 cells were cultured on spinal cord slices from dorsal funiculus-lesioned rats. |
1995-06-21 |
2023-08-12 |
rat |
| J Frisén, A Haegerstrand, M Risling, K Fried, C B Johansson, H Hammarberg, R Elde, T Hökfelt, S Cullhei. Spinal axons in central nervous system scar tissue are closely related to laminin-immunoreactive astrocytes. Neuroscience. vol 65. issue 1. 1995-06-21. PMID:7753403. |
very few cells adhered to the spinal cord section except for the part where the scar tissue had formed, where numerous cells were attached. |
1995-06-21 |
2023-08-12 |
rat |
| S J Mørk, I Morild, A O Brubakk, S Eidsvik, H Nylan. A histopathologic and immunocytochemical study of the spinal cord in amateur and professional divers. Undersea & hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc. vol 21. issue 4. 1995-01-24. PMID:8000279. |
thus, diving activity, saturation diving to extreme depths included, does not in itself seem to lead to necrosis, degeneration, or scar formation in the human spinal cord. |
1995-01-24 |
2023-08-12 |
human |
| J Frisén, A Haegerstrand, K Fried, F Piehl, S Cullheim, M Rislin. Adhesive/repulsive properties in the injured spinal cord: relation to myelin phagocytosis by invading macrophages. Experimental neurology. vol 129. issue 2. 1994-12-20. PMID:7957733. |
pc12 cells failed to adhere to sections from the intact spinal cord as well as to sections taken rostral to a dorsal funiculus transection, whereas many cells adhered to the glial scar formed at the lesion. |
1994-12-20 |
2023-08-12 |
rat |
| A Privat, M Gimenez-Ribotta, P Pencalet, J M Kamenk. [Experimental medullary lesions: prevention of the extension of secondary lesions and formation of glial scarring]. Bulletin de l'Academie nationale de medecine. vol 178. issue 3. 1994-10-06. PMID:8076185. |
early treatment of spinal cord lesions is undertaken following two lines of research carried in adult rats: first, the reduction of secondary lesions, immediately after the trauma, second, the prevention of glial scar formation in the following days. |
1994-10-06 |
2023-08-12 |
rat |
| T J Sims, S A Gilmor. Regrowth of dorsal root axons into a radiation-induced glial-deficient environment in the spinal cord. Brain research. vol 634. issue 1. 1994-05-18. PMID:7512425. |
ultrastructural examination of the dorsal root entry zone (drez) 60 days after root injury revealed a well-formed astrocytic scar in this zone and adjacent regions of spinal cord in non-irradiated rats. |
1994-05-18 |
2023-08-12 |
rat |
| K Röhl, A Bosse, U Böte. [Unusual site of heterotopic ossification in the area of a laparotomy scar]. Der Unfallchirurg. vol 96. issue 12. 1994-04-11. PMID:8128264. |
we report on a patient with spinal cord injury and an unusual localization of heterotopic ossification (ho) in the area of a laparotomy scar, with a large quantity of foreign bodies from residual suture material. |
1994-04-11 |
2023-08-12 |
Not clear |
| E A Fedorova, V A Otelli. [The effect of immune suppression on the take and development of the human neocortex transplanted into the spinal cord of the adult rat]. Morfologiia (Saint Petersburg, Russia). vol 102. issue 5. 1994-03-10. PMID:1343238. |
the injury of the spinal cord is followed by the formation of a scar deforming the surrounding structures which is formed not only by the glial but also by the connective tissue cells of spinal membranes. |
1994-03-10 |
2023-08-11 |
human |
| E A Fedorova, V A Otelli. [The effect of immune suppression on the take and development of the human neocortex transplanted into the spinal cord of the adult rat]. Morfologiia (Saint Petersburg, Russia). vol 102. issue 5. 1994-03-10. PMID:1343238. |
against the background of immunosuppression a small soft scar is formed between the transplant and the host spinal cord consisting mainly of fibrous astrocytes. |
1994-03-10 |
2023-08-11 |
human |
| A Logan, M Berr. Transforming growth factor-beta 1 and basic fibroblast growth factor in the injured CNS. Trends in pharmacological sciences. vol 14. issue 9. 1993-12-28. PMID:8249155. |
after injuries that penetrate the mature brain or spinal cord, damaged axons initially show a growth response, but later their regeneration is aborted as a dense permanent scar is laid down within the core of the wound. |
1993-12-28 |
2023-08-12 |
Not clear |
| J Frisén, K Fried, A M Sjögren, M Rislin. Growth of ascending spinal axons in CNS scar tissue. International journal of developmental neuroscience : the official journal of the International Society for Developmental Neuroscience. vol 11. issue 4. 1993-12-03. PMID:7694445. |
the aim of the present study was to test the capacity of spinal cord scar tissue to assist and sustain axon regrowth. |
1993-12-03 |
2023-08-12 |
rat |
| B L Butler, D J DeJong, P L Cervenka, M R McDanie. Development of a methylprednisolone protocol for use in acute spinal cord injuries. Hospital pharmacy. vol 28. issue 9. 1993-11-01. PMID:10129144. |
initial physical damage to the spinal cord is followed by chemical damage, resulting in cell death and scar tissue formation. |
1993-11-01 |
2023-08-12 |
Not clear |
| M Risling, K Fried, H Linda, T Carlstedt, S Cullhei. Regrowth of motor axons following spinal cord lesions: distribution of laminin and collagen in the CNS scar tissue. Brain research bulletin. vol 30. issue 3-4. 1993-04-27. PMID:8457890. |
regrowth of motor axons following spinal cord lesions: distribution of laminin and collagen in the cns scar tissue. |
1993-04-27 |
2023-08-12 |
cat |
| A D Legatt, C E Schroeder, B Gill, J T Goodric. Electrical stimulation and multichannel EMG recording for identification of functional neural tissue during cauda equina surgery. Child's nervous system : ChNS : official journal of the International Society for Pediatric Neurosurgery. vol 8. issue 4. 1992-11-23. PMID:1394248. |
in one patient, this resulted in preservation of a flattened spinal cord which resembled a band of scar tissue. |
1992-11-23 |
2023-08-11 |
Not clear |
| T J Sims, S A Gilmor. Glial response to dorsal root lesion in the irradiated spinal cord. Glia. vol 6. issue 2. 1992-11-06. PMID:1398898. |
the present study was undertaken to determine what effects this reduction of glia, particularly astrocytes, has on the pattern and characteristics of the scar formation that follows root injury in the normal spinal cord. |
1992-11-06 |
2023-08-11 |
rat |
| T J Sims, S A Gilmor. Glial response to dorsal root lesion in the irradiated spinal cord. Glia. vol 6. issue 2. 1992-11-06. PMID:1398898. |
mechanisms involved in the glial response of the irradiated spinal cord to dorsal root injury are discussed, particularly with regard to the possible positive effect that this reduction in scar formation may have on regrowth of injured dorsal root axons into the spinal cord environment. |
1992-11-06 |
2023-08-11 |
rat |
| J Houl. The structural integrity of glial scar tissue associated with a chronic spinal cord lesion can be altered by transplanted fetal spinal cord tissue. Journal of neuroscience research. vol 31. issue 1. 1992-07-29. PMID:1613818. |
the structural integrity of glial scar tissue associated with a chronic spinal cord lesion can be altered by transplanted fetal spinal cord tissue. |
1992-07-29 |
2023-08-11 |
rat |