| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| L Lauriola, A Coli, D Cocchia, G Tallini, F Michett. Comparative study by S-100 and GFAP immunohistochemistry of glial cell populations in the early stages of human spinal cord development. Brain research. vol 465. issue 1-2. 1988-04-19. PMID:3440205. |
comparative study by s-100 and gfap immunohistochemistry of glial cell populations in the early stages of human spinal cord development. |
1988-04-19 |
2023-08-11 |
human |
| A Bignami, D Dah. Expression of brain-specific hyaluronectin (BHN), a hyaluronate-binding protein, in dog postnatal development. Experimental neurology. vol 99. issue 1. 1988-02-05. PMID:2446903. |
furthermore, the glia limitans on the surface of the spinal cord and the glial septa were stained by both antibodies. |
1988-02-05 |
2023-08-11 |
dog |
| A Bignami, D Dah. Expression of brain-specific hyaluronectin (BHN), a hyaluronate-binding protein, in dog postnatal development. Experimental neurology. vol 99. issue 1. 1988-02-05. PMID:2446903. |
in newborn dog spinal cord, hyaluronectin immunoreactivity was confined to the glia limitans on the surface. |
1988-02-05 |
2023-08-11 |
dog |
| M J Anderson, S G Waxman, Y L Lee, L F En. Molecular differentiation of neurons from ependyma-derived cells in tissue cultures of regenerating teleost spinal cord. Brain research. vol 388. issue 2. 1987-10-15. PMID:3113659. |
this result suggests that the cells in the cultures of caudalmost cord represent relatively undifferentiated ependymal cells, or ependyma-derived cells, which later differentiate into neurons and glia in the regenerating spinal cord. |
1987-10-15 |
2023-08-11 |
Not clear |
| M J Arias, J M López, A Cilvet. Morphometry of the pyramidal tract in the spinal cord of normal rats. Surgical neurology. vol 28. issue 1. 1987-07-16. PMID:3589940. |
the area, perimeter, axonal and glial cell count, and axonal concentration were determined at the seventh cervical, second thoracic, and third lumbar spinal cord levels. |
1987-07-16 |
2023-08-11 |
rat |
| M J Arias, J M López, A Cilvet. Morphometry of the pyramidal tract in the spinal cord of normal rats. Surgical neurology. vol 28. issue 1. 1987-07-16. PMID:3589940. |
the results show consistent diminishing values of the area, axonal and glial cell count, and axonal concentration with the tract descent in the spinal cord. |
1987-07-16 |
2023-08-11 |
rat |
| F J Liuzzi, R H Mille. Radially oriented astrocytes in the normal adult rat spinal cord. Brain research. vol 403. issue 2. 1987-05-20. PMID:2435373. |
glial cell organization in the adult rat spinal cord was studied using a modified golgi technique and anti-gfap immunofluorescence. |
1987-05-20 |
2023-08-11 |
rat |
| A Bignami, D Dah. Brain-specific hyaluronate-binding protein. A product of white matter astrocytes? Journal of neurocytology. vol 15. issue 5. 1986-12-18. PMID:2430070. |
a similar distribution of the two proteins was also observed in the periventricular glia as well as in the glia limitans of spinal cord and optic nerves. |
1986-12-18 |
2023-08-11 |
human |
| S Benjelloun, J P Delaunoy, D Gomes, F De Vitry, D Langui, P Dupoue. Early expression of carbonic anhydrase II (CAII) in transitory glial cells of the developing murine nervous system. Developmental neuroscience. vol 8. issue 3. 1986-12-15. PMID:3095084. |
in the spinal cord and the brain stem, the enzyme first appeared in transitory cells probably derived from the radial glia. |
1986-12-15 |
2023-08-11 |
mouse |
| J F Zachary, C J Knupp, P K Won. Noninflammatory spongiform polioencephalomyelopathy caused by a neurotropic temperature-sensitive mutant of Moloney murine leukemia virus TB. The American journal of pathology. vol 124. issue 3. 1986-10-31. PMID:3766704. |
lesions consisted of neuronal and glial cell vacuolization in the brain and the anterior horn of the spinal cord, spongiform change in the associated neuropil, spongiform change in lateral and ventral funiculi, and late fibrillary gliosis in the brainstem. |
1986-10-31 |
2023-08-11 |
mouse |
| J K Daniloff, G Levi, M Grumet, F Rieger, G M Edelma. Altered expression of neuronal cell adhesion molecules induced by nerve injury and repair. The Journal of cell biology. vol 103. issue 3. 1986-10-15. PMID:2427528. |
101:285-293), these data suggest that local signals between neurons and glia may regulate cam expression in the spinal cord and nerve during regeneration, and that activity may regulate n-cam expression in muscle. |
1986-10-15 |
2023-08-11 |
mouse |
| N Kalderon, C A William. Extracellular proteolysis: developmentally regulated activity during chick spinal cord histogenesis. Brain research. vol 390. issue 1. 1986-04-15. PMID:3948022. |
these coincide with the stages when a transient increase in cell proliferation, presumably of glia, was monitored as determined daily by the spinal cord dna content (microgram dna/mg protein). |
1986-04-15 |
2023-08-11 |
chicken |
| J Szczec. Morphometric, karyometric and cytophotometric studies on spinal cord neurons and glia cells after vincristine administration. Journal fur Hirnforschung. vol 26. issue 5. 1986-02-24. PMID:4086808. |
morphometric, karyometric and cytophotometric studies on spinal cord neurons and glia cells after vincristine administration. |
1986-02-24 |
2023-08-11 |
rat |
| T Yamamoto, Y Iwasaki, H Konno, H Kud. Primary degeneration of motor neurons by toxic lectins conveyed from the peripheral nerve. Journal of the neurological sciences. vol 70. issue 3. 1985-12-18. PMID:2414407. |
within a few days, these dorsal root ganglion cells and large motor neurons giving rise to sciatic nerve efferents in the lumbar spinal cord degenerated, whereas small internuncial neurons and glia remained unaffected. |
1985-12-18 |
2023-08-11 |
human |
| T J Sims, S G Waxman, J A Black, S A Gilmor. Perinodal astrocytic processes at nodes of Ranvier in developing normal and glial cell deficient rat spinal cord. Brain research. vol 337. issue 2. 1985-10-01. PMID:4027576. |
perinodal astrocytic processes at nodes of ranvier in developing normal and glial cell deficient rat spinal cord. |
1985-10-01 |
2023-08-11 |
rat |
| T J Sims, S G Waxman, J A Black, S A Gilmor. Perinodal astrocytic processes at nodes of Ranvier in developing normal and glial cell deficient rat spinal cord. Brain research. vol 337. issue 2. 1985-10-01. PMID:4027576. |
this study examined, during normal development and during the development of a glial cell deficient axon population, the nature of astrocyte involvement at the central nodes of ranvier on spinal cord axons. |
1985-10-01 |
2023-08-11 |
rat |
| J A Black, T J Sims, S G Waxman, S A Gilmor. Membrane ultrastructure of developing axons in glial cell deficient rat spinal cord. Journal of neurocytology. vol 14. issue 1. 1985-08-22. PMID:4009213. |
membrane ultrastructure of developing axons in glial cell deficient rat spinal cord. |
1985-08-22 |
2023-08-11 |
rat |
| J A Black, T J Sims, S G Waxman, S A Gilmor. Membrane ultrastructure of developing axons in glial cell deficient rat spinal cord. Journal of neurocytology. vol 14. issue 1. 1985-08-22. PMID:4009213. |
in order to investigate axolemmal development in a glial cell deficient environment, normal and irradiated dorsal funiculus in rat lumbosacral spinal cord was examined by freeze-fracture electron microscopy. |
1985-08-22 |
2023-08-11 |
rat |
| T J Sims, S A Gilmore, S G Waxman, E Kling. Dorsal-ventral differences in the glia limitans of the spinal cord: an ultrastructural study in developing normal and irradiated rats. Journal of neuropathology and experimental neurology. vol 44. issue 4. 1985-07-30. PMID:4009209. |
dorsal-ventral differences in the glia limitans of the spinal cord: an ultrastructural study in developing normal and irradiated rats. |
1985-07-30 |
2023-08-11 |
rat |
| C J Woolf, M S Chong, T A Rashd. Mapping increased glycogen phosphorylase activity in dorsal root ganglia and in the spinal cord following peripheral stimuli. The Journal of comparative neurology. vol 234. issue 1. 1985-05-14. PMID:3980787. |
the mechanisms underlying the stimulus-evoked increase in glycogen phosphorylase activity in the spinal cord and dorsal root ganglia are not yet known, nor have we positively established which elements in the spinal cord, neurones, or glia are responsible for the changes in the glycogen phosphorylase activity. |
1985-05-14 |
2023-08-11 |
rat |