ライフサイエンスコーパス: retrograde degeneration

1 uding causes such as axonal degeneration and retrograde degeneration.

2 ing axon protection in these acute models of retrograde degeneration.

3 d 90% of beta retinal ganglion cells die via retrograde degeneration.

4 reas undergoing secondary anterograde and/or retrograde degeneration.

5 he axon terminal that mediate proNGF-induced retrograde degeneration.

6 nt with a shared mechanism for Wallerian and retrograde degeneration.

7 of eyes with optic neuritis, suggesting that retrograde degeneration after optic neuritis may not ext

8 s, a surviving intact branch suppresses both retrograde degeneration and regeneration of the injured

9 e (LPZ, the sector of the LGN that underwent retrograde degeneration following a V1 lesion).

10 Serotonin axons undergo massive retrograde degeneration following amphetamine treatment

11 eing clarified in rodent models, focusing on retrograde degeneration following axonal damage, excitot

12 in this subtype than may be expected due to retrograde degeneration from either typical clinical or

13 nucleus; and (b) the lesions did not induce retrograde degeneration nor diminution of Fos label in t

14 ing of axons demonstrated that Wallerian and retrograde degeneration occurred synchronously.

15 lammatory process results in anterograde and retrograde degeneration of axons, leading to the tempora

16 Transection of the fimbria fornix leads to retrograde degeneration of axotomised septal cholinergic

17 r (proNGF) in the cerebral cortex results in retrograde degeneration of BFCNs through activation of p

18 Removal of the AOB results in retrograde degeneration of both Gi alpha 2-ir and G(o al

19 This results in the retrograde degeneration of ganglion cells in the retina,

20 Transneuronal retrograde degeneration of retinal ganglion cells after

21 e is experimental evidence of trans-synaptic retrograde degeneration of retinal ganglion cells follow

22 ization of visual pathways, including severe retrograde degeneration of retinal ganglion cells of the

23 For many years it has been known that retrograde degeneration of thalamic neurons occurs follo

24 tinal anatomy suggests that MME is caused by retrograde degeneration of the inner retinal layers, res

25 Postmortem histology revealed severe retrograde degeneration of the ipsilesional lateral geni

26 er bulbectomy, a manipulation known to cause retrograde degeneration of the mature ORNs.

27 d in diabetic neuropathy mice, likely due to retrograde degeneration of the Meissner-corpuscle innerv

28 mary retinal neuronopathy, in the absence of retrograde degeneration of the retinal nerve fibre layer

29 r to assess the time course of Wallerian and retrograde degeneration of unmyelinated retinal ganglion

30 t require a separate intervention to prevent retrograde degeneration of upper motoneurons in the cort

31 The existence of transsynaptic retrograde degeneration (TRD) in the human visual system

32 in actively demyelinating cortical lesions, retrograde degeneration was mainly related to demyelinat