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Query: UMLS:C0851184 (
thinning
)
11,252
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This report describes the neuropathology of progressive axonopathy (PA), an autosomal recessive inherited neuropathy of Boxer dogs, which affects CNS and
PNS
. The nerve roots contain numerous myelin bubbles and proximal paranodal axonal swellings containing vesicles, vesiculo-tubular profiles and disorganized neurofilaments. The myelin sheath overlying such swellings is often attenuated. As the disease develops there are progressive changes in the myelin sheath with
thinning
at paranodal and internodal locations, loss of myelin from lengths of axon and the formation of short internodes with disproportionately thin sheaths. The abnormalities show a very definite selectivity for nerve roots and proximal nerves. Conversely, the frequency of degeneration and regeneration is greater distally except in the cervical ventral roots which contain numerous regenerating clusters. In the CNS numerous axonal spheroids are found in the lateral and ventral columns of the spinal cord and in various brain stem nuclei, particularly the superior olives, accessory cuneate nuclei and lateral lemniscus and its nucleus. Axonal degeneration which occurs mainly in the cord shows no obvious tract or proximal/distal selectivity. The optic pathways are also involved, predominantly adjacent to the chiasma. The autonomic nervous system is affected and distal limb muscles show varying, but usually minor, degrees of neurogenic atrophy. The condition, which has no obvious direct parallel in human or veterinary medicine, shows gross disturbances of axon-glial inter-relationships in both CNS and
PNS
.
...
PMID:Progressive axonopathy: an inherited neuropathy of boxer dogs. 2. The nature and distribution of the pathological changes. 409 48
Traditionally, gamma-diketone neuropathy is classified as a distal axonopathy and has been characterized by giant axonal swellings in CNS and
PNS
tissues. These swellings contain neurofilamentous masses and are associated with
thinning
and retraction of the myelin sheath. It has been proposed that this axonopathy is caused by direct gamma-diketone modification of neurofilaments (NFs) involving pyrrolation of epsilon-amino groups on NF lysyl residues and possibly secondary autoxidation of the pyrrole rings with creation of covalent NF-NF crosslinks. Neurofilaments are thought to undergo chemical modification as they progress along the axonal axis and, eventually, accumulate at distal nodes of Ranvier where their proximodistal movement is impeded. Development of swelling presumably initiates axonal degeneration and subsequent functional deficits. However, other research suggests that axonal swellings are a non-specific effect related to subchronic gamma-diketone exposure. Such evidence draws into question the mechanistic relevance of these swellings. In contrast, research conducted over the past decade indicates axonal atrophy is a specific morphologic component of gamma-diketone neuropathy which might have both functional and mechanistic importance. In this overview, the potential neurotoxicological significance of both axonal swellings and atrophy are evaluated critically. Based on the evidence to be presented, we propose that axonal atrophy is the morphological consequence of the molecular mechanism of gamma-diketone neuropathy. Accordingly, several mechanistic scenarios related to the development of atrophy will be discussed. It is hoped that this Forum will stimulate scientific debate and initiate laboratory investigations which will either confirm or refute the involvement of axonal atrophy in gamma-diketone neurotoxicity. Investigating gamma-diketone atrophy might provide insight into the mechanism of other toxic axonopathies which are also associated with reduced axon caliber; e.g., acrylamide and carbon disulfide neuropathies.
...
PMID:The relevance of axonal swellings and atrophy to gamma-diketone neurotoxicity: a forum position paper. 921 85
Recent work has clearly established that early persistent negative symptoms (ePNS) can be observed following a first episode of psychosis (FEP), and can negatively affect functional outcome. There is also evidence for cortical changes associated with ePNS. Given that a FEP often occurs during a period of ongoing complex brain development and maturation, neuroanatomical changes may have a specific age-related component. The current study examines cortical thickness (CT) and trajectories with age using longitudinal structural imaging. Structural T1 volumes were acquired at three time points for ePNS (N=21),
PNS
due to secondary factors (N=31), non-
PNS
(N=45) patients, and controls (N=48). Images were processed using the CIVET pipeline. Linear mixed models were applied to test for the main effects of (a) group, (b) time, and interactions between (c) time and group membership, and (d) age and group membership. Compared with the non-
PNS
and secondary
PNS
patient groups, the ePNS group showed cortical
thinning
over time in temporal regions and a thickening with age primarily in prefrontal areas. Early
PNS
patients also had significantly different linear and quadratic age relationships with CT compared with other groups within cingulate, prefrontal, and temporal cortices. The current study demonstrates that FEP patients with ePNS show significantly different CT trajectories with age. Increased CT may be indicative of disruptions in cortical maturation processes within higher-order brain regions. Individuals with ePNS underline a unique subgroup of FEP patients that are differentiated at the clinical level and who exhibit distinct neurobiological patterns compared with their non-
PNS
peers.
...
PMID:Age-related cortical thickness trajectories in first episode psychosis patients presenting with early persistent negative symptoms. 2760 88
