Glioblastoma Multiforme with Hypodipsic Hypernatremia in a Seven-Month-Old Golden Retriever

2016 ◽  
Vol 52 (5) ◽  
pp. 319-324 ◽  
Author(s):  
Stephanie Engel ◽  
Karen Marie Hilling ◽  
Travis Kuder Meuten ◽  
Chad Brendan Frank ◽  
Angela J. Marolf
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Glioblastoma Multiforme ◽  
Glial Cell ◽  
Congenital Malformations ◽  
Cell Tumor ◽  
Golden Retriever ◽  
Neoplastic Process ◽  
Underlying Causes ◽  
The Central Nervous System

ABSTRACT Primary hypodipsic hypernatremia is a rarely reported disease in dogs. Reported underlying causes associated with this disease in dogs include congenital malformations, encephalitis, intracranial neoplasia, and pressure atrophy of the hypothalamus secondary to hydrocephalus. The dog in this report had an infiltrative neoplastic disorder, likely causing damage to the hypothalamic osmoreceptors responsible for the thirst generation. The neoplastic process was identified histopathologically as glioblastoma multiforme, an unusual tumor to occur in a dog this young. A tumor of the central nervous system causing physical destruction of the osmoreceptors has rarely been reported in dogs and none of the previously reported cases involved a glial cell tumor.

scholarly journals Embryology of Spinal Dysraphism and its Relationship to Surgical Treatment

2020 ◽  
Vol 47 (6) ◽  
pp. 736-746
Author(s):  
Matthew E. Eagles ◽  
Nalin Gupta
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Surgical Treatment ◽  
Gestational Age ◽  
Congenital Malformations ◽  
Spinal Dysraphism ◽  
Embryological Development ◽  
Correct Treatment ◽  
Pathological Correlation ◽  
The Central Nervous System

ABSTRACT:Spinal dysraphism is an umbrella term that encompasses a number of congenital malformations that affect the central nervous system. The etiology of these conditions can be traced back to a specific defect in embryological development, with the more disabling malformations occurring at an earlier gestational age. A thorough understanding of the relevant neuroembryology is imperative for clinicians to select the correct treatment and prevent complications associated with spinal dysraphism. This paper will review the neuroembryology associated with the various forms of spinal dysraphism and provide a clinical-pathological correlation for these congenital malformations.

Some fly sensory organs are gliogenic and require glide/gcm in a precursor that divides symmetrically and produces glial cells

Development ◽  
2000 ◽  
Vol 127 (17) ◽  
pp. 3735-3743 ◽  
Author(s):  
V. Van De Bor ◽  
R. Walther ◽  
A. Giangrande
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Peripheral Nervous System ◽  
Glial Cell ◽  
Glial Cells ◽  
Sensory Organ ◽  
Asymmetric Distribution ◽  
Sensory Organs ◽  
The Central Nervous System ◽  
Glial Precursor

In flies, the choice between neuronal and glial fates depends on the asymmetric division of multipotent precursors, the neuroglioblast of the central nervous system and the IIb precursor of the sensory organ lineage. In the central nervous system, the choice between the two fates requires asymmetric distribution of the glial cell deficient/glial cell missing (glide/gcm) RNA in the neuroglioblast. Preferential accumulation of the transcript in one of the daughter cells results in the activation of the glial fate in that cell, which becomes a glial precursor. Here we show that glide/gcm is necessary to induce glial differentiation in the peripheral nervous system. We also present evidence that glide/gcm RNA is not necessary to induce the fate choice in the peripheral multipotent precursor. Indeed, glide/gcm RNA and protein are first detected in one daughter of IIb but not in IIb itself. Thus, glide/gcm is required in both central and peripheral glial cells, but its regulation is context dependent. Strikingly, we have found that only subsets of sensory organs are gliogenic and express glide/gcm. The ability to produce glial cells depends on fixed, lineage related, cues and not on stochastic decisions. Finally, we show that after glide/gcm expression has ceased, the IIb daughter migrates and divides symmetrically to produce several mature glial cells. Thus, the glide/gcm-expressing cell, also called the fifth cell of the sensory organ, is indeed a glial precursor. This is the first reported case of symmetric division in the sensory organ lineage. These data indicate that the organization of the fly peripheral nervous system is more complex than previously thought.

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