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The cerebral cortex in congenital hydrocephalus in the H-Tx rat: a quantitative light microscopy study (1991)

Jones, H. C. ; Bucknall, R. M. ; Harris, N. G.

Springer

Acta neuropathologica 82 (1991), S. 217-224

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ISSN: 1432-0533

Keywords: Hydrocephalus ; Rat ; Cerebral cortex ; Cortical cell density ; Capillary density

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Hydrocephalus in the H-Tx rat first develops in late gestation and causes death at 4–7 weeks. The effect of hydrocephalus on overall cortical dimensions and on five specific regions (frontal, sensory-motor, parietal, auditory and visual) has been studied by quantitative light microscopy at 10 and 30 days after birth. The lateral ventricle volumes in hydrocephalic rats were about 40x larger than controls and increased fourfold between 10 and 30 days. Cortical volume was reduced by a small amount at 10 days but was larger in hydrocephalics at 30 days. Thinning of the cortical mantle was severe with disruption of the laminar structure, particularly in the auditory and visual regions, where it was already present at 10 days. The density of cortical cells (neurones and glia) was not altered in hydrocephalics at 10 days but was reduced in all regions at 30 days. Estimates of total cell number suggest that the lower density was not associated with an overall loss of cells. Capillary numerical density was not affected by the hydrocephalus at 10 days after birth but by 30 days it was significantly lower, particularly in the worst-affected posterior regions. The results show that the cerebral cortex is severely distorted and that in advanced hydrocephalus, although overall cell number is not affected, both cell density and capillary density are lower by up to 30%.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00294448

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Ventricle shunting in young H-Tx rats with inherited congenital hydrocephalus: a quantitative histological study of cortical grey matter (1994)

Harris, N. G. ; Jones, H. C. ; Patel, S.

Springer

Child's nervous system 10 (1994), S. 293-301

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ISSN: 1433-0350

Keywords: Ventricle shunting ; Hydrocephalus ; H-Tx rat ; Cerebral cortex

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Shunt surgery is the usual treatment for infantile hydrocephalus, but its precise effects on ventricles and cortex are not well understood. Infant H-Tx rats with inherited hydrocephalus, which have progressive enlargement of the lateral ventricles and thinned cerebral cortex, have been used to study the effect of ventriculosubcutaneous shunts by quantitative light microscopy. Two groups of rats received shunts at mean ages of 7 and 13 days after birth. The brains were processed for wax histology at either 14 or 21 days (n = 3 per group) together with age-matched control and unshunted (hydrocephalic) rats. Ventricle areas were measured and the volume calculated and the cortical layers in five cortical regions were measured. Shungting prevented further expansion of ventricles which were already enlarged at the time of operation, and resulted in volumes which were intermediate between those in control and unshunted rats. Cortical thinning was partially reversed by shunting and the thickness and number of discernible cortical laminae was improved. It is concluded that shunting was largely successful at preventing the pathological effects of hydrocephalus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00335166

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Uncoupling of LCBF and LCGU in two different models of hydrocephalus: a review (1995)

Richards, H. K. ; Bucknall, R. M. ; Jones, H. C. ; [et al.]

Springer

Child's nervous system 11 (1995), S. 288-292

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ISSN: 1433-0350

Keywords: Hydrocephalus ; Cerebral blood flow ; Cerebral metabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have used two different experimental models to examine the relationship between local cerebral blood flow and metabolism in hydrocephalus. In our first experiments local cerebral blood flow (LCBF) and local cerebral glucose utilization (LCGU) were measured by quantitative autoradiographic methods in adult rats rendered hydrocephalic, though asymptomatic, by the injection of kaolin intracisternally at 3 weeks of age and in control animals. There were no significant differences in LCGU or LCBF in any of the 29 areas of grey matter examined, including layer IV of the cerebral cortex. Scanning across the cerebral cortex revealed an appreciable fall in LCGU and LCBF towards the inside and the outside of the mantle in control animals. Hydrocephalus had no significant effect on this “transmantle” pattern of reduction in cortical metabolism towards the periphery, but in contrast, significantly enhanced the reduction in cortical blood flow in 7 out of the 10 cortical regions examined. Hence, in this model of asymptomatic hydrocephalus there is relative uncoupling of LCBF and LCGU in the inner and outer layers of the cerebral mantle. In a study performed in congenitally hydrocephalic H-Tx rats at 10, 20 and 28 days we found that uptake of deoxyglucose was impaired in hydrocephalic rats compared with their non-hydrocephalic siblings. Small changes were seen at 10 and 21 days, but statistically significant changes were seen only at 28 days. A small reduction in LCBF was observed in all regions at 10 days, with statistically significant differences between control and hydrocephalic rats in auditory and parietal cortex. By 21 days, reductions of between 25% and 70% in local cerebral blood flow were observed in all regions, with statistically significant differences in visual, auditory and parietal cortex. At 30 days, a statistically significant difference was found between controls and hydrocephalic rats in pons, caudate nucleus and visual, auditory, parietal and sensorimotor cortex. This second study indicates that decreases in local cerebral blood flow precede decreases in cerebral metabolism and occur before the appearance of obvious symptoms. Our experiments suggest that in hydrocephalus a decrease in tissue perfusion precedes any impairment of cerebral glucose metabolism and may occur before the appearane of any gross symptoms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00301762

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Circulation of marker substances in the cerebrospinal fluid of an amphibian, Rana pipiens (1980)

Jones, H. C.

Springer

Cell & tissue research 211 (1980), S. 317-330

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ISSN: 1432-0878

Keywords: Cerebrospinal fluid ; Cerebral ventricles ; Subarachnoid space ; Circulation ; Rana pipiens

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Solutions of fluorescein-labelled dextran or Evans blue-albumin were infused into the lateral cerebral ventricle of Rana pipiens. The subsequent distribution in the cerebrospinal fluid (CSF) was investigated between 2 and 24 h after infusion by freezing and examination of the cut blocks of the head and vertebral column of the stage of a freezing microtome. These marker substances move out of the ventricles into the subarachnoid space at the caudal end of the fourth ventricle and spread rapidly along the subarachnoid space of the spinal cord. The spreading of marker substances is slower into the brain subarachnoid space. When the marker is infused into the subarachnoid space of the forebrain, it becomes distributed throughout the subarachnoid space of the brain and spinal cord but not in the ventricles. Partial clearance of markers from the ventricles takes place within 5 h and total clearance within 8 h. Clearance from the brain and cord subarachnoid space is somewhat slower and can only be detected in experiments lasting 10 h or more. Absorption of the markers from the CSF occurs via the intervertebral foramina of the spinal cord. Fluorescence microscopy of sections of the cord show that the fluorescence leaves the subarachnoid space at the point where the spinal nerves traverse the arachnoid membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236452

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Continuity between the ventricular and subarachnoid cerebrospinal fluid in an amphibian, Rana pipiens (1978)

Jones, H. C.

Springer

Cell & tissue research 195 (1978), S. 153-167

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ISSN: 1432-0878

Keywords: Cerebrospinal fluid ; Cerebral ventricles ; Subarachnoid Space ; Light and fluorescence microscopy ; Rana pipiens

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Continuity between the ventricular and subarachnoid cerebrospinal fluid has been investigated in Rana pipiens. The structure of the posterior tela, a deficient membrane situated at the extreme caudal end of the roof of the fourth ventricle, has been studied using whole membrane mounts and by light microscopy of resin embedded tissue. The ependymal component consists of columnar and rounded cells which form a regular ‘syncytium’ enclosing round and oval fenestrations. Small fenestrations are covered on the subarachnoid side by elongated pial cells and thus do not give total continuity between the fourth ventricle and the subarachnoid space. Large fenestrations, on the other hand, are accompanied by equivalent pial fenestrations giving direct access between the fluid compartments. Towards the caudal end the fenestrations break up and the numbers of ependymal and pial cells decrease, the caudal end itself being characterised by a small remaining clump of ependyma and pia or of pia alone. Flow through the tela has been studied using fluorescein-labelled dextran placed in the intraventricular space. Infusion into the lateral ventricle and subsequent localisation by fluorescence microscopy shows the marker to be in the fourth ventricle, in the fenestrations of the posterior tela and in the subarachnoid space overlying the tela. Infusion of the marker followed by freezing and examination of the cut heads on a freezing microtome, shows fluorescence throughout the ventricular system, in the subarachnoid space adjacent to the posterior tela and also along the dorsal subarachnoid space of the spinal cord.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233683

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