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A study of degeneration and regeneration in the divided rat sciatic nerve based on electron microscopy (1972)

Morris, J. H. ; Hudson, A. R. ; Weddell, G.

Springer

Cell & tissue research 124 (1972), S. 103-130

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ISSN: 1432-0878

Keywords: Peripheral nerves ; Myelinated axons ; Regeneration ; Sciatic nerve, rat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary In the first six days after division myelinated axons in the proximal stump of rat sciatic nerves produce collateral and terminal sprouts. These are present as circumscribed “groups” which are positively distinguishable from clusters of non-myelinated axons. Two types of “groups” are identifiable, and their distribution in some of the nerve segments is analysed. Their evolution was followed in sequential nerve segments, the initial ‘tight’ structure becoming looser between 7 and 10 days, and myelinated axons appeared in them during this time. At this stage a complete basal lamina was present surrounding the entire “group”. Some of the cells in the “groups” did not have the characteristics of Schwann cells. Between 7 and 10 days after division alveolate vesicles and densely staining material in the cisternae of the rough surfaced endoplasmic reticulum were prominent in Schwann cells in the distal part of the proximal stump. It is thought that both types of “group” are developed from single myelinated axons and the name “regenerating unit” is proposed for both types. Their relationship to “clusters”, seen in the distal stump of regenerating peripheral nerves, and “onion bulbs”, present in some peripheral neuropathies, is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00335457

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A study of degeneration and regeneration in the divided rat sciatic nerve based on electron microscopy (1972)

Morris, J. H. ; Hudson, A. R. ; Weddell, G.

Springer

Cell & tissue research 124 (1972), S. 165-203

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ISSN: 1432-0878

Keywords: Peripheral nerves ; Regeneration ; Sciatic nerve, rat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Between seven days and six weeks after division the internal architecture of rat sciatic nerves is altered, their original mono- or di-fascicular configuration being replaced by a collection of small fascicles each surrounded by perineurium. This change, called by us ‘compartmentation’, has a minimum retrograde extent of 3.5 mm and is brought about by changes in Schwann cells and endoneurial fibroblasts, which undergo circumferential elongation to surround groups of axons and so come to resemble perineurial cells. Ultrastructural changes occur in these cells during compartmentation. There is a marked rise in the number of endoneurial fibroblasts in the distal segments of the proximal stump. The stimulus to the development of compartmentation is considered to be disturbance of the endoneurial environment following rupture of the perineurium. Changes in the structure and appearance of endoneurial cells suggest that metaplasia occurs between Schwann cells, endoneurial fibroblasts and perineurial cells, and it is concluded that these cell types in the endoneurium have a common origin from embryonic ectoderm. This suggests that the surgical treatment of peripheral nerve injuries should be primarily directed to the reconstitution of the endoneurial environment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00335678

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A study of degeneration and regeneration in the divided rat sciatic nerve based on electron microscopy (1972)

Morris, J. H. ; Hudson, A. R. ; Weddell, G.

Springer

Cell & tissue research 124 (1972), S. 103-130

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Details

ISSN: 1432-0878

Keywords: Peripheral nerves ; Myelinated axons ; Regeneration ; Sciatic nerve, rat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00981944

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A study of degeneration and regeneration in the divided rat sciatic nerve based on electron microscopy (1972)

Morris, J. H. ; Hudson, A. R. ; Weddell, G.

Springer

Cell & tissue research 124 (1972), S. 131-164

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ISSN: 1432-0878

Keywords: Peripheral nerves ; Injuries ; Axons ; Sciatic nerve, rat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Changes in the proximal stump of axons of divided rat sciatic nerves in the first 6 weeks after nerve section were studied, particularly in terms of alterations in the organelle content, axoplasmic ultrastructure and the diameter of the axons. A variety of organelle types were observed; quasi-membranous structures, multivesicular bodies, dense bodies, vesicles and tubules, dense cored vesicles and alveolate vesicles: their identification and the functional implications of their presence are discussed. Alterations in the ultrastructure of the “stained” elements of the axoplasm are described. Axons containing excess organelles were divided into classes, comprising myelinated axons; and “supergiant”, “giant” and “conventional” non-myelinated axons. Temporal changes in these axons are described. The characteristics of the various classes of apparently non-myelinated axon are considered in terms of their identification as regenerating terminal sprouts of myelinated axons, segmentally demyelinated axons, sections through abnormal nodes of Ranvier or merely non-myelinated axons. The structure of axons in “regenerating units” is described. Changes in the neurofilament microtubule ratio of small axons without excess organelles are demonstrated, and “spiralling” of neurofilaments in some myelinated and non-myelinated axons with normal axoplasmic ultrastructure is illustrated and discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00335677

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Immunophenotypic evidence for distinct populations of microglia in the rat hypothalamo-neurohypophysial system (1995)

Mander, T. H. ; Morris, J. F.

Springer

Cell & tissue research 280 (1995), S. 665-673

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ISSN: 1432-0878

Keywords: Microglia ; Hypothalamo-neurohypophysial system ; Antigen-presenting cells ; Blood-brain barrier ; Phagocytosis ; Immunohistochemistry ; Rat (Long Evans)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The morphology, distribution and immunophenotype of microglia throughout the adult rat hypothalamo-neurohypophysial system was examined. Four macrophage-associated antibodies (OX-42, F4/80, ED1 and ED2) were used; the expression of major histocompatibility complex antigens was investigated by use of antibodies against OX-6, OX-17 (MHC class II) and OX-18 (MHC class I). Three distinct types of microglia were identified. The first was located in the magnocellular nuclei; these ‘radially branched’ (‘ramified’) microglia had round cell bodies and long branched processes, and were strongly immunoreactive only for OX-42. The second was located outside the blood-brain barrier in the median eminence, pituitary stalk and neurohypophysis often close to blood vessels; these ‘compact’ microglia had irregular cell bodies and shorter processes, and were strongly labelled by OX-42 and F4/80, weakly labelled by OX-18, and generally unlabelled by ED1, ED2, OX-6 and OX-17. The third type was found in small numbers throughout the system at the surface of the neurvous tissue or around blood vessels; these ‘perivascular’ microglia were elongated cells with no branching processes, and were strongly labelled by ED1, ED2, OX-18, OX-6, OX-17 and F4/80 antibodies but showed variable OX-42 immunoreactivity. Cells in a perivascular location were heterogeneous with respect to their immunophenotype. The presence in the normal adult rat hypothalamo-neurohypophysial system of MHC class-II molecules (OX-6 and OX-17) on a sub-set of perivascular microglia suggests that these cells are capable of presenting antigen to T lymphocytes. The microglia, which lie on either side of the blood-brain barrier, are well placed to facilitate interaction between the immune and neuroendocrine systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00318369

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Immunophenotypic evidence for distinct populations of microglia in the rat hypothalamo-neurohypophysial system (1995)

Mander, T. H. ; Morris, J. F.

Springer

Cell & tissue research 280 (1995), S. 665-673

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ISSN: 1432-0878

Keywords: Key words: Microglia ; Hypothalamo-neurohypophysial system ; Antigen-presenting cells ; Blood-brain barrier ; Phagocytosis ; Immunohistochemistry ; Rat (Long Evans)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. The morphology, distribution and immunophenotype of microglia throughout the adult rat hypo- thalamo-neurohypophysial system was examined. Four macrophage-associated antibodies (OX-42, F4/80, ED1 and ED2) were used; the expression of major histocompatibility complex antigens was investigated by use of antibodies against OX-6, OX-17 (MHC class II) and OX-18 (MHC class I). Three distinct types of microglia were identified. The first was located in the magnocellular nuclei; these ’radially branched’ (’ramified’) microglia had round cell bodies and long branched processes, and were strongly immunoreactive only for OX-42. The second was located outside the blood-brain barrier in the median eminence, pituitary stalk and neurohypophysis often close to blood vessels; these ’compact’ microglia had irregular cell bodies and shorter processes, and were strongly labelled by OX-42 and F4/80, weakly labelled by OX-18, and generally unlabelled by ED1, ED2, OX-6 and OX-17. The third type was found in small numbers throughout the system at the surface of the nervous tissue or around blood vessels; these ’perivascular’ microglia were elongated cells with no branching processes, and were strongly labelled by ED1, ED2, OX-18, OX-6, OX-17 and F4/80 antibodies but showed variable OX-42 immunoreactivity. Cells in a perivascular location were heterogeneous with respect to their immunophenotype. The presence in the normal adult rat hypothalamo-neurohypophysial system of MHC class-II molecules (OX-6 and OX-17) on a sub-set of perivascular microglia suggests that these cells are capable of presenting antigen to T lymphocytes. The microglia, which lie on either side of the blood-brain barrier, are well placed to facilitate interaction between the immune and neuroendocrine systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00318369

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