A.D. Ansselin scite author profile

This study tested the usefulness of Schwann cells in the repair of a severed nerve with a biosynthetic bridge or guide. Reinforced collagen nerve guides were used to bridge an 18 mm gap in the sciatic nerve of 21 young adult rats. The animals were divided into three groups and the guides were filled with: (i) more than 0.5 x 10(6) cultured syngeneic adult Schwann cells (group L, n = 12); (ii) less than 0.5 x 10(6) Schwann cells (Group S, n = 6); and (iii) phosphate buffered saline (control, n = 3). Schwann cells were pre-labelled with Hoechst dye. Regeneration was assessed functionally and histologically at 1, 2, 3 and 6 + months after surgery. Group L animals showed numerous regenerated axons surrounded by implanted Schwann cells within the first month. The total number of myelinated fibers (12.5 x 10(3)) remained above normal unoperated values (7 x 10(3)) in long-term animals. Regenerated axons were found in Group S in the third month, but no Hoechst labelled cells were found. The number of myelinated fibers (3.9 x 10(3)) remained below normal values in long-term animals. Control guides failed to support axonal regeneration. Functional recovery was evident at week 20 (Group L) and week 30 (Group S) after surgery, with no difference in function between the two groups by the end of the study. Supplementing guides with Schwann cells enhances regeneration of peripheral axons over a distance normally prohibitive. This effect is greatest in the early stages of regeneration (1-3 months) and is dependent on the number of cells implanted.

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Immunopathological factors in peripheral nerve allograft rejection: Quantification of lymphocyte invasion and major histocompatibility complex expression

Ansselin

Pollard

1990

Journal of the Neurological Sciences

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Extracellular ATP increases intracellular calcium in cultured adult Schwann cells

1996

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The Effect of Acute Oxidative Stress on the Ultrastructure of the Perfused Rat Liver

Cogger

Mross

Hosie

et al. 2001

Pharmacology & Toxicology

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Ageing and liver disease are associated with ultrastructural changes in the hepatic sinusoid. Because of the possibility that reactive oxygen species could mediate these processes, we examined the effect of acute oxidative stress on the ultrastructure of the intact liver. Rat livers were perfused ex vivo, in situ with hydrogen peroxide via the portal vein. The livers were then fixed and the ultrastructure of the liver tissue examined with transmission and scanning electron microscopy. The effects of hydrogen peroxide were largely confined to the perisinusoidal areas. The sinusoidal endothelial cells became swollen and more porous, with large gaps replacing sieve plates. The space of Disse showed an increase in volume and the density of hepatocyte projections decreased. Kupffer cell activation was noted. Little or no ultrastructural change was observed within the hepatocytes. Oxidative stress delivered via the portal vein dramatically alters the ultrastructure of the perisinusoidal regions of the liver. This process may contribute to the pathogenesis of disease and agerelated changes in the liver.

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The regeneration of axons through normal and reversed peripheral nerve grafts

Ansselin

Davey

1993

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A.D. Ansselin

Peripheral nerve regeneration through nerve guides seeded with adult Schwann cells

Immunopathological factors in peripheral nerve allograft rejection: Quantification of lymphocyte invasion and major histocompatibility complex expression

Extracellular ATP increases intracellular calcium in cultured adult Schwann cells

The Effect of Acute Oxidative Stress on the Ultrastructure of the Perfused Rat Liver

The regeneration of axons through normal and reversed peripheral nerve grafts

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