Age-related differences in the local cellular and molecular responses to injury in developing spinal cord of the opossum, Monodelphis domestica.

Immature spinal cord, unlike adult, has an ability to repair itself following injury. Evidence for regeneration, structural repair and development of substantially normal locomotor behaviour comes from studies of marsupials due to their immaturity at birth. We have compared morphological, cellular and molecular changes in spinal cords transected at postnatal day (P)7 or P14, from 3 h to 2 weeks post-injury, in South American opossums (Monodelphis domestica).

Light and electron microscopic assessment of progressive atrophy following moderate traumatic brain injury in the rat.

The presence of progressive white matter atrophy following traumatic brain injury (TBI) has been reported in humans as well as in animal models. However, a quantitative analysis of progressive alterations in myelinated axons and other cellular responses to trauma has not been conducted. This study examined quantitative differences in myelinated axons from several white and gray matter structures between non-traumatized and traumatized areas at several time points up to 1 year.

Cerebral blood flow restoration and reperfusion injury after ultraviolet laser-facilitated middle cerebral artery recanalization in rat thrombotic stroke.

Background And Purpose: A reversible model of focal thrombotic stroke was developed in the rat and examined for histological evidence of reperfusion injury after clinically relevant times of recanalization.

Methods: The distal middle cerebral artery of 28 male Sprague-Dawley rats was occluded by 562-nm laser-driven photothrombosis for 0.5, 2, and 3 hours or permanently (each n=7) and was recanalized by 355-nm UV laser irradiation.

Assessment of the malignant potential of mitogen stimulated human Schwann cells.

Human Schwann cells (SCs) can be isolated and expanded with mitogens using cell culture techniques. These cells have been demonstrated to promote axonal regrowth in both the central and peripheral nervous system. Primary rat SCs can be immortalized with long-term exposure to mitogens.