Randy Labbe scite author profile

Frontal cortex and cerebellar tissue from fetal rats was implanted into the damaged frontal cortex of adults. Cognitive deficits in spatial alternation learning that follow bilateral destruction of medial frontal cortex were reduced in rats with frontal cortex implants but not in those with implants of cerebellum. Histological evaluation showed that connections were made between the frontal cortex implants and host brain tissue.

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Temporal factors influence recovery of function after embryonic brain tissue transplants in adult rats with frontal cortex lesions.

Stein¹,

Palatucci²,

Kahn³

et al. 1988

Behavioral Neuroscience

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Adult rats with lesions of the medial frontal cortex received implants of frontal cortex taken from embryos on the 19th day of gestation and placed directly into the zone of injury at 7, 14, 30, or 60 days after initial surgery. Another group was given bilateral frontal lesions, followed 20 days later by a second small lesion to enhance the release of putative neurotrophic factors. They then received transplants 7 days after this second operation. All rats began postoperative training on a spatial alternation learning task within 4 days after the implants of fetal tissue. The brain-damaged rats with transplants at 7 or 14 days after surgery significantly improved postoperative acquisition of spatial alternation. Transplants made 30 or 60 days postoperatively had no effect; these groups were as impaired as those with lesions alone. The animals given a second, "priming" lesion after a 20-day delay, followed by implants of fetal brain tissue, performed as poorly as the group with frontal cortex lesions alone.

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Fetal brain tissue transplants reduce visual deficits in adult rats with bilateral lesions of the occipital cortex

Stein

Labbe

Attella

et al. 1985

Behavioral and Neural Biology

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Recovery from perseverative behavior after entorhinal cortex lesions in rats

1988

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Morphologic features of embryonic neocortex grafts in adult rats following frontal cortical ablation

Mufson¹,

Labbe

Stein

1987

Brain Research

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Randy Labbe

Fetal Brain Transplant: Reduction of Cognitive Deficits in Rats with Frontal Cortex Lesions

Temporal factors influence recovery of function after embryonic brain tissue transplants in adult rats with frontal cortex lesions.

Fetal brain tissue transplants reduce visual deficits in adult rats with bilateral lesions of the occipital cortex

Recovery from perseverative behavior after entorhinal cortex lesions in rats

Morphologic features of embryonic neocortex grafts in adult rats following frontal cortical ablation

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