R. Raineri scite author profile

The observation that fetal neurons are able to survive and function when transplanted into the adult brain fostered the development of cellular therapy as a promising approach to achieve neuronal replacement for treatment of diseases of the adult central nervous system. This approach has been demonstrated to be efficacious in patients with Parkinson's disease after transplantation of human fetal neurons. The use of human fetal tissue is limited by ethical, infectious, regulatory, and practical concerns. Other mammalian fetal neural tissue could serve as an alternative cell source. Pigs are a reasonable source of fetal neuronal tissue because of their brain size, large litters, and the extensive experience in rearing them in captivity under controlled conditions. In Phase I studies porcine fetal neural cells grafted unilaterally into Parkinson's disease (PD) and Huntington's disease (HD) patients are being evaluated for safety and efficacy. Clinical improvement of 19% has been observed in the Unified Parkinson's Disease Rating Scale "off" state scores in 10 PD patients assessed 12 months after unilateral striatal transplantation of 12 million fetal porcine ventral mesencephalic (VM) cells. Several patients have improved more than 30%. In a single autopsied PD patient some porcine fetal VM cells were observed to survive 7 months after transplantation. Twelve HD patients have shown a favorable safety profile and no change in total functional capacity score 1 year after unilateral striatal placement of up to 24 million fetal porcine striatal cells. Xenotransplantation of fetal porcine neurons is a promising approach to delivery of healthy neurons to the CNS. The major challenges to the successful use of xenogeneic fetal neuronal cells in neurodegenerative diseases appear to be minimizing immune-mediated rejection, management of the risk of xenotic (cross-species) infections, and the accurate assessment of clinical outcome of diseases that are slowly progressive.

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No Evidence for Infection of Human Cells With Porcine Endogenous Retrovirus (Perv) After Exposure to Porcine Fetal Neuronal Cells1

Dinsmore¹,

Manhart²,

Raineri³

et al. 2000

Transplantation

100

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Specificity of steroid interaction with mammary glucose 6-phosphate dehydrogenase

Raineri¹,

Levy²

1970

Biochemistry

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A Study of Tobacco Carcinogenesis. XIV. ERects of N '-Nitrosonornicotine and N '-Nitrosonanabasine in Rats 2

Hoffmann¹,

Raineri²,

Hecht³

et al. 1975

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N'-Nitrosonornicotine (NNN) and N'-nitrosoanabasine (NAB) were synthesized and administered in drinking water to male Fischer rats for 30 weeks (total dose, 630 mg). 1,4-Dinitrosopiperazine (DNPI) served as the positive control. By 11 months, all surviving rats given NNN developed esophageal tumors (12/20); 1 had a pharyngeal tumor and 3 had invasive carcinomas originating in the nasal cavity. During the same time, only 1 of 20 rats given NAB developed esophageal tumors. Compared to the strong esophageal carcinogen DNPI, NNN was a moderately active and NAB a weak carcinogen. NNN (0.3-90 parts per million) in chewing tobacco was related to the observation that cancer of the oral cavity and esophagus in man was correlated with the chewing of tobacco.

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R. Raineri

Transplantation of embryonic porcine mesencephalic tissue in patients with PD

Porcine Xenografts in Parkinson's Disease and Huntington's Disease Patients: Preliminary Results

No Evidence for Infection of Human Cells With Porcine Endogenous Retrovirus (Perv) After Exposure to Porcine Fetal Neuronal Cells1

Specificity of steroid interaction with mammary glucose 6-phosphate dehydrogenase

A Study of Tobacco Carcinogenesis. XIV. ERects of N '-Nitrosonornicotine and N '-Nitrosonanabasine in Rats 2

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