Todd M. Forsythe scite author profile

Here we describe a procedure for cloning pigs by the use of in vitro culture systems. Four healthy male piglets from two litters were born following nuclear transfer of cultured somatic cells and subsequent embryo transfer. The initiation of five additional pregnancies demonstrates the reproducibility of this procedure. Its important features include extended in vitro culture of fetal cells preceding nuclear transfer, as well as in vitro maturation and activation of oocytes and in vitro embryo culture. The cell culture and nuclear transfer techniques described here should allow the use of genetic modification procedures to produce tissues and organs from cloned pigs with reduced immunogenicity for use in xenotransplantation.

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Production of Cloned Cattle from In Vitro Systems

Forsberg¹,

Strelchenko²,

Augenstein³

et al. 2002

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The pregnancy initiation and maintenance rates of nuclear transfer embryos produced from several bovine cell types were measured to determine which cell types produced healthy calves and had growth characteristics that would allow for genetic manipulation. Considerable variability between cell types from one animal and the same cell type from different animals was observed. In general, cultured fetal cells performed better with respect to pregnancy initiation and calving than adult cells with the exception of cumulous cells, which produced the highest overall pregnancy and calving rates. The cell type that combined relatively high pregnancy initiation and calving rates with growth characteristics that allowed for extended proliferation in culture were fetal genital ridge (GR) cells. Cultured GR cells used in nuclear transfer and embryo transfer initiated pregnancies in 40% of recipient heifers (197), and of all recipients that received nuclear transfer embryos, 9% produced live calves. Cultured GR cells doubled as many as 85 times overall and up to 75 times after dilution to single-cell culture. A comparison between transfected and nontransfected cells showed that transfected cells had lower pregnancy initiation (22% versus 32%) and calving (3.4% versus 8.9%) rates.

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Highly Crosslinked vs Conventional Polyethylene Particles—An In Vitro Comparison of Biologic Activities

Illgen¹,

Forsythe²,

Pike³

et al. 2008

The Journal of Arthroplasty

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Highly Crosslinked Vs Conventional Polyethylene Particles

Illgen¹,

Bauer²,

Hotujec³

et al. 2009

The Journal of Arthroplasty

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Volume Analysis of Arthroscopic Capsular Shift

Flanigan¹,

Forsythe²,

Orwin³

et al. 2006

Arthroscopy: The Journal of Arthroscopic & Related Surgery

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Todd M. Forsythe

Production of cloned pigs from in vitro systems

Production of Cloned Cattle from In Vitro Systems

Highly Crosslinked vs Conventional Polyethylene Particles—An In Vitro Comparison of Biologic Activities

Highly Crosslinked Vs Conventional Polyethylene Particles

Volume Analysis of Arthroscopic Capsular Shift

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