Joseph T. Lyman scite author profile

Joseph T. Lyman

5Publications

71Citation Statements Received

6Citation Statements Given

How they've been cited

131

How they cite others

Affiliations

University of Illinois Urbana-Champaign, University of Illinois System

Publications

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Handling individual mammalian embryos using microfluidics

Glasgow

Zeringue

Beebe

et al. 2001

IEEE Trans. Biomed. Eng.

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We have designed, built, and tested microfluidic systems capable of transporting individual, preimplantation mouse embryos (100-microm to 150-microm diameter) through a network of channels. Typical channels are 160 to 200 microm deep, 250 to 400 microm wide at the top, and narrower at the bottom (0 to 250 microm wide) due to the fabrication process. In these channels, a pressure gradient of 1 Pa/mm causes the medium to flow on the order of 10(-10) m3/s (100 nl/s), with an average speed of 1 to 2 mm/s. Under these flow conditions the embryos roll along the bottoms of the channels, traveling at 1/2 the speed of the fluid. By manipulating the pressure at the wells connected to the ends of the channels, the embryos can be transported to (and retained at) specific locations including culture compartments and retrieval wells.

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Effects of intravenous sodium bicarbonate and sodium acetate on equine acid-base status

Kline¹,

Frey²,

Foreman³

et al. 2005

Journal of Equine Veterinary Science

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Development of an embryo transport and analysis system: Material biocompatablity

Chan¹,

Lyman²,

Choi³

et al. 1999

Theriogenology

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Individual Embryo Transport and Retention on a Chip

Glasgow

Zeringue

Beebe

et al. 1998

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Technical note: using calcium carbonate as an osmolar control treatment for acid-base studies in horses.

Frey

Kline

Foreman

et al. 2001

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The efficacy of using calcium carbonate as an osmolar control treatment for acid-base studies in horses receiving alkalizing compounds was evaluated. Six mares were nasogastrically intubated with isomolar quantities of sodium or calcium as sodium bicarbonate or calcium carbonate or with water during three treatment periods. Doses of the carbonic acid salts were 500 mg/kg sodium bicarbonate mixed with 4 L of distilled water (positive control) and 595 mg/kg calcium carbonate mixed with 2 L of distilled water to yield isoosmolar treatments. Four liters of distilled water served as the negative control. Jugular venous blood samples were drawn before intubation and at hourly intervals for 6 h after intubation. The serum electrolytes Na+ and K+, blood pH, and HCO3- were determined. The sodium bicarbonate treatment increased blood pH and HCO3- (P < 0.01) above both the water and CaCO3 treatments. No differences (P > 0.05) were found between the water and CaCO3 treatments. These data indicate that calcium carbonate may serve as a suitable osmolar control treatment for studying the effects of treatments that affect acid-base status of horses.

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Joseph T. Lyman

Handling individual mammalian embryos using microfluidics

Effects of intravenous sodium bicarbonate and sodium acetate on equine acid-base status

Development of an embryo transport and analysis system: Material biocompatablity

Individual Embryo Transport and Retention on a Chip

Technical note: using calcium carbonate as an osmolar control treatment for acid-base studies in horses.

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