Catherine Rappaport scite author profile

Catherine Rappaport

5Publications

56Citation Statements Received

10Citation Statements Given

How they've been cited

246

How they cite others

Affiliations

University of Utah, Yale University

Publications

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Review—progress in Concept and Practice of Growing Anchorage-Dependent Mammalian Cells in Three Dimension

Rappaport

2003

In Vitro Cell Dev Biol Anim

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Tissue culture has played a major role in the rapid advances made in medical science in the past 50 yr. The full potential of the technique, however, is limited by the fact that growth of cells is usually restricted to a monolayer accompanied by major decreases in many of their tissue-specific functions. This has been shown to be due, in large part, to the inadequate oxygenation of cells growing in tissue culture dishes. Studies that show that the high charge density and rigidity of the plastic and glass surfaces used for culture are also major factors limiting growth of cells to a monolayer, are reviewed. A new culture system has been developed in which cells are grown on substrata made using perfluorocarbons (PFCs) coated with collagen type 1 and other adhesive factors. Perfluorocarbons have a much higher solubility for oxygen than water and have been used as oxygen delivery systems to protect cells from hypoxia. These new PFC-based substrata can provide both the optimal level of oxygen cells need to maintain differentiated functions and the flexible and weaker type of adhesion that allows cells to round up, interact with each other, and when provided with adequate nutritional support, to grow in three dimension.

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Studies on properties of surfaces required for growth of mammalian cells in synthetic medium

Rappaport

Poole

Rappaport

1960

Experimental Cell Research

102

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Investigation of AC‐DC magnetic field effects in planar phospholipid bilayers

Durney

Kaminski²,

Anderson³

et al. 1992

Bioelectromagnetics

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Observations recently reported by others indicate that a combination of a weak dc magnetic field and extremely-low-frequency ac magnetic field can produce resonant effects in biological systems. We report measurements of the effects of combined dc and ac magnetic fields on the dc current through channel-free planar phospholipid membranes. The combined dc-ac magnetic fields did affect the dc current through planar phospholipid membranes, but not in every membrane, and not consistently at the same values of magnetic flux density and frequency. None of our measurements showed resonant response akin to the cyclotron-like resonance reported in diatoms [Smith et al., 1987] and lymphocytes [Liboff et al., 1987].

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Studies on properties of surfaces required for growth of mammalian cells in synthetic medium

Rappaport¹

1960

Experimental Cell Research

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Dissociation of Adult Mouse Liver by Sodium Tetraphenylboron, A Potassium Gomplexing Agent.

Rappaport¹,

Howze²

1966

Experimental Biology and Medicine

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