Effects of hyaluronan viscous materials on cell membrane electrical properties

Hyaluronan [hyaluronic acid (HA)] has been implicated in various cellular processes such as proliferation, adhesion, migration, and differentiation. The secondary and tertiary structures of HA give it very important and unique viscoelastic properties. HA‐composed materials are currently used intraoc...

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Bibliographic Details
Published in:Journal of biomedical materials research 1998-08, Vol.41 (2), p.211-220
Main Authors: Santini, Maria T., Cametti, Cesare, Formisano, Giuseppe, Flamma, Floriana, Perilli, Roberto
Format: Article
Language:English
Subjects:
Biological and medical sciences
Cell Membrane - drug effects
Cell Membrane - physiology
Cell Size
Cytosol - drug effects
Cytosol - physiology
Elasticity
Electric Conductivity
Humans
hyaluronan (hyaluronic acid)
Hyaluronic Acid - pharmacology
Ion Transport - drug effects
K562 cells
Leukemia, Erythroblastic, Acute - pathology
Leukemia, Myelogenous, Chronic, BCR-ABL Positive - pathology
Lubrication
Maxwell-Wagner effect
Medical sciences
membrane electrical properties
Membrane Potentials - drug effects
Molecular Weight
Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects)
Technology. Biomaterials. Equipments. Material. Instrumentation
Time Factors
Tumor Cells, Cultured
Viscosity
viscous materials
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Summary:Hyaluronan [hyaluronic acid (HA)] has been implicated in various cellular processes such as proliferation, adhesion, migration, and differentiation. The secondary and tertiary structures of HA give it very important and unique viscoelastic properties. HA‐composed materials are currently used intraocularly during ophthalmological surgery to facilitate surgical procedures and prevent tissue damage. To examine the effects of three viscous biomaterials composed of hyaluronan (Healon™, IAL™, and Biolon™) used in ophthalmological surgery, the membrane electrical properties of the erythroleukemic K562 cell line exposed to these materials were investigated. Membrane conductivity, membrane permittivity, and the conductivity of the cytosol were evaluated using dielectric relaxation measurements in the radiofrequency range and fitting the experimental results to the general equations of the Maxwell–Wagner effect. The results demonstrate that while membrane permittivity and the conductivity of the cytosol are not significantly altered, the membrane conductivity of K562 cells exposed to all three biomaterials increases substantially and in a time‐dependent manner with respect to untreated cells. These observations seem to indicate that hyaluronan perturbs ionic transport while it does not vary the type, quantity, or distribution of membrane components. In addition, the variations induced by these substances on the cell membrane are not dependent upon the molecular weight or on the biological origin of hyaluronan. These results may aid in elucidating the mechanisms involved in hyaluronan/cell membrane interaction and thus may provide a deeper understanding of the complications related to their use in ophthalmological surgery. © 1998 John Wiley & Sons, Inc. J Biomed Mater Res, 41, 211–220, 1998.
ISSN:0021-9304
1097-4636
DOI:10.1002/(SICI)1097-4636(199808)41:2<211::AID-JBM5>3.0.CO;2-L