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The morphology of polymethylmethaerylate (PMMA) bone cement

Surface structures and causes of their origin

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Summary

This study deals with the correlation between the polymerizing bone cement and the surrounding tissue. The surface structures of bone cements, polymerized in air, in tissue medium (in vitro) and in human bone during implantation were investigated and compared with the contours of the tissue of the implant bed. Basing on the dimensional differences it was differentiated between contours of 1st order and 2nd order: contours of 1st order are within the macroscopic range, contours of 2nd order within the microscopic range. The surface of bone cement polymerized in living human tissue differed essentially from samples polymerized under laboratory conditions. The differences are to be seen macroscopically in the coarse relief as well as microscopically in the shape and the connection of the superficial methylmethacrylate beads. Bone cements, polymerized in air show an ideal, even and closed surface. Bone cements, polymerized in tissue medium exhibit macroscopically some wrinkles, in the microscopic range their contours are either closed (samples prepolymerized at 22°C) or partly open and partly closed (samples prepolymerized at 24°C). The surface of bone cement implants, retrieved from human bones are characterized macroscopically by a marked wrinkled and papillary relief, microscopically by flattened beads, and most often by an irregular, rough and open surface with isolated beads giving almost the impression of a porous surface structure.

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Authors and Affiliations

  1. Department of Bone Diseases of the Orthopaedic University Clinic Frankfurt/M., Germany

    H. -G. Willert

  2. Plastics Department of the State Material Testing Institute (MPA) of the Technical University Darmstadt, Germany

    K. Mueller

  3. Department of Medical Engineering Research, Sulzer Brothers Limited, Winterthur, Switzerland

    M. Semlitsch

Authors
  1. H. -G. Willert
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  2. K. Mueller
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  3. M. Semlitsch
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Dedicated Professor Dr. E. Uehlinger on his 80th birthday

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Willert, H.G., Mueller, K. & Semlitsch, M. The morphology of polymethylmethaerylate (PMMA) bone cement. Arch. Orth. Traum. Surg. 94, 265–292 (1979). https://doi.org/10.1007/BF00383411

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