The use of water-jetting technology in prostheses revision surgery : first results of parameter studies on bone and bone cement

Publikationstyp
Journal Article
Date Issued
2000-12-12
Sprache
English
Author(s)
Honl, Matthias  
Biomechanik M-3  
Rentzsch, Reemt
Müller, Gerd
Brandt, Carsten
Bluhm, Andrea  
Biomechanik M-3  
Hille, Ekkehard  
Louis, Hartmut
Morlock, Michael  
Biomechanik M-3  
TORE-URI
https://hdl.handle.net/11420/46622
Journal
Journal of Biomedical Materials Research  
Volume
53
Issue
6
Start Page
781
End Page
790
Citation
Journal of Biomedical Materials Research 53 (6): 781-790 (2000)
Publisher DOI
10.1002/1097-4636(2000)53:6<781::AID-JBM20>3.0.CO;2-G
Scopus ID
2-s2.0-0033653622
Publisher
Wiley
Water-jet cutting techniques have been used in industrial applications for many different materials. Recently these techniques have been developed into a revolutionary cutting tool for soft tissues in visceral surgery. The present study investigates the usage of this cutting technology for the revision surgery of endoprostheses. In the first part of the study, samples of bovine bone and acrylic bone cement (PMMA) were cut using an industrial jet cutting device with pure water. Below 400 bar, only PMMA was cut; above 400 bar, bone was also cut, but only pressures above 800 bar resulted in clinically useful rates of material removal (cut depth 2.4 mm at 10 mm/min traverse speed). In the second part of the study, the effect of adding biocompatible abrasives to the water in order to reduce the required pressure was investigated, resulting in a significantly higher removal of material. At 600 bar, PMMA was cut 5.2 mm deep with plain water and 15.2 mm deep with added abrasives. The quality of the cuts was increased by the abrasive. Though there was no clear selectivity between bone and PMMA any more, the rate of material removal at similar pressures was significantly higher for PMMA than for bone (600 bar: 1.6 mm cut depth for bone samples, 15.2 mm for PMMA). The measured cut depths with either method were not influenced by a change of the cutting direction with respect to the main direction of the osteons in the bone. However, a reduction of the jet surface angle (90°to 23°) resulted for bone in a significantly lower cut depth at 600 bar (plain water: 0.62 mm vs. 0.06 mm; abrasive: 1.61 mm vs. 0.60 mm). The laboratory experiments indicate that abrasive water jets may be suitable for cutting biomaterials like bone and bone cement. (C) 2000 John Wiley and Sons, Inc.
Subjects
Bone cement
Jet cutting
PMMA
Prosthesis
Water jet
DDC Class
610: Medicine, Health