Measurement of friction on straight catheters in in vitro brain and phantom material

Rogers C Ritter; Elizabeth G Quate; George T Gillies; M Sean Grady; Matthew A Howard III; William C Broaddus

doi:10.1109/10.664203

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Journal article

Measurement of friction on straight catheters in in vitro brain and phantom material

Rogers C Ritter, Elizabeth G Quate, George T Gillies, M Sean Grady, Matthew A Howard III and William C Broaddus

IEEE transactions on biomedical engineering, Vol.45(4), pp.476-485

04/1998

DOI: 10.1109/10.664203

PMID: 9556964

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Abstract

As part of our studies on the magnetic stereotaxis system (MSS), a means of delivering therapies to the bulk brain, we have measured the frictional forces on a thin, straight tube used to simulate a catheter. Experiments were done with a spring-loaded, stainless steel tube of 1.9-mm diameter which was passed through 5.5 cm of gelatin phantom or, alternatively, through in vitro calf brain. The dynamic response of the tube to sudden displacement of the outer end of the spring yields estimates of the tube's friction per unit length. Twenty-three runs in the two media were analyzed for the static and dynamic frictional forces exhibited. In these series the static frictional forces were found to be (0.0132 +/- 0.0012) N cm-1 [(1.32 +/- 0.12) g cm-1] of length in the gelatin phantom and (0.0079 +/- 0.0008) N cm-1 [(0.79 +/- 0.08) g cm-1] of length in brain. The kinetic friction coefficient, b, was found to be (8.4 +/- 2.1) N s m-1/cm length of catheter in brain and (16.3 +/- 7.6) N s m-1/cm length of catheter in the phantom material. Based on these figures, the MSS will be capable of moving straight catheters of similar friction that are 20-cm long at rates of displacement of 0.02 to 0.05 cm s-1 in the white and grey matter of the brain. Future studies will evaluate the forces arising from curved paths. Unanswered questions remain as to the mechanical difference between in vivo and in vitro brain, between animal and human brain, and the involvement of sulci in practical paths of motion.

Friction

Biomechanical Phenomena

Humans

Brain Mapping

Infusions, Parenteral

Models, Neurological

Phantoms, Imaging

Catheters, Indwelling

Stereotaxic Techniques

Details

Title: Subtitle: Measurement of friction on straight catheters in in vitro brain and phantom material
Creators: Rogers C Ritter - Department of Physics, University of Virginia, Charlottesville 22901, USA
Elizabeth G Quate
George T Gillies
M Sean Grady
Matthew A Howard III
William C Broaddus
Resource Type: Journal article
Publication Details: IEEE transactions on biomedical engineering, Vol.45(4), pp.476-485
Publisher: United States
DOI: 10.1109/10.664203
PMID: 9556964
ISSN: 0018-9294
eISSN: 1558-2531
Language: English
Date published: 04/1998
Academic Unit: Neurology; Iowa Neuroscience Institute; Neurosurgery; Otolaryngology
Record Identifier: 9984020640302771

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