Biomechanical effect of isolated capitate shortening in Kienböck's disease: An anatomical study

K. D. Werber; R. Schmelz; C. A. Peimer; S. Wagenpfeil; H. G. MacHens; J. A. Lohmeyer

doi:10.1177/1753193412458996

Biomechanical effect of isolated capitate shortening in Kienböck's disease: An anatomical study

K. D. Werber
, R. Schmelz
, C. A. Peimer
, S. Wagenpfeil
, H. G. MacHens
, J. A. Lohmeyer

Chair of Plastic Surgery

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Multiple operations have been proposed to slow the progression of osteonecrosis and secondary carpal damage in Kienböck's disease. To assess the biomechanical changes after capitate shorting, we inserted pressure-testing devices into the carpal and radiocarpal joints in an anatomical study. Pressure sensors were placed into eight thawed non-fixated human cadaver arms to measure the forces transmitted in physiological loading. Longitudinal 9.8 N and 19.6 N forces were applied before and after capitate shortening. After capitate shortening, significant load reduction on the lunate was evident in all specimens. An average decrease of 49% was seen under a 9.8 N load and 56% under a 19.6 N load. The load was transferred to the radial and ulnar intercarpal joints. More relief of pressure on the lunate after isolated capitate shortening is achieved with a shallow angle between the scaphoid and capitate in the posteroanterior radiograph.

Original language	English
Pages (from-to)	500-507
Number of pages	8
Journal	Journal of Hand Surgery: European Volume
Volume	38
Issue number	5
DOIs	https://doi.org/10.1177/1753193412458996
State	Published - Jun 2013

Keywords

Anatomical study
Kienböck's disease
biomechanics
capitate shortening
lunate necrosis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1177/1753193412458996

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@article{bde4b8dae7a94b49901da99e279966ec,

title = "Biomechanical effect of isolated capitate shortening in Kienb{\"o}ck's disease: An anatomical study",

abstract = "Multiple operations have been proposed to slow the progression of osteonecrosis and secondary carpal damage in Kienb{\"o}ck's disease. To assess the biomechanical changes after capitate shorting, we inserted pressure-testing devices into the carpal and radiocarpal joints in an anatomical study. Pressure sensors were placed into eight thawed non-fixated human cadaver arms to measure the forces transmitted in physiological loading. Longitudinal 9.8 N and 19.6 N forces were applied before and after capitate shortening. After capitate shortening, significant load reduction on the lunate was evident in all specimens. An average decrease of 49\% was seen under a 9.8 N load and 56\% under a 19.6 N load. The load was transferred to the radial and ulnar intercarpal joints. More relief of pressure on the lunate after isolated capitate shortening is achieved with a shallow angle between the scaphoid and capitate in the posteroanterior radiograph.",

keywords = "Anatomical study, Kienb{\"o}ck's disease, biomechanics, capitate shortening, lunate necrosis",

author = "Werber, \{K. D.\} and R. Schmelz and Peimer, \{C. A.\} and S. Wagenpfeil and MacHens, \{H. G.\} and Lohmeyer, \{J. A.\}",

note = "Funding Information: This work was supported by BMW FIZ Germany (supply of the technical equipment). S.W. was supported by a project grant of the Graduate School of Information Science in Health and TUM Graduate School. No other grant from any other funding agency in the public, commercial, or not-for-profit sectors was received.",

year = "2013",

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doi = "10.1177/1753193412458996",

language = "English",

volume = "38",

pages = "500--507",

journal = "Journal of Hand Surgery: European Volume",

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TY - JOUR

T1 - Biomechanical effect of isolated capitate shortening in Kienböck's disease

T2 - An anatomical study

AU - Werber, K. D.

AU - Schmelz, R.

AU - Peimer, C. A.

AU - Wagenpfeil, S.

AU - MacHens, H. G.

AU - Lohmeyer, J. A.

N1 - Funding Information: This work was supported by BMW FIZ Germany (supply of the technical equipment). S.W. was supported by a project grant of the Graduate School of Information Science in Health and TUM Graduate School. No other grant from any other funding agency in the public, commercial, or not-for-profit sectors was received.

PY - 2013/6

Y1 - 2013/6

N2 - Multiple operations have been proposed to slow the progression of osteonecrosis and secondary carpal damage in Kienböck's disease. To assess the biomechanical changes after capitate shorting, we inserted pressure-testing devices into the carpal and radiocarpal joints in an anatomical study. Pressure sensors were placed into eight thawed non-fixated human cadaver arms to measure the forces transmitted in physiological loading. Longitudinal 9.8 N and 19.6 N forces were applied before and after capitate shortening. After capitate shortening, significant load reduction on the lunate was evident in all specimens. An average decrease of 49% was seen under a 9.8 N load and 56% under a 19.6 N load. The load was transferred to the radial and ulnar intercarpal joints. More relief of pressure on the lunate after isolated capitate shortening is achieved with a shallow angle between the scaphoid and capitate in the posteroanterior radiograph.

AB - Multiple operations have been proposed to slow the progression of osteonecrosis and secondary carpal damage in Kienböck's disease. To assess the biomechanical changes after capitate shorting, we inserted pressure-testing devices into the carpal and radiocarpal joints in an anatomical study. Pressure sensors were placed into eight thawed non-fixated human cadaver arms to measure the forces transmitted in physiological loading. Longitudinal 9.8 N and 19.6 N forces were applied before and after capitate shortening. After capitate shortening, significant load reduction on the lunate was evident in all specimens. An average decrease of 49% was seen under a 9.8 N load and 56% under a 19.6 N load. The load was transferred to the radial and ulnar intercarpal joints. More relief of pressure on the lunate after isolated capitate shortening is achieved with a shallow angle between the scaphoid and capitate in the posteroanterior radiograph.

KW - Anatomical study

KW - Kienböck's disease

KW - biomechanics

KW - capitate shortening

KW - lunate necrosis

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AN - SCOPUS:84878325269

SN - 1753-1934

VL - 38

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EP - 507

JO - Journal of Hand Surgery: European Volume

JF - Journal of Hand Surgery: European Volume

IS - 5

ER -

Biomechanical effect of isolated capitate shortening in Kienböck's disease: An anatomical study

Abstract

Keywords

UN SDGs

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