Standardized loads acting in knee implants

The loads acting in knee joints must be known for improving joint replacement, surgical procedures, physiotherapy, biomechanical computer simulations, and to advise patients with osteoarthritis or fractures about what activities to avoid. Such data would also allow verification of test standards for...

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Bibliographic Details
Published in:PloS one 2014-01, Vol.9 (1), p.e86035-e86035
Main Authors: Bergmann, Georg, Bender, Alwina, Graichen, Friedmar, Dymke, Jörn, Rohlmann, Antonius, Trepczynski, Adam, Heller, Markus O, Kutzner, Ines
Format: Article
Language:English
Subjects:
Activities of Daily Living
Aged
Analysis
Arthroplasty, Replacement, Knee
Biocompatibility
Biology
Biomechanical Phenomena
Biomechanics
Biomedical materials
Body Weight
Computer models
Computer simulation
Cyclic loads
Data processing
Engineering
Extremities
Female
Fractures
Humans
Jogging
Joint replacement
Joint surgery
Kinematics
Knee
Knee Joint - physiopathology
Knee Joint - surgery
Knee Prosthesis - standards
Ligaments
Load
Male
Mathematical models
Medicine
Middle Aged
Osteoarthritis
Osteoarthritis, Knee - surgery
Patients
Physical therapy
Physics
Physiotherapy
Prostheses and implants
Reference Standards
Reference Values
Stress, Mechanical
Surgery
Surgical implants
Torque
Transplants & implants
Walking
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Description
Summary:The loads acting in knee joints must be known for improving joint replacement, surgical procedures, physiotherapy, biomechanical computer simulations, and to advise patients with osteoarthritis or fractures about what activities to avoid. Such data would also allow verification of test standards for knee implants. This work analyzes data from 8 subjects with instrumented knee implants, which allowed measuring the contact forces and moments acting in the joint. The implants were powered inductively and the loads transmitted at radio frequency. The time courses of forces and moments during walking, stair climbing, and 6 more activities were averaged for subjects with I) average body weight and average load levels and II) high body weight and high load levels. During all investigated activities except jogging, the high force levels reached 3,372-4,218N. During slow jogging, they were up to 5,165N. The peak torque around the implant stem during walking was 10.5 Nm, which was higher than during all other activities including jogging. The transverse forces and the moments varied greatly between the subjects, especially during non-cyclic activities. The high load levels measured were mostly above those defined in the wear test ISO 14243. The loads defined in the ISO test standard should be adapted to the levels reported here. The new data will allow realistic investigations and improvements of joint replacement, surgical procedures for tendon repair, treatment of fractures, and others. Computer models of the load conditions in the lower extremities will become more realistic if the new data is used as a gold standard. However, due to the extreme individual variations of some load components, even the reported average load profiles can most likely not explain every failure of an implant or a surgical procedure.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0086035