The Effects of Obesity on Resultant Knee Joint Loads for Gait and Cycling

Gutierrez-Franco, Juan

01 June 2016

Osteoarthritis (OA) is a degenerative disease of cartilage and bone tissue and the most common form of arthritis, accounting for US$ 10.5 billion in hospital charges in 2006. Obesity (OB) has been linked to increased risk of developing knee OA due to increased knee joint loads and varus-valgus misalignment. Walking is recommended as a weight-loss activity but it may increase risk of knee OA as OB gait increases knee loads. Cycling has been proposed as an alternative weight-loss measure, however, lack of studies comparing normal weight (NW) and OB subjects in cycling and gait hinder identification of exercises that may best prevent knee OA incidence. The objective of this work is to determine if cycling is a better weight-loss exercise than gait in OB subjects as it relates to knee OA risk reduction due to decreased knee loads. A stationary bicycle was modified to measure forces and moments at the pedals in three dimensions. A pilot experiment was performed to calculate resultant knee loads during gait and cycling for NW (n = 4) and OB (n = 4) subjects. Statistical analyses were performed to compare knee loads and knee angles, and to determine statistical significance of results (p < 0.05). Cycling knee loads were lower than gait knee loads for all subjects (p < 0.033). OB axial knee loads were higher than NW axial knee loads in gait (p = 0.004) due to the weight-bearing nature of gait. No differences were observed in cycling knee loads between NW and OB subjects, suggesting cycling returns OB knee loads and biomechanics to normal levels. The lack of significant results in cycling could be due to the small sample size used or because rider weight is supported by the seat. Limitations to this study include small sample size, soft tissue artifact, and experimental errors in marker placement. Future studies should correct these limitations and find knee joint contact force rather than knee resultant loads using v EMG-driven experiments. In conclusion, cycling loads were lower than gait loads for NW and OB subjects suggesting cycling is a better weight-loss exercise than gait in the context of reducing knee OA risk.

Cycling

Gait

Obesity

Knee Loading

Internal Joint Loads

Biomechanics

Biomechanical Engineering

Biomechanics and Biotransport

An Investigation of Simulated Core Muscle Activation during Running and its Effect on Knee Loading and Lower Extremity Muscle Activation Using OpenSim

Creps, Justin Michael

08 September 2014

No description available.

Biomechanics

Running

Jogging

Simulation

OpenSim

Core Muscle Activation

Forward Dynamics

Internal Knee Loading

Knee

Injuries

Overuse

Kinematics

The Effect of Core Stability on Running Mechanics in Novice Runners

Raabe, Margaret E.

16 June 2017

No description available.

Biomedical Engineering

Biomechanics

Mechanical Engineering

running

core

stability

injury

patellofemoral pain

PFP

PFPS

running mechanics

knee loading

fatigue

opensim

musculoskeletal modeling

simulation

neuromuscular

compensation

trunk

novice runners

Untersuchung zur biomechanischen Wirkungsweise von Gonarthrose-Orthesen / Investigation of the biomechanical effectiveness of valgus-inducing knee braces

Knopf, Elmar

15 December 2010

No description available.

610 Medizin, Gesundheit

Medicine

Biomechanik

Ganganalyse

Knielast

mediale Gonarthrose

Orthopädie

Schmerz

Rehabilitation

valgisierende Knieorthese

visuell analoge Skala.

biomechanics

gait analysis

knee loading

medial knee osteoarthritis

orthopedics

orthotics

pain

rehabilitation

valgus bracing

visual analog scale.

44.83

MED 490: Orthopädie