K O B D NEE STEOARTHRITIS IS A ILATERAL ISEASE Andrew John Metcalfe BMedSc MBChB FRCS(Tr&Orth) Presented to the School of Engineering and the School of Medicine at Cardiff University in partial fulfilment of the requirements for the degree of: Doctor of Philosophy 2014 Declaration and Statements Declaration This work has not been submitted in substance for any other degree or award at this or any other university or place of learning, nor is being submitted concurrently in candidature for any degree or other award. Signed: …………………………………………. (Candidate) Date: 12/10/2014 Statement 1 This thesis is being submitted in partial fulfilment of the requirement for the degree of PhD. Signed: …………………………………………. (Candidate) Date: 12/10/2014 Statement 2 This thesis is the result of my own independent work/investigation, except where otherwise stated. Other sources are acknowledged by explicit references. The views expressed are my own. Signed: …………………………………………. (Candidate) Date: 12/10/2014 Statement 3 I hereby give consent for my thesis, if accepted, to be available for photocopying and for inter-library loan and for the title and summary to be made available to outside organisations. Signed: …………………………………………. (Candidate) Date: 12/10/2014 i Acknowledgements In doing this work, I have been fortunate enough to have had a great amount of support and assistance from a large number of generous, helpful and talented people, more than I have space to name individually. There are a few people I must acknowledge, however, without whom I would have been unable to have put this work together. I particularly appreciate the help, support and encouragement that I have received from my supervisors, Dr Cathy Holt and Dr Rhian Goodfellow, who have managed to encourage, enthuse and often correct me over a number of years. Their patience in teaching, the time they have committed, and their willingness to get involved in topics outside of their comfort area has been a great help. I am also especially indebted to Dr Caroline Stewart, Dr Neil Postans, Mr Andrew Roberts and the staff of ORLAU at the Robert Jones and Agnes Hunt Orthopaedic Hospital in Oswestry. From the very start of this work they have sacrificed large amounts of time and effort into helping me both with the intellectual development of ideas throughout this thesis, as well as in the practical delivery of the work itself. This has often taken up significant amounts of their time but their willingness to help and their ongoing encouragement has been an inspiration throughout the time that I have worked on this research. Dr Carina Thorstensson and Dr Maria Andersson very kindly provided both their data and repeated help and advice to someone who they had initially only ii communicated with via email and a brief telephone conversation. Their willingness to let me be involved in their work, and the time they subsequently spent helping refine the work presented in chapter 3 was greatly appreciated. The classification work was performed with the help and support of Paul Biggs and Dr Gemma Whatling, among others, both of whom deserve recognition for their time spent on, and expertise in, writing code to process the data and then patiently helping a simple clinician through the complexities of Matlab and the mathematical processes presented in the thesis. Dr Whatling’s helpful advice and support throughout the time of this PhD, with advice given on almost every chapter, is also greatly appreciated. Dr Emma Blain committed a large amount of time and effort to the mechano- biology work presented in chapter 6, and worked tirelessly and with endless patience to help a biology novice through both the academic and practical aspects of the study, including editing chapter 6. With this study in mind I must also acknowledge the help of Professor Sam Evans who helped greatly in the set-up and development of the study as well as producing some of the equipment used. Dr Joanna Li’s help is also acknowledged in analysing the samples and performing the finite element modelling which produced a valuable additional facet to the study. Finally, but most importantly, I have to recognise the sacrifices made and support given by my wife Helen, my children Ben and Emily, and my family and friends as I have ruined free time, broken up holidays and spent more time on the computer then was ever reasonable. Helen has been a great and patient source of support iii over many years and my children continue to brighten and enthuse me no matter what has happened at work or during a study, and I am deeply indebted to them. iv Abstract Knee osteoarthritis (OA) is a common cause of pain and disability. Patients often complain that they overload the other limb when they walk, resulting in disease in the unaffected knee. However, it is unknown whether this happens or the mechanism by which it occurs. Data was analysed from an established longitudinal cohort study to examine the development of bilateral knee OA. One hundred and forty-three subjects were examined over a 12 year period with bilateral radiographs. Bilateral knee osteoarthritis was found to be very common over time, and the majority of individuals with unilateral knee OA eventually developed bilateral disease. A gait analysis study was performed on 20 subjects with unilateral knee OA awaiting arthroplasty surgery and 20 healthy age equivalent controls. Abnormal moments and muscle co-contractions were observed in the other knee and hips when they walked due a characteristic slow, cautious, stiff-legged gait pattern. Fifteen subjects re-attended 12 months following their surgery. Whilst moments returned to normal in most of the replaced knees, they remained elevated at the contra-lateral side and co-contraction failed to recover in either knee. A novel study design is presented to examine the effect of gait-derived loading waveforms on fresh human osteochondral plugs. By applying mechano-biology techniques and Finite Element Modelling to fresh human tissue, new observations v can be made about the relationship between in-vivo loading and cartilage mechano-biology. A characteristic gait pattern was observed in knee OA which is not simply antalgic but tends towards symmetry, with an increase in joint loading bilaterally. The observed gait behaviour does not resolve, despite arthroplasty of the affected joint. This would be expected to contribute to the development of disease in an inherently vulnerable joint. Additional training may have a role to play in restoring normal biomechanics and protecting the other knee from disease. vi Table of Contents DECLARATION AND STATEMENTS I ACKNOWLEDGEMENTS II ABSTRACT V TABLE OF CONTENTS VII LIST OF ABBREVIATIONS XIII CHAPTER 1. INTRODUCTION 1 CHAPTER 2. BACKGROUND AND LITERATURE REVIEW 6 2.1OSTEOARTHRITIS THE DISEASE 7 2.1.1 History of osteoarthritis 7 2.1.2 Definition of Osteoarthritis 9 2.1.3 Epidemiology of OA: Prevalence and Economic Impact 10 2.1.4 Pathophysiology of osteoarthritis 12 2.1.5 Risk factors for OA development and progression 19 2.1.6 Classification of OA 22 2.1.7 Measuring Pain and Function in OA 25 2.1.8 Multiple Joint OA 28 2.1.8 Treatments for OA 33 2.1.9 Conservative Treatments 33 2.1.10 Surgical Treatments for OA 35 2.2OVERVIEW OF GAIT ANALYSIS 39 2.2.1 Principles of modern gait analysis 39 2.2.2 Data collection in gait analysis 42 2.2.3 Conventions in describing position, motion and forces 46 2.2.4 Principles of data processing for gait analysis 50 vii 2.2.5 Sources of Error 53 2.2.6 Overall Reliability of Gait Analysis 59 2.2.7 Electromyography (EMG) 60 2.3GAIT ANALYSIS IN OA 63 2.3.1 Gait changes in knee OA 63 2.3.2 Gait changes in Total Knee Replacement 65 2.3.3 The Knee Adduction Moment 66 2.3.4 The Hip Adduction Moment 71 2.3.5 Muscular Co-Contraction 73 2.3.6 Loading of Unaffected joints in Patients with Knee OA – the Same Side 76 2.3.7 Loading of Unaffected joints in Patients with Knee OA – the Other Side 77 2.4AIMS AND OBJECTIVES 81 CHAPTER 3. IS KNEE OA A SYMMETRICAL DISEASE? ANALYSIS OF A 12 YEAR PROSPECTIVE COHORT. 82 3.1INTRODUCTION 83 3.2METHODS 84 3.2.1 Development of the study 84 3.2.2 Description of the cohort study 85 3.2.3 Analysis of the data 88 3.3RESULTS 90 3.3DISCUSSION 98 3.3.1 Overview of findings 98 3.3.2 Limitations of the study 99 3.3.4 Implications and Conclusion 100 CHAPTER 4. ABNORMAL LOADING OF THE MAJOR WEIGHT BEARING JOINTS IN KNEE OA 103 4.1INTRODUCTION 104 4.2MATERIALS AND METHODS 107 viii 4.2.1 Study development and management 107 4.2.2 Recruitment and patient selection 109 4.2.3 Gait Analysis Protocol 115 4.2.4 Data Processing 119 4.2.5 Development of a measurement for dynamic limb alignment 124 4.2.6 Statistical Analysis 138 4.2.7 Examination of component parts of frontal plane moments 140 4.2.8 Exploration of the effect of gait speed in normal individuals 142 4.3RESULTS 145 4.3.1 Demographics 145 4.3.2 Gait Analysis Findings 146 4.3.3 Co-contraction findings 155 4.3.4 Findings from the dynamic alignment measure 158 4.3.4 Exploration of Moments 164 4.3.5 The relationship between gait speed and moments 170 4.4DISCUSSION 175 4.4.1 Overview 175 4.4.2 Kinetics 176 4.4.3 Co-contraction 182 4.4.4 Dynamic Alignment 185 4.4.5 Weaknesses of the study 188 4.5CONCLUSIONS AND FURTHER INVESTIGATION 191 CHAPTER 5. BIOMECHANICS OF THE AFFECTED AND UNAFFECTED JOINTS FOLLOWING KNEE REPLACEMENT 193 5.1INTRODUCTION 194 5.1.1 Overview 194 5.1.2 Analysis of complex gait data sets 194 ix