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238 Pages·2015·4.49 MB·English
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ResearchOnline@JCU This file is part of the following reference: Shastri, Shaneel (2015) The effect of surface characteristics and antimicrobial agents on the growth of biofilms on orthodontic mini-screw implants. DClinDent thesis, James Cook University. Access to this file is available from: http://researchonline.jcu.edu.au/43746/ The author has certified to JCU that they have made a reasonable effort to gain permission and acknowledge the owner of any third party copyright material included in this document. If you believe that this is not the case, please contact [email protected] and quote http://researchonline.jcu.edu.au/43746/ The effect of surface characteristics and antimicrobial agents on the growth of biofilms on Orthodontic mini-screw implants Thesis for partial fulfilment of the requirements for a Doctor of Clinical Dentistry in Orthodontics. Shaneel Shastri The effect of surface characteristics and antimicrobial agents on the growth of biofilms on Orthodontic mini-screw implants Thesis for partial fulfilment of the requirements for a Doctor of Clinical Dentistry in Orthodontics. Shaneel Shastri College of Medicine and Dentistry | Department of Orthodontics Submitted:.March 2015 Table of contents List of abbreviations ....................................................................................... 7 List of figures .................................................................................................. 8 List of tables ................................................................................................. 10 Declaration................................................................................................... 11 Declaration of ethics .................................................................................... 12 Acknowledgement ....................................................................................... 13 Statement on the contribution of others ..................................................... 14 Abstract ....................................................................................................... 15 Chapter 1 - Literature review ................................................................................ 19 1.1 Introduction ......................................................................................... 20 1.2 The concept of absolute anchorage ....................................................... 25 1.3 The development of TADS in orthodontics ............................................. 29 Page | 3 of 237 1.4 The orthodontic mini screw implant ...................................................... 42 1.4.1 Definitions and classification ..................................................... 46 1.4.2 Indirect and direct anchorage ................................................... 48 1.4.3 Types and properties ................................................................. 50 1.4.4 Biocompatibility ........................................................................ 52 1.4.5 Osseointegration of OMSI ......................................................... 54 1.4.6 Thread and body design ............................................................ 56 1.4.7 Bone quality and OMSI stability ................................................ 62 1.4.8 Length of implants..................................................................... 67 1.4.9 Diameter of implants................................................................. 72 1.4.10 Head design ............................................................................. 74 1.4.11 Diagnostic imaging for OMSIs .................................................. 76 1.5 Clinical factors regarding OMSI .............................................................. 79 1.5.1 Loading and anchorage considerations ..................................... 83 1.5.2 Clinical factors for OMSI survival ............................................... 85 1.5.3 Complications of OMSI .............................................................. 89 1.5.4 Current success and failure rates .............................................. 92 1.6 Biofilm formation on dental implants ..................................................... 95 1.7 Surface roughness and the effect of biofilm formation .......................... 98 1.8 Antimicrobial agents on orthodontic biofilms ...................................... 101 Page | 4 of 237 Chapter 2 - Significance and aims of study .......................................................... 105 2.1 Significance .......................................................................................... 106 2.2 Aims ..................................................................................................... 108 Chapter 3 - Materials and method ...................................................................... 109 3.1 Materials .............................................................................................. 110 3.2 Surface roughness ................................................................................ 111 3.3 Surface morphology ............................................................................. 114 3.4 Biofilm growth on implant surfaces ...................................................... 115 3.5 Statistical analysis ................................................................................ 122 Chapter 4 - Results .............................................................................................. 123 4.1 Summary of OMSI groups used ............................................................ 124 4.2 SEM qualitative analysis ....................................................................... 125 4.3 Surface roughness ................................................................................ 130 4.4 Surface roughness – Statistical Analysis ............................................... 135 4.5 Bacterial growth on implant groups ..................................................... 138 4.6 Bacterial growth – Statistical analysis ................................................... 144 4.7 Bacterial growth – Antimicrobial agents............................................... 148 Page | 5 of 237 Chapter 5 - Discussion ......................................................................................... 153 Chapter 6 - Conclusions ....................................................................................... 173 Chapter 7 - Appendices ....................................................................................... 177 7.1 Appendix A: Ethics approval ............................................................... 178 7.2 Appendix B: Ethics information form.................................................... 179 7.3 Appendix B: Ethics consent form .......................................................... 180 7.4 Appendix C: Roughness data ................................................................ 181 7.5 Appendix D: Biofilm data (Vector) ........................................................ 182 7.6 Appendix E: Biofilm data (Aarhus) ........................................................ 183 7.7 Appendix F: Biofilm data (TOMAS) ....................................................... 184 7.8 Appendix G: Biofilm data (Leone) ......................................................... 185 Chapter 8 - References ........................................................................................ 187 8.1 List of references .................................................................................. 188 Page | 6 of 237 List of abbreviations Al Aluminium ANOVA Analysis of variance of mean AFM Atomic force microscopy Australian Society of Orthodontists ASOFRE Foundation for Research and Education CHX Chlorhexidine F Fluoride FCS Flow Cytometry Standard OMSI Orthodontic mini screw implant PMSF Phenylmethanesulfonylfluoride PI Propidium iodide SEM Scanning Electron Microscopy TAD Temporary anchorage device TO Thiazole orange Ti–6Al–4V Titanium alloy (Titanium, Aluminium, and Vanadium) V Vanadium Page | 7 of 237 List of figures Figure 1.1 : Orthodontic devices to assist in anchorage control. ................................. 23 Figure 1.2 : Implants in dentistry: ................................................................................ 24 Figure 1.3 : Onplant type TADs. ................................................................................... 35 Figure 1.4 : Proposed location of zygoma wires. ......................................................... 39 Figure 1.5 : Examples of miniplates, and their usage. .................................................. 39 Figure 1.6 : Implant supported palatal arch ................................................................ 41 Figure 1.7 : Orthogonal view of monocortical and bicortical OMSI ............................. 71 Figure 1.8 : Some of the various head designs available ............................................. 75 Figure 1.9 : Potential sites for placement of OMSI ...................................................... 88 Figure 1.10 : Scanning electron micrograph of a clinically failed OMSI (Ti6Al4V). ....... 97 Figure 1.11 : Diagrammatic representation of biofilm formation.. ............................ 100 Figure 3.1 : The INTEGRA Modular Atomic Force Microscopy Unit ........................... 112 Figure 3.2 : Schematic diagram of how an AFM works. ............................................. 113 Figure 3.3 : Experimental procedure to culture biofilms on the implant surfaces. .... 117 Figure 3.4 : 3D models generated from scanning of the Aarhus OMSI ...................... 121 Figure 4.1 : Examples of the OMSI used for the experiment ..................................... 124 Figure 4.2 : Example of SEM images at various magnifications. ................................ 127 Figure 4.3 : Example of SEM images at various magnifications. ................................ 128 Figure 4.4 : Example of SEM images at various magnifications. ................................ 129 Page | 8 of 237 Figure 4.5 : Example of visual and numerical output for typical AFM sample. ........... 130 Figure 4.6 : Representation of surface roughness as measured by AFM for Aarhus .. 131 Figure 4.7 : Representation of surface roughness as measured by AFM for Vector .. 132 Figure 4.8 : Representation of surface roughness as measured by AFM for Leone ... 133 Figure 4.9 : Representation of surface roughness as measured by AFM for TOMAS . 134 Figure 4.10 : Box plot showing the mean roughness of investigated implant groups. 137 Figure 4.11 : Graph showing scatter vs. thiazole orange stain (Sample B1) .............. 140 Figure 4.12 : Graph of number of cells vs. PI for typical sample (No Intervention) .... 141 Figure 4.13 : Graph showing number of cells vs. PI for typical sample (CHX). ........... 142 Figure 4.14 : Graph showing number of cells vs. PI for typical sample (Fluoride) ...... 143 Figure 4.15 : Box plot showing the mean bacteria grown on each implant group. .... 146 Figure 4.16 : Box plot of killing efficiency of CHX Vs. F on the surface of OMSI. ........ 149 Figure 4.17 : Box plot of killing efficiency of CHX vs. F on OMSI (Across all groups) .. 150 Page | 9 of 237

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biofilms on orthodontic mini-screw implants. Background: . Despite the exciting applications of dental implantology in restorative dentistry,.
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