Max Osborne

91 3.2 Clinical evaluation and resonance frequency analysis in Down Syndrome 17. A.L. McDermott, j Williams, M.J. Kuo, A.P. Reid, D.W. Proops, The role of bone anchored hearing aids in children with Down syndrome, Int J Pediatr Otolaryngol 72 (2008) 751–757. 18. P.Z. Sheehan, P.S. Hans, UK and Ireland experience of bone anchored hearing aids (BAHA) in individuals with Down syndrome, Int. J. Pediatr. Otorhinolaryngol. 70 (6) (2006 Jun) 981–986. 19. S.J. Kunst, M.K. Hol, C.W. Cremers, E.A. Mylanus, Bone-anchored hearing aid in patients with moderate mental retardation: impact and benefit assessment, Otol. Neurotol. 28 (6) (2007) 793–797. 20. P. Westerkull, The Ponto-bone anchored hearing system, Adv. Oto-Rhino-Laryngol. 71 (2011) 32–40. 21. J.H. Lee, V. Frias, K.W. Lee, R.F. Wright, Effect of implant size and shape on implant success rates: a literature review, J. Prosthet. Dent 94 (4) (2005 Oct) 377–381. 22. J.A. Mendonça, P.M. Senna, C.E. Francischone, C.E. Francischone Junior, B.S. Sotto-Maior, Influence of the diameter of dental implants replacing single molars: 3- to 6-year follow-up, Int J Oral Maxillofac Implants. 2017 Sep/Oct;32(5):1111-1115 23. I.J. Kruyt, R.C. Nelissen, E.A.M. Mylanus, M.K.S. Hol, Three-year outcomes of a randomized controlled trial comparing a 4.5-mm-Wide to a 3.75-mm-Wide titanium implant for bone conduction hearing, Otol. Neurotol. 39 (5) (2018 Jun) 609–615. 24. S. Foghsgaard, P. Caye-Thomasen, A new wide-diameter bone-anchored hearing implantprospective 1-year data on complications, implant stability, and survival, Otol. Neurotol. 35 (7) (2014 Aug) 1238–1241. 25. R.C. Nelissen, C.A. den Besten, E.A. Mylanus, M.K. Hol, Stability, survival, and tolerability of a 4.5-mm-wide bone-anchored hearing implant: 6-month data from a randomized controlled clinical trial, Eur. Arch. Oto-Rhino-Laryngol. 273 (1) (2016 Jan) 105–111. 26. R.C. Nelissen, J. Stalfors, M.J. de Wolf, M.C. Flynn, S. Wigren, M. Eeg-Olofsson, K. Green, M.P. Rothera, E.A. Mylanus, M.K. Hol, Long-term stability, survival, and tolerability of a novel osseointegrated implant for bone conduction hearing: 3-year data from a multicenter, randomized, controlled, clinical investigation, Otol. Neurotol. 35 (8) (2014 Sep) 1486–1491. 27. I.J. Kruyt, K.H.E. Bakkum, C.J.I. Caspers, M.K.S. Hol, The efficacy of bone- anchored hearing implant surgery in children: a systematic review, Int. J. Pediatr. Otorhinolaryngol. 132 (2020 May) 109906. 28. J.J. Wazen, S. Babu, J. Daugherty, A. Metrailer, Three-week loading of the 4.5mm wide titanium implant in bone anchored hearing systems, Am. J. Otolaryngol. 37 (2) (2016 Mar-Apr) 132–135. 29. R.C. Nelissen, C.A. den Besten, H.T. Faber, C.A. Dun, E.A. Mylanus, M.K. Hol, Loading of osseointegrated implants for bone conduction hearing at 3 weeks: 3- year stability, survival, and tolerability, Eur. Arch. Oto-Rhino-Laryngol. 273 (7) (2016) 1731–1737. 30. C.M. McLarnon, I. Johnson, T. Davison, et al., Evidence for early loading of osseointegrated implants for bone conduction at 4 weeks, Otol. Neurotol. 33 (9) (2012) 1578–1582. 31. C. McLarnon, I. Johnson, T. Davison, et al., Resonance frequency analysis of osseo- integrated implants for bone conduction in a pediatric population - a novel approach for assessing stability for early loading, Int. J. Pediatr. Otorhinolaryngol. 78 (4) (2014) 641–644.

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