Mylène Jansen

164 Chapter 8 References 1. Intema F, van Roermund PM, Marijnissen ACA, et al . Tissue structure modification in knee osteoarthritis by use of joint distraction: An open 1-year pilot study. Annals of the Rheumatic Diseases. 2011 Aug 1;70(8):1441–6. 2. Wiegant K, van Roermund PM, Intema F, et al . Sustained clinical and structural benefit after joint distraction in the treatment of severe knee osteoarthritis. Osteoarthritis and Cartilage. 2013 Nov;21(11):1660–7. 3. van der Woude JAD, Wiegant K, van Roermund PM, et al . Five-year follow-up of knee joint distraction: Clinical benefit and cartilaginous tissue repair in an open uncontrolled prospective study. Cartilage. 2017;8(3):263–71. 4. van der Woude JAD, Wiegant K, van Heerwaarden RJ, et al . Knee joint distraction compared with total knee arthroplasty: A randomised controlled trial. The Bone and Joint Journal. 2017;99-B(1):51–8. 5. van der Woude JAD, Wiegant K, van Heerwaarden RJ, et al . Knee joint distraction compared with high tibial osteotomy: A randomized controlled trial. Knee Surgery, Sports Traumatology, Arthroscopy. 2017;25(3):876– 86. 6. Jansen MP, Besselink NJ, van Heerwaarden RJ, et al . Knee joint distraction compared with high tibial osteotomy and total knee arthroplasty: Two-year clinical, radiographic, and biochemical marker outcomes of two randomized controlled trials. Cartilage. 2019 Feb 13;194760351982843. 7. Jansen MP, Maschek S, van Heerwaarden RJ, et al . Knee joint distraction is more efficient in rebuilding cartilage thickness in the more affected compartment than high tibial osteotomy in patients with knee osteoarthritis. Osteoarthritis and Cartilage. 2019 Apr;27(1):S330–1. 8. JansenMP, van der Weiden GS, van Roermund PM, et al . Initial tissue repair predicts long-term clinical success of knee joint distraction as treatment for knee osteoarthritis. Osteoarthritis and Cartilage. 2018;26(12):1604– 8. 9. Jansen MP, Mastbergen SC, van Heerwaarden RJ, et al . Knee joint distraction in regular care for treatment of knee osteoarthritis: A comparison with clinical trial data. PLOS ONE. 2020 Jan 22;15(1):e0227975. 10. Kazmers NH, Fragomen AT, Rozbruch SR. Prevention of pin site infection in external fixation: a review of the literature. Strategies in Trauma and Limb Reconstruction. 2016;11(2):75–85. 11. Lethaby A, Temple J, Santy-Tomlinson J. Pin site care for preventing infections associated with external bone fixators and pins. Cochrane Database of Systematic Reviews. 2013 Dec 3;2013(12). 12. Iobst C, Liu R. A systematic review of incidence of pin track infections associated with external fixation. Journal of Limb Lengthening and Reconstruction. 2016;2(1):6. 13. Antoci V, Ono CM, Antoci V, et al . Pin-tract infection during limb lengthening using external fixation. American journal of orthopedics. 2008;37(9). 14. Mahan J, Seligson D, Henry SL, et al . Factors in pin tract infections. Orthopedics. 1991 Mar 1;14(3):305–8. 15. Jansen MP, Struijk T, Mastbergen SC, et al . User-friendliness of a novel dedicated knee joint distraction device: Experiences from clinical practice. Osteoarthritis and Cartilage. 2020 Apr 1;28:S474. 16. Edwards-Jones V. Essential microbiology for wound care. 1st ed. Oxford University Press; 2016. 17. Malone M, Johani K, Jensen SO, et al . Effect of cadexomer iodine on the microbial load and diversity of chronic non-healing diabetic foot ulcers complicated by biofilm in vivo. Journal of Antimicrobial Chemotherapy. 2017 Jul 1;72(7):2093–101. 18. Kortram K, Bezstarosti H, Metsemakers WJ, et al . Risk factors for infectious complications after open fractures: A systematic review and meta-analysis. International Orthopaedics. 2017 Oct 1;41(10):1965–82. 19. Egol KA, Paksima N, Puopolo S, et al . Treatment of External fixation pins about the wrist. Journal of Bone

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