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early fixation and flap coverage. J Bone Joint Surg Br 2004;86:861-7. DOI PubMed
52. Berman SS, Schilling JD, Mcintyre KE, Hunter GC, Bernhard VM. Shoelace technique for delayed primary closure of fasciotomies.
The American Journal of Surgery 1994;167:435-6. DOI PubMed
53. DeFranzo AJ, Argenta LC, Marks MW, et al. The use of vacuum-assisted closure therapy for the treatment of lower-extremity
wounds with exposed bone. Plast Reconstr Surg 2001;108:1184-91. DOI PubMed
54. Dodenhoff R, Howell G. The shoelace technique for wound closure in open fractures: report of early experience. Injury 1997;28:593-
5. DOI PubMed
55. Erba P, Ogawa R, Vyas R, Orgill DP. The reconstructive matrix: a new paradigm in reconstructive plastic surgery. Plast Reconstr
Surg 2010;126:492-8. DOI PubMed
56. Gupta S, Gabriel A, Lantis J, Téot L. Clinical recommendations and practical guide for negative pressure wound therapy with
instillation. Int Wound J 2016;13:159-74. DOI PubMed PMC
57. Kim PJ, Attinger CE. Negative-pressure wound therapy with instillation: a tool in the multidisciplinary approach to limb function
preservation. Plast Reconstr Surg 2021;147:27S-33S. DOI PubMed
58. Kim PJ, Attinger CE, Constantine T, et al. Negative pressure wound therapy with instillation: International consensus guidelines
update. Int Wound J 2020;17:174-86. DOI PubMed PMC
59. Manista GC, Dennis A, Kaminsky M. Surgical management of compartment syndrome and the gradual closure of a fasciotomy
wound using a DermaClose device. Trauma Case Rep 2018;14:1-4. DOI PubMed PMC
60. Zorrilla P, Marín A, Gómez LA, Salido JA. Shoelace technique for gradual closure of fasciotomy wounds. J Trauma 2005;59:1515-7.
DOI PubMed
61. Robert N. Negative pressure wound therapy in orthopaedic surgery. Orthop Traumatol Surg Res 2017;103:S99-S103. DOI PubMed
62. Gage MJ, Yoon RS, Egol KA, Liporace FA. Uses of negative pressure wound therapy in orthopedic trauma. Orthop Clin North Am
2015;46:227-34. DOI PubMed
63. Kanakaris NK, Thanasas C, Keramaris N, Kontakis G, Granick MS, Giannoudis PV. The efficacy of negative pressure wound therapy
in the management of lower extremity trauma: review of clinical evidence. Injury 2007;38 Suppl 5:S9-18. DOI PubMed
64. Birke-Sorensen H, Malmsjo M, Rome P, et al; International Expert Panel on Negative Pressure Wound Therapy [NPWT-EP].
Evidence-based recommendations for negative pressure wound therapy: treatment variables (pressure levels, wound filler and contact
layer)--steps towards an international consensus. J Plast Reconstr Aesthet Surg 2011;64 Suppl:S1-16. DOI
65. Weed T, Ratliff C, Drake DB. Quantifying bacterial bioburden during negative pressure wound therapy: does the wound VAC
enhance bacterial clearance? Ann Plast Surg 2004;52:276-9; discussion 279. DOI PubMed
66. Diehm YF, Fischer S, Wirth GA, et al. Management of acute and traumatic wounds with negative-pressure wound therapy with
instillation and dwell time. Plast Reconstr Surg 2021;147:43S-53S. DOI PubMed
67. Kim PJ, Attinger CE, Steinberg JS, et al. The impact of negative-pressure wound therapy with instillation compared with standard
negative-pressure wound therapy: a retrospective, historical, cohort, controlled study. Plast Reconstr Surg 2014;133:709-16. DOI
PubMed
68. Kim PJ, Lavery LA, Galiano RD, et al. The impact of negative-pressure wound therapy with instillation on wounds requiring
operative debridement: Pilot randomised, controlled trial. Int Wound J 2020;17:1194-208. DOI PubMed PMC
69. Henning JA, Liette MD, Laklouk M, Fadel M, Masadeh S. The role of dermal regenerative templates in complex lower extremity
wounds. Clin Podiatr Med Surg 2020;37:803-20. DOI PubMed
70. Hedström SA, Lidgren L, Törholm C, Onnerfält R. Antibiotic containing bone cement beads in the treatment of deep muscle and
skeletal infections. Acta Orthop Scand 1980;51:863-9. DOI PubMed
71. Ostermann PA, Seligson D, Henry SL. Local antibiotic therapy for severe open fractures. A review of 1085 consecutive cases. J Bone
Joint Surg Br 1995;77(1):93-7. PubMed
72. Patzakis MJ, Wilkins J. Factors influencing infection rate in open fracture wounds. Clin Orthop Relat Res ;1989(243):36-40.
PubMed
73. Patzakis MJ, Zalavras CG. Chronic posttraumatic osteomyelitis and infected nonunion of the tibia: current management concepts. J
Am Acad Orthop Surg 2005;13:417-27. DOI PubMed
74. Howlin RP, Brayford MJ, Webb JS, Cooper JJ, Aiken SS, Stoodley P. Antibiotic-loaded synthetic calcium sulfate beads for
prevention of bacterial colonization and biofilm formation in periprosthetic infections. Antimicrob Agents Chemother 2015;59:111-
20. DOI PubMed PMC
75. Pipitone PS, Rehman S. Management of traumatic bone loss in the lower extremity. Orthop Clin North Am 2014;45:469-82. DOI
PubMed
76. Allsopp BJ, Hunter-Smith DJ, Rozen WM. Vascularized versus Nonvascularized Bone Grafts: What Is the Evidence? Clin Orthop
Relat Res 2016;474:1319-27. DOI PubMed PMC
77. Aronson J. Limb-lengthening, skeletal reconstruction, and bone transport with the Ilizarov method. J Bone Joint Surg Am
1997;79:1243-58. DOI PubMed
78. Sala F, Elbatrawy Y, Thabet AM, Zayed M, Capitani D. Taylor spatial frame fixation in patients with multiple traumatic injuries:
study of 57 long-bone fractures. J Orthop Trauma 2013;27:442-50. DOI PubMed
79. Colen DL, Kania KE, Othman S, et al. The medial femoral condyle flap in the pediatric patient. Plast Reconstr Surg 2021;147:613e-
22e. DOI PubMed

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