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Malunion following Bi-Plane Chevron Medial Malleolar Osteotomy: The Influence of Fixation Patrick E. Bull, D.O. Gregory C. Berlet, M.D. Cameron Canini, BSc Alex Renshaw, D.O. Christopher F. Hyer, D.P.M., M.S.
Columbus, Ohio orthofootankle.com
Malunion following Bi-Plane Chevron Medial Malleolar Osteotomy: The
Influence of Fixation
Patrick Bull, D.O.
Our disclosures are in the Final AOFAS Mobile App. There is no potential conflict with this presentation
Statement of Purpose • A medial malleolar osteotomy is primarily performed for
exposure and treatment of talar osteochondral lesions and talar body fractures.
• Several osteotomy techniques are described in the literature including transverse, oblique, step-cut, crescentic, inverted “V” (chevron), inverted “U”, and bi-plane chevron.1-14
• The challenge with medial malleolar osteotomy is to select an appropriate osteotomy orientation that provides adequate exposure of the talus while providing inherent stability to limit the risk of malunion or nonunion.
Columbus, Ohio orthofootankle.com
Statement of Purpose • We recently published our
technique for the medial malleolar Bi-plane Chevron osteotomy.8
• We prefer this technique for it provides excellent medial talar exposure, and is exceptionally versatile
• The present study seeks to describe our experience with the osteotomy technique using a large patient cohort
Columbus, Ohio orthofootankle.com
Inclusion Criteria • All patients treated at our institution with a bi-plane medial
malleolar Chevron osteotomy between Jan. 2003 and Dec 2013 with a minimum of 6 months f/u were eligible
• Patients younger than 18 years and patients with a history of previous tumor / infection were excluded.
• Patients with a history of medial malleolar fracture or osteotomy were also excluded Columbus, Ohio
orthofootankle.com
Patient Demographics • 50 patients met the inclusion criteria
– 46/50 patients had 2 lag screws for osteotomy fixation
– 4 patients had 2 lag screws and a buttress plate
• Demographic data collected:
– Age, sex, BMI, diabetes, nicotine use – Prior surgeries, concomitant surgeries – Screw and osteotomy angle,
osteotomy size – Screw diameter, length, starting point
Osteotomy Displacement and Healing Data
Columbus, Ohio orthofootankle.com
Union was defined as presence of continuous trabeculation across the osteotomy site on each of the three radiographic views10
Osteotomy Displacement Data • 38% of initial post-op radiographs
demonstrated osteotomy displacement
• 30% of osteotomies had measurable malunion on final post-operative radiographs
• Initial osteotomy displacement averaged 1.3mm proximal and 1.2mm medial
• Final follow-up osteotomy displacement averaged 1.8mm proximal and 1.2mm medial
Columbus, Ohio orthofootankle.com
Fixation Construct Data
Average osteotomy angle was 36.1 degrees
Average osteotomy size (as a % of plafond width) was 34.6%*
Average screw angle was 33.9 degrees
*Measured from the medial malleolar shoulder to the lateral tibial plafond, and from the medial malleolar shoulder to the osteotomy site. The second measurement was divided by the first, and multiplied by 100 to get a percentage of the plafond included in the osteotomy.
Complications • 3 patients (6%) had a post-
operative infection
• 15 patients (30%) required hardware removal
• 3 (6%) osteotomies remained unhealed on final post-op radiographs
Conclusions
• Standard medial malleolar screw fixation of the bi-plane Chevron osteotomy is associated with an unacceptably high rate of post-operative displacement and malunion.
• The addition of a distal medial tibial buttress plate to the osteotomy fixation construct should be considered. This practice has been adopted at our institution. Columbus, Ohio
orthofootankle.com
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Malleolus Osteotomy. Foot & Ankle Specialist. 2013;6:12-14. 9. Cohen B, Anderson R. Chevron-type transmalleolar osteotomy: an approach to medial talar dome lesions. Tech Foot Ankle Surg.
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quantitative T2-mapping MRI analysis. Knee Surg Sports Traumatol Arthrosc. 2013;21:1283-1288. 11. Navid DO, Myerson MS. Approach alternatives for treatment of osteochodral lesions of the talus. Foot & Ankle Clinics.
2002;7:635-649. 12. Thordarson DB, Kaku SK.Results of step-cut medial malleolar osteotomy. Foot and Ankle Int. 2006;27:1020-1023. 13. Lee KB, Yang HK, Moon ES, Song EK. Modified Step-Cut Medial Malleolar Osteotomy for Osteochondral Grafting of the Talus.
Foot and Ankle Int. 2008;29:1107-1110. 14. Van Bergen CJA, Tuijthof GJM, Sierevelt IN, van Dijk CN. Direction of the oblique medial malleolar osteotomy for exposure of the
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