Differential contribution of lateral plantar foot ligaments to lateral column stability – A cadaver based sectioning analysis

Lateral column (LC) instability occurs in adult acquired flatfoot deformity (AAFD). Differential ligament contribution to LC stability is unknown. The primary aim was to quantify this by using cadaver sectioning of lateral plantar ligaments. We also determined the relative contribution of each ligam...

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Veröffentlicht in:Foot (Edinburgh, Scotland) Scotland), 2023-09, Vol.56, p.102003-102003, Article 102003
Hauptverfasser: Austin, Isabel S., Norrish, Alan, Lloyd, Richard, Brassett, Cecilia, Pasapula, Chandra
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Sprache:eng
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Zusammenfassung:Lateral column (LC) instability occurs in adult acquired flatfoot deformity (AAFD). Differential ligament contribution to LC stability is unknown. The primary aim was to quantify this by using cadaver sectioning of lateral plantar ligaments. We also determined the relative contribution of each ligament to dorsal translation of the metatarsal head in the sagittal plane. 17 below-knee cadaveric specimens, preserved by vascular embalming method, were dissected to expose plantar fascia, long/short plantar ligaments (L/SPL), calcaneocuboid (CC) capsule and inferior 4th/5th tarsometatarsal (TMT) capsule. Dorsal forces of 0 N, 20 N and 40 N were applied to the plantar 5th metatarsal head after sequential ligament sectioning in different orders. Pins provided linear axes on each bone, allowing relative angular bone displacements to be calculated. Photography and ImageJ processing software were then used for analysis. The LPL (and CC capsule) had the greatest contribution to metatarsal head motion (107 mm) after isolated sectioning. In the absence of other ligaments, sectioning these resulted in significantly increased hindfoot-forefoot angulation (p ≤ 0.0003). Isolated TMT capsule sectioning demonstrated significant angular displacement even when other ligaments remained intact (with intact L/SPL, p = 0.0005). CC joint instability required both LPL and capsular sectioning for significant angulation to occur, whilst TMT joint stability was largely dependent on its capsule. The relative contribution of static restraints to the lateral arch has not yet been quantified. This study provides useful information on relative ligament contribution to both CC and TMT joint stability, which may in turn improve understanding of surgical interventions used to restore arch stability. •The principal action of the Long and short plantar ligaments was at the calcaneocuboid joint.•Tarsometatarsal motion is primarily a function of the capsule.•Calcaneocuboid ligament instability had a greater effect on dorsal metatarsal head translation than tarsometatarsal joint instability.•This differentiation may be important surgically.•Lateral column procedures that address/support the talonavicular joint may not impact on instability at the tarsometatarsal joints and therefore lateral column stability/height.
ISSN:0958-2592
1532-2963
DOI:10.1016/j.foot.2023.102003