How is transmetatarsal amputation (TMA) performed?

Updated: Apr 29, 2021
  • Author: Palaniappan Lakshmanan, MBBS, MS, AFRCS, FRCS(Tr&Orth); Chief Editor: Erik D Schraga, MD  more...
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Answer

The first step in a transmetatarsal amputation (TMA) is to make a curved fish-mouth incision just proximal to the infected tissue of the foot (see the image below). The incision runs from the midshaft of the fifth metatarsal laterally to the midshaft of the first metatarsal medially through a midplane axis. Alternatively, a dorsal incision is made transversely, with the residual plantar flap left longer to allow for closure. The residual flap should be slightly longer on the medial side than on the lateral side.

Fish-mouth incision on dorsal surface of foot. Fish-mouth incision on dorsal surface of foot.

The incision is started at the dorsal surface and extended downward to bone. As the incision is deepened, hemostasis is achieved by means of diathermy or vessel ligation and ties. The bony landmarks of the metatarsals are identified and presented by means of a periosteal elevator. The metatarsals are cut with a saw, and the bony ends are rounded with a bone nibbler (see the image below).

Metatarsal heads have been osteotomized. Metatarsal heads have been osteotomized.

Next, the plantar incision is made (see the image below). The assistant applies traction to allow tissue separation at the correct plane. A plantar flap is created. Plantar and dorsal tendons are stripped off their insertions and cut. Copious amounts of irrigant fluid are then used. Pulse lavage is sometimes used for more pressurized irrigation.

Top image shows fish-mouth incision on plantar sur Top image shows fish-mouth incision on plantar surface; bottom image shows final appearance of stump.

Wound closure is the final step. The flaps are approximated with nonabsorbable sutures according to the clinical indication and the surgeon's preference for closure. Final hemostasis is achieved with ligation of superficial vessels.

Standard synthetic braided suture (eg, polyglactin) is used for closure of muscular and subcutaneous layers. Subcuticular skin closure with synthetic nonbraided suture (eg, poliglecaprone) results in low skin tension and good approximation. The ends may be bridged. Skin clips may be used for traumatic cases; this measure allows drainage of any underlying hematoma (if the need arises). A dressing is applied to the stump.

Boffeli and Waverly suggested that in cases where there is a substantial amount of compromised plantar tissue in association with neuropathic ulcers, forefoot gangrene, or infection, the plantar flap incision design can be modified so as to incorporate a medial or lateral plantar artery angiosome-based rotational flap. [14] A lateral plantar artery angiosome flap can be used to treat a plantar medial soft-tissue defect; a medial plantar artery angiosome flap can be used for a plantar lateral defect; and medial and lateral flaps can be combined to cover a central plantar wound defect.

Lumley et al reported good results with the use of free tissue transfers in 28 diabetic patients who had undergone TMAs that were not amenable to primary closure. [15]  They achieved a flap survival rate of 93% (26/28 flaps) and a limb salvage rate of 93% (25/27 limbs).

Holloway et al retrospectively reviewed 27 consecutive patients who underwent an open guillotine TMA without having a viable plantar flap, either  because of extensive tissue loss on initial presentation or because of secondary TMA flap necrosis. [16] After resolution of infection and debridement of nonviable tissue, negative pressure wound therapy (NPWT) was applied to the wound and continued until granulation tissue covered the exposed bone. The wound was then closed either by applying a split-thickness skin graft or by continuing NPWT.


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