BACKGROUND: The application of aesthetic, craniofacial, and microsurgical principles in the execution of face transplantation may improve outcomes. Optimal soft-tissue face transplantation can be achieved by incorporating subunit facial skeletal replacement and subsequent tissue resuspension. The purpose of this study was to establish a reconstructive solution for a full face and scalp burn and to evaluate outcome precision and consistency. METHODS: Seven mock face transplants (14 cadavers) were completed in the span of 1 year. Components of the vascularized composite allograft included the eyelids, nose, lips, facial muscles, oral mucosa, total scalp, and ears; and skeletal subunits of the zygoma, nasal bone, and genial segment. Virtual surgical planning was used for osteotomy selection, and to evaluate postoperative precision of hard- and soft-tissue elements. RESULTS: Each transplant experience decreased each subsequent transplant surgical time. Prefabricated cutting guides facilitated a faster dissection of both donor and recipient tissue, requiring minimal alteration to the allograft for proper fixation of bony segments during inset. Regardless of donor-to-recipient size discrepancy, ample soft tissue was available to achieve tension-free allograft inset. Differences between virtual transplant simulation and posttransplant measurements were minimal or insignificant, supporting replicable and precise outcomes. CONCLUSIONS: This facial transplant model was designed to optimize reconstruction of extensive soft-tissue defects of the craniofacial region representative of electrical, thermal, and chemical burns, by incorporating skeletal subunits within the allograft. The implementation of aesthetic, craniofacial, and microsurgical principles and computer-assisted technology improves surgical precision, decreases operative time, and may optimize function.
BACKGROUND: The application of aesthetic, craniofacial, and microsurgical principles in the execution of face transplantation may improve outcomes. Optimal soft-tissue face transplantation can be achieved by incorporating subunit facial skeletal replacement and subsequent tissue resuspension. The purpose of this study was to establish a reconstructive solution for a full face and scalp burn and to evaluate outcome precision and consistency. METHODS: Seven mock face transplants (14 cadavers) were completed in the span of 1 year. Components of the vascularized composite allograft included the eyelids, nose, lips, facial muscles, oral mucosa, total scalp, and ears; and skeletal subunits of the zygoma, nasal bone, and genial segment. Virtual surgical planning was used for osteotomy selection, and to evaluate postoperative precision of hard- and soft-tissue elements. RESULTS: Each transplant experience decreased each subsequent transplant surgical time. Prefabricated cutting guides facilitated a faster dissection of both donor and recipient tissue, requiring minimal alteration to the allograft for proper fixation of bony segments during inset. Regardless of donor-to-recipient size discrepancy, ample soft tissue was available to achieve tension-free allograft inset. Differences between virtual transplant simulation and posttransplant measurements were minimal or insignificant, supporting replicable and precise outcomes. CONCLUSIONS: This facial transplant model was designed to optimize reconstruction of extensive soft-tissue defects of the craniofacial region representative of electrical, thermal, and chemical burns, by incorporating skeletal subunits within the allograft. The implementation of aesthetic, craniofacial, and microsurgical principles and computer-assisted technology improves surgical precision, decreases operative time, and may optimize function.
Authors: Allyson R Alfonso; Elie P Ramly; Rami S Kantar; William J Rifkin; J Rodrigo Diaz-Siso; Bruce E Gelb; Joseph S Yeh; Mark F Espina; Sudheer K Jain; Greta L Piper; Eduardo D Rodriguez Journal: Plast Reconstr Surg Glob Open Date: 2020-08-17
Authors: Michael Sosin; Isabel S Robinson; Gustave K Diep; Allyson R Alfonso; Samantha G Maliha; Daniel J Ceradini; Jamie P Levine; David A Staffenberg; Pierre B Saadeh; Eduardo D Rodriguez Journal: Plast Reconstr Surg Glob Open Date: 2020-09-24
Authors: Elie P Ramly; Rami S Kantar; J Rodrigo Diaz-Siso; Allyson R Alfonso; Eduardo D Rodriguez Journal: Plast Reconstr Surg Glob Open Date: 2019-08-19
Authors: Gustave K Diep; Zoe P Berman; Allyson R Alfonso; Elie P Ramly; Daniel Boczar; Jorge Trilles; Ricardo Rodriguez Colon; Bachar F Chaya; Eduardo D Rodriguez Journal: Plast Reconstr Surg Glob Open Date: 2021-05-21
Authors: Simone La Padula; Rosita Pensato; Chiara Pizza; Edoardo Coiante; Giovanni Roccaro; Benedetto Longo; Francesco D'Andrea; Francesco Saverio Wirz; Barbara Hersant; Jean Paul Meningaud Journal: J Clin Med Date: 2022-09-28 Impact factor: 4.964