Today: Dec 27, 2024
RU / EN
Last update: Dec 27, 2024
Reconstruction of Fingers Using Skin-Bone Grafts with Microvascular Anastomoses

Reconstruction of Fingers Using Skin-Bone Grafts with Microvascular Anastomoses

Aleksandrov N.M., Petrov S.V., Kuptsov D.A., Petrov M.S.
Key words: stumps of fingers; segmental defects of the phalanges; metacarpal defects; microsurgery; transplantation of skin-bone grafts; transplantation of non-free skin-fat flaps.
2020, volume 12, issue 1, page 16.

Full text

html pdf
2686
1759

The aim of the study was to present a clinical and anatomical rationale for transplantation of skin-bone grafts with microvascular anastomoses for treating terminal and segmental defects of the hand and fingers.

Materials and Methods. Finger and metacarpal bones were reconstructed in 25 hands of 25 patients by transplanting skin-bone tubular fragments with microvascular anastomoses. Transplants from the second metatarsal bone (n=22) and fibula (n=3) were used. Clinical, radiological, morphological, biomechanical, biophysical, and statistical research methods were used. The developed technology is adjustable to individual vascular anatomy of the foot. The proposed use of non-free skin-fat flaps and skin-bone fragments with microvascular anastomoses has been implemented for reconstructing lost segments.

Results. The engraftment of skin-bone fragments was observed in 25 cases. In two cases, partial necrosis of the transplants was detected. Sufficient resistance of the transplanted bone graft to resorption was noted. According to the X-ray evidence, the length of the finger with the metacarpal bone after surgery was 8.44±0.32 cm, in the short term after surgery — 8.10±0.36 cm, and in the long term — 7.87±0.45 cm, indicating mild resorption. We used an individual approach to the transplant selection, which made it possible to obtain generally good long-term results in 3 patients, and satisfactory results — in 22 patients.

Conclusion. The study showed the feasibility of transplanting skin-bone fragments with microvascular anastomoses for replacing various anatomical defects of the hand and fingers. The proposed modification takes into account the variability of vascular anatomy of the donor region.

  1. Borovikov A.M. Mikrokhirurgicheskaya autotransplantatsiya v lechenii povrezhdeniy verkhney konechnosti. Avtoref. dis. … dokt. med. nauk [Microsurgical autotransplantation in the treatment of injuries of the upper limb. DSc Thesis]. Moscow; 1991.
  2. Akchurin R.S., Shibaev E.Yu., Shiryaev A.A., Brand Ya.B. Osteocutaneous reconstruction of a hand finger using the microsurgical technique. Ortopediya i travmatologiya 1983; 9: 53–54.
  3. Huang D., Wang H.G., Wu W.Z., Zhang H.R., Lin H. Functional and aesthetic results of immediate reconstruction of traumatic thumb defects by toe-to-thumb transplantation. Int Orthop 2011; 35(4): 543–547, https://doi.org/10.1007/s00264-010-1044-2.
  4. Li X., Cui J., Maharjan S., Yu X., Lu L., Gong X. Neo-digit functional reconstruction of mutilating hand injury using transplantation of multiplecomposite tissue flaps. Medicine 2016; 95(27): e4179, https://doi.org/10.1097/md.0000000000004179.
  5. Yajima H., Tamai S., Yamauchi T., Mizumoto S. Osteocutaneous radial forearm flap for hand reconstruction. J Hand Surg Am 1999; 24(3): 594–603, https://doi.org/10.1053/jhsu.1999.0594.
  6. Datiashvili P.O., Shibaev E.Yu., Chichkin V.G., Oganesyan A.R. Plastic surgery of combined skin and bone defects of the hand. Khirurgiya 1992; 7–8: 39–45.
  7. Pshenisnov K.P., Minachenko V.K. Application of island flaps and blood-supplied grafts in reconstructive microsurgery of hand and finger injuries. Klinicheskaya khirurgiya 1991; 10: 49–52.
  8. Datiashvili R.O., Shibaev E.Yu., Chichkin V.G., Oganesian A.R. Reconstruction of a complex defect of the hand with two distinct segments of the scapula and a scapular fascial flap transferred as a single transplant. Plast Reconstr Surg 1992; 90(4): 687–694, https://doi.org/10.1097/00006534-199210000-00023.
  9. Segu S.S., Athavale S.N., Manjunath P. Osteoplastic reconstruction for post traumatic thumb amputations around metacarpophalangeal joint. J Clin Diagn Res 2015; 9(8): 11–13, https://doi.org/10.7860/jcdr/2015/14334.6404.
  10. Aleksandrov N.M. Rekonstruktivnye operatsii pri travmaticheskikh defektakh pal’tsev, kisti i adaptivnaya kompensatsiya ee narushennykh funktsiy. Avtoref. dis. … dokt. med. nauk [Reconstructive operations in traumatic defects of the fingers and hand, and adaptive compensation of the hand impaired functions. DSc Thesis]. Nizhny Novgorod; 2007.
  11. Aleksandrov N.M., Bashkalina E.V., Kiselev D.V., Uglev O.I. Method for thumb reconstruction in total defects of radial border of hand. Patent RU 2534851. 2014.
  12. Belousov A.E., Gubochkin N.G. On complex assessment of the results of emergency microsurgical operations in limb traumas. Vestnik hirurgii im. I.I. Grekova 1984; 3: 110–113.
  13. Rodomanova L.A., Polkin A.G. Reconstructive microsurgery of upper extremity. Travmatologiya i ortopediya Rossii 2006; 4(42): 15–19.
  14. Belousov A.E., Gubochkin N.G., Borisov S.A. Closure of donor defects in free toes-to hand transplantation. Ortopediya, travmatologiya i protezirovanie 1985; 7: 53–55.
  15. Petrov S.V., Mitrofanov N.V., Aleksandrov N.M., Smirnov G.V., Rukina N.N., Baldova S.N. Structural and functional changes of the feet after implant harvesting for the reconstruction of the mutilated hand. Travmatologiya i ortopediya Rossii 1996; 1: 25–32.
  16. Alexandrov N.М., Petrov S.V., Bashkalina E.V., Kiselev D.V., Petrov M.S. Key principles of staged combined reconstruction of fingers. Sovremennye tehnologii v medicine 2013; 5(1): 97–103.
  17. Petrov S.V., Aleksandrov N.M. Method for carrying out plastic reconstruction of ulnar end of a hand with II–V metacarpal bone stumps. Patent RU 2061425. 1996.
Aleksandrov N.M., Petrov S.V., Kuptsov D.A., Petrov M.S. Reconstruction of Fingers Using Skin-Bone Grafts with Microvascular Anastomoses. Sovremennye tehnologii v medicine 2020; 12(1): 16, https://doi.org/10.17691/stm2020.12.1.02


Journal in Databases

pubmed_logo.jpg

web_of_science.jpg

scopus.jpg

crossref.jpg

ebsco.jpg

embase.jpg

ulrich.jpg

cyberleninka.jpg

e-library.jpg

lan.jpg

ajd.jpg

SCImago Journal & Country Rank