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Clinical outcomes of absorbable plates (hydroxyapatite-poly-l-lactide composites) for phalangeal fractures – case reports


Authors: I. Nagura 1;  T. Kanatani 2;  A. Inui 3;  Y. Mifune 3;  R. Kuroda 3;  S. Lucchina 4,5
Authors place of work: Department of Orthopedic Surgery, Ako City Hospital, Ako, Japan 1;  Department of Orthopedic Surgery, Kobe Rosai Hospital, Kobe, Japan 2;  Department of Orthopedic Surgery, Kobe University Graduate School of Medicine, Kobe, Japan 3;  Locarno Hand Center, Locarno, Switzerland 4;  Hand Unit EOC, Locarno’s Regional Hospital, Locarno, Switzerland 5
Published in the journal: ACTA CHIRURGIAE PLASTICAE, 65, 1, 2023, pp. 37-40
doi: https://doi.org/10.48095/ccachp202337


Zdroje

1. Freeland AE., Geissler WB., Weiss AP. Surgical treatment of common displaced an unstable fractures of the hand. Instr Course Lect. 2002, 51: 185–201.

2. Bruser P., Krein R., Larkin G. Fixation of metacarpal fractures using absorbable hemi-cerclage sutures. J Hand Surg Br. 1999, 24(6): 683–687.

3. Larkin G., Bruser P., Safi A. Possibilities and limits of intramedullary Kirschner wire osteosynthesis in treatment of metacarpal fractures. Handchir Mikrochir Plast Chir. 1997, 29(4): 192–196.

4. Kumta SM., Spinner R., Leung PC. Absorbable intramedullary implants for hand fractures. Animal experiments and clinical trial. J Bone Joint Surg Br. 1992, 74(4): 563–566.

5. Sakai A., Oshige T., Zenke Y., et al. Mechanical comparison of novel bioabsorbable plates with titanium plate and small-series clinical comparisons for metacarpal fractures. J Bone Joint Surg Am. 2012, 94(17): 1597–1604.

6. Shikinami Y., Matsusue Y., Nakamura T. The complete process of bioresorption and bone replacement using devices made of forged composites of raw hydroxyapatite particles/poly l-lactide(F-μHA/PLLA). Biomaterials. 2005, 26(27): 5542–5551.

7. Singh V., Kshirsagar R., Halli R., et al. Exvaluation of bioresorable plates in condylar fracture fixation: a case series. Int J Oral Maxillofac Surg. 2013, 42(12): 1503–1505.

8. Kamata M., Sakamoto Y., Kishi K. Foreign-boy reaction to bioabsorbable plate and screw in craniofacial surgery. J Craniofac Surgery. 2019, 30(1): e34–e36.

9. Osawa S., Hashikawa K., Naruse H., et al. Clinical evaluation of unsintered hydroxyapatite particles/poly L-lactide composite device in craniofacial surgery. J Craniofac Surg. 2021, 32(6): 2148–2151.

10. Ito T., Kudo M., Yozu R. Usefulness of osteosynthesis device made of hydroxyapatite-poly-L-lactide composites in port-access cardiac surgery. Ann Thorac Surg. 2008, 86(6): 1905–1908.

11. Ueki K., Miyazaki M., Okabe K., et al. Assessment of bone healing after Le Fort I osteotomy with 3-dimensional computed tomography. J Craniomaxillofac Surg. 2011, 39(4): 237–243.

12. Shikinami Y., Okuno M. Bioresorbable devices made of forged composites of hydroxyapatite (HA) particles and poly-L-lactide (PLLA): part I. Basic characteristics. Biomaterials. 1999, 20(9): 859–877.

13. Jupiter JB., Koniuch MP., Smith RJ. The man­agement of delayed union and nonunion of the metacarpals and phalanges. J Hand Surg Am. 1985, 10(4): 457–466.

14. Patankar H, Patwardhan D. Nonunion in a fracture of the proximal phalanx of the thumb. J Orthop Trauma. 2000, 14(3): 219–222.

15. Kosugi K., Zenke Y., Tajima T., et al. Long-term outcomes of metacarpal fractures surgically treat­­ed using bioabsorbable plates: a retrospective study. BMC Musculoskelt Disord. 2020, 21(1): 817.

Štítky
Plastic surgery Orthopaedics Burns medicine Traumatology

Článok vyšiel v časopise

Acta chirurgiae plasticae

Číslo 1

2023 Číslo 1
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