Clinical Results of Percutaneous Fixation of Pelvic and Acetabular Fractures: A Minimally Invasive Internal Fixation Technique

Document Type : RESEARCH PAPER

Authors

1 Akhtar hospital, Shahid Beheshti University of Medical Sciences, Tehran, Iran

2 Medical Researcher, Bone Joint and Related Tissues Research Center, Shahid Beheshti University of Medical Sciences, Tehran, Iran

Abstract

Background: The pelvic ring fractures (PRF) and acetabular fractures (AF) are among the major orthopedic injuries
associated with high rates of morbidity and mortality. Open surgical stabilization is the standard treatment for the
majority of these complications. Percutaneous minimally invasive surgical stabilization of the fractures has become an
accepted treatment method for the past several years. This study investigated the outcomes of percutaneous fixation
of pelvic and acetabular fractures.
Methods: Totally, 143 patients with PRF or AF of whom 95 cases were males underwent percutaneous fixation between
February 2015 and September 2016. All the operations were performed by a single surgeon in a supine position and
under C-arm fluoroscopy visualization. The patients were followed up for one year.
Results: All the fractures healed in all of the patients within the first postoperative three months. The patients could
bear weight completely on both lower limbs. Out of 143 patients, 133 cases could get back to their preoperative work
(93%). The mean amount of intraoperative blood loss was 29±19 cc. Of the total patients, seven cases required oral
analgesics because of moderate pain (4.9%). The means of operation time and length of incision were 32±8 min and
3.2±2.4 cm, respectively. There was one screw back out and one deep infection. No neurovascular injury was reported
in this study.
Conclusion: Closed reduction and percutaneous minimally invasive screw fixation for a pelvic ring or acetabular
fractures is a useful surgical treatment option with low complication rates.
Level of evidence: IV

Keywords

Main Subjects

References

1. Zhao JX, Zhang LC, Su XY, Zhao Z, Zhao YP, Sun GF, et
al. Early experience with reduction of unstable pelvic
fracture using a computer-aided reduction frame.
Biomed Res Int. 2018; 2018(1):7297635.
2. Yoshihara H, Yoneoka D. Demographic epidemiology
of unstable pelvic fracture in the United States from
2000 to 2009: trends and in-hospital mortality. J
Trauma Acute Care Surg. 2014; 76(2):380-5.
3. Grubor P, Krupic F, Biscevic M, Grubor M.
Controversies in treatment of acetabular fracture.
Med Arch. 2015; 69(1):16-20.
4. Vallier HA, Cureton BA, Ekstein C, Oldenburg FP,
Wilber JH. Early definitive stabilization of unstable
pelvis and acetabulum fractures reduces morbidity. J
Trauma. 2010; 69(3):677-84.
5. Schweitzer D, Zylberberg A, Cordova M, Gonzalea J.
Closed reduction and iliosacral percutaneous fixation
of unstable pelvic ring fractures. Injury. 2008;
39(8):869‐74.
6. Boudissa M, Francony F, Kerschbaumera G, Ruattia
S, Milairea M, Merloza P, et al. Epidemiology and
treatment of acetabular fractures in a level-1 trauma
centre: retrospective study of 414 patients over 10
years. Orthop Traumatol Surg Res. 2017; 103(3):335-9.
7. Elzohairy MM, Salama AM. Open reduction internal
fixation versus percutaneous iliosacral screw fixation
for unstable posterior pelvic ring disruptions. Orthop
Traumatol Surg Res. 2017; 103(2):223-7.
8. Neal B, Gray H, MacMahon S, MacMahon S, Dunn L.
Incidence of heterotopic bone formation after major
hip surgery. ANZ J Surg. 2002; 72(11):808-21.
9. Routt MC, Meier MC, Kregor PJ, Mayo KA. Percutaneous
iliosacral screws with the patient supine technique.
Oper Tech Orthop. 1993; 3(1):35-45.
10. Lin YC, Chen CH, Huang HT, Chen JC, Huang PJ,
Hung SH, et al. Percutaneous antegrade screwing
for anterior column fracture of acetabulum with
fluoroscopic-based computerized navigation. Arch
Orthop Trauma Surg. 2008; 128(2):223-6.
11. Mullis BH, Sagi HC. Minimum 1-year follow-up
for patients with vertical shear sacroiliac joint
dislocations treated with iliosacral screws: does
joint ankylosis or anatomic reduction contribute
to functional outcome? J Orthop Trauma. 2008;
22(5):293-8.
12. Caviglia H, Mejail A, Landro ME, Vatani N.
Percutaneous fixation of acetabular fractures. EFORT
Open Rev. 2018; 3(5):326-34.
13. Chui KH, Chan CCD, Ip KC, Lee KB, Li W. Threedimensional
navigation-guided percutaneous screw
fixation for nondisplaced and displaced pelviacetabular
fractures in a major trauma centre. Int
Orthop. 2018; 42(6):1387-95.
14. Eckardt H, Egger A, Hasler RM, Zech CJ, Vach W,
Suhm N, et al. Good functional outcome in patients
suffering fragility fractures of the pelvis treated with
percutaneous screw stabilisation: assessment of
complications and factors influencing failure. Injury.
2017; 48(12):2717-23.
15. Karabila MA, Hmouri I, Madani T, Mhamdi Y, Azouz M,
Kharmaz M, et al. Surgical management of sacroiliac
joint lesions in unstable pelvic ring fractures using
percutaneous iliosacral screw fixation. Pan Afr Med
J. 2016; 24(1):168.
16. Krishnan BH, Sharma Y, Magdum G. A retrospective
analysis of percutaneous SI joint fixation in unstable
pelvic fractures: Our experience in armed forces. Med
J Armed Forces India. 2016; 72(3):231-5.
17. Tempelaere C, Vincent C, Court C. Percutaneous
posterior fixation for unstable pelvic ring fractures.
Orthop Traumatol Surg Res. 2017; 103(8):1169-71.
18. Green DP, Buchholz RW, Heckmann JD. Fractures in
adults. 6th ed. Philadelphia: Lippincott Williams &
Wilkins; 2006.
19. Mouhsine E, Garofalo R, Borens O, Wettstein M,
Blanc CH, Fischer JF, et al. Percutaneous retrograde
screwing for stabilisation of acetabular fractures.
Injury. 2005; 36(11):1330-6.
20. Cole JD, Blum DA, Ansel LJ. Outcome after fixation of
unstable posterior pelvic ring injuries. Clin Orthop
Relat Res. 1996; 329(1):160‐79.
21. Keating JF, Werier J, Blachut P, Broekhuyse H,
Meek RN, O’Brien PJ. Early fixation of the vertically
unstable pelvis: the role of iliosacral screw fixation
of the posterior lesion. J Orthop Trauma. 1999;
13(2):107‐13.
22. Routt ML Jr, Nork SE, Mills WJ. Percutaneous fixation
of pelvic ring disruptions. Clin Orthop Relat Res.
2000; 375(1):15‐29.
23. Fang C, Alabdulrahman H, Pape HC. Complications
after percutaneous internal fixator for anterior pelvic
ring injuries. Int Orthop. 2017; 41(9):1785-90.
24. Papakostidis C, Kanakaris NK, Kontakis G, Giannoudis
PV. Pelvic ringdisruptions: treatment modalities and
analysis of outcomes. Int Orthop. 2009; 33(2):329-38.
25. Oh CW, Kim PT, Kim JW, Min WK, Kyuung HS, Kim SY,
et al. Anterior plating and percutaneous iliosacral
screwing in an unstable pelvic ring injury. J Orthop
Sci. 2008; 13(2):107‐15.
26. Collinge C, Coons D, Tornetta P, Aschenbrenner
J. Standard multiplanar fluoroscopy versus a
fluoroscopically based navigation system for the
percutaneous insertion of iliosacral screws: a cadaver
model. J Orthop Trauma. 2005; 19(4):254‐8.
27. Lee CH, Hsu CC, Huang PY. Biomechanical study of
different fixation techniques for the treatment of
sacroiliac joint injuries using finite element analyses
and biomechanical tests. Comput Biol Med. 2017;
87(1):250-7.
The Archives of Bone and Joint Surgery
Volume 7, Issue 3
May 2019
Pages 284-290

Files

History

  • Receive Date: 27 October 2018
  • Revise Date: 20 November 2018
  • Accept Date: 04 December 2018

Share

How to cite

Statistics