Research Article
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Can radiation exposure be reduced in thetreatment of femur fractures with the Intrameduller nail?

Year 2017, Volume: 1 Issue: 1, 20 - 23, 23.04.2017
https://doi.org/10.30565/medalanya.278034

Abstract


Aim: In this study, our
aim is to compare surgery time and radiation exposure for  patients of treated with two different
intramedullar nail distal locking systems; free-hand technique and
electromagnetic navigation system.

Method:
We evaluated 40 patients' femur fractures.  we treated with Intramedullar Nail due to
femur fractures between the dates of February 2012 and February 2013 were
operated on by two different distal locking techniques; Distal Electromagnetic
guided technique(DML+) and Free-hand Technique(DML-). Radiation exposure was measured
by radiationmeter (NAB223) obtained from Civil Defense Directorate.

 

Results:
In group
DML(-) 20 femur fractures were evaluated. Mean flouroscopy time was 33,7± 12,6,
operation time 68.5±7.1 minutes and whole radiation exposure was 461,7±172,7.
In group DML(-) 20 femur fractures were evaluated. Mean flouroscopy time was
29±17,6,operation time 66.25±10.1 minutes and whole radiation exposure was
397,3±241,1.

Concllusion:
In
this study we compared distal locking time, radiation exposure and fluoroscopy
shoot by using two different distal locking techniques in long bone fractures
and found no significant  differences in
both of techniques (p>0.05).

References

  • 1. Asche G. [Results of the treatment of femoral and tibial fractures following interlocking nailing and plate osteosynthesis. A comparative retrospective study]. Zentralbl Chir. Germany; 1989;114(17):1146–54.
  • 2. Oszwald M, Westphal R, Stier R, Gaulke R, Calafi A, Muller CW, et al. Hands-on robotic distal interlocking in intramedullary nail fixation of femoral shaft fractures. Technol Health Care 2010;18(4–5):325–34.
  • 3. Noordeen HH, Sala MJ, Belham GJ. Insertion of distal screws in interlocking intramedullary nails. Injury 1993;24(5):357–8.
  • 4. Hashemi-Nejad A, Garlick N, Goddard NJ. A simple jig to ease the insertion of distal screws in intramedullary locking nails. Injury 1994;25(6):407–8.
  • 5. Uruc V, Ozden R, Dogramaci Y, Kalaci A, Dikmen B, Yildiz OS, et al. The comparison of freehand fluoroscopic guidance and electromagnetic navigation for distal locking of intramedullary implants. Injury 2013;44(6):863–6.
  • 6. Stathopoulos I, Karampinas P, Evangelopoulos DS, Lampropoulou-Adamidou K, Vlamis J. Radiation-free distal locking of intramedullary nails: Evaluation of a new electromagnetic computer-assisted guidance system. Injury 2013;44(6):872–5.
  • 7. Aldemir C, Doğan A, Inci F, Sertkaya O, Duygun F. [Distal locking techniques without fluoroscopy in intramedullar nailing]. Eklem Hastalık Cerrahisi 2014;25(2):64–9.
  • 8. Sancaktutar AA, Söylemez H. The Use of Fluoroscopy and Radiation Protection During Percutaneous Nephrolithotomy. Turk Urol Sem 2011; 2: 325-30 Turkish.
  • 9. Lee YS, Lee HK, Cho JH, Kim HG. Analysis of radiation risk to patients from intra-operative use of the mobile X-ray system (C-arm). J Res Med Sci. 2015 Jan;20(1):7-12.
  • 10. Ehlinger M, Dillman G, Czekaj J, Adam P, Taglang G, Brinkert D et al. Distal targeting device for long Gamma nail®. Monocentric observational study. Orthopaedics & Traumatology: Surgery & Research (2013) 99, 799-804
  • 11. Kim KP, Miller DL, Berrington de Gonzalez A, Balter S, Kleinerman RA, Ostroumova E et al. Occupational radiation doses to operators performing fluoroscopically-guided procedures. Health Phys. 2012;103(1):80-99.
  • 12. Kesavachandran CN, Haamann F, Nienhaus A. Radiation exposure of eyes, thyroid gland and hands in orthopaedic staff: a systematic review. Eur J Med Res. 2012;17(1):28.
  • 13. Winquist R. Locked Femoral Nailing. J Am Acad Orthop Surg. 1993;1(2):95–105.
  • 14. Abdlslam KM, Bonnaire F. Experimental model for a new distal locking aiming device for solid intramedullary tibia nails. Injury 2003;34(5):363–6.
  • 15. Atay T, Aydoğan FC, Kırdemir V, Baykal YB, Aslan A, Baydar ML. Femur Diafiz Kırıklarında Genişleyebilir İntramedüller Çivi Sonuçlarımız. Kocatepe Tıp Dergisi 2008;9(2):9-13.
  • 16. Sanders R, Koval KJ, DiPasquale T, Schmelling G, Stenzler S, Ross E. Exposure of the orthopaedic surgeon to radiation. J Bone Joint Surg Am. 1993 ;75(3):326-30.
  • 17. Tasbas BA, Yagmurlu MF, Bayrakci K, Ucaner A, Heybeli M. Which one is at risk in intraoperative fluoroscopy? Assistant surgeon or orthopaedic surgeon? Arch Orthop Trauma Surg.2003;123(5):242–4
  • 18. Kamarianakis Z, Buliev I, Pallikarakis N. Robust identification and localization of intramedullary nail holes for distal locking using CBCT: A simulation study. Med Eng Phys. 2011;33(4):479–89.
  • 19. Maqungo S, Horn A, Bernstein B, Keel M, Roche S. Distal interlocking screw placement in the femur: free-hand versus electromagnetic assisted technique (sureshot). J Orthop Trauma. 2014;28(12):e281-3.
  • 20. Langfitt MK, Halvorson JJ, Scott AT, Smith BP, Russell GB, Jinnah RH, et al. Distal locking using an electromagnetic field-guided computer-based real-time system for orthopaedic trauma patients. J Orthop Trauma. 2013;27(7):367–72.
  • 21. Anastopoulos G, Ntagiopoulos PG, Chissas D, Loupasis G, Asimakopoulos A, Athanaselis E, et al. Evaluation of the Stryker S2TM IM Nail Distal Targeting Device for reduction of radiation exposure: A case series study. Injury 2008;39(10):1210–5.
  • 22. Suhm N, Messmer P, Zuna I, Jacob LA, Regazzoni P. Fluoroscopic guidance versus surgical navigation for distal locking of intramedullary implants: A prospective, controlled clinical study. Injury 2004;35(6):567–74.
  • 23. Boraiah S, Barker JU, Lorich D. Efficacy of an aiming device for the placement of distal interlocking screws in trochanteric fixation nailing. Arch Orthop Trauma Surg. 2009;129(9):1177–82.

Femur kırıklarının intrameduller çivi ile tedavisinde radyasyon maruziyeti azaltılabilir mi?

Year 2017, Volume: 1 Issue: 1, 20 - 23, 23.04.2017
https://doi.org/10.30565/medalanya.278034

Abstract

Amaç: Bu  çalışmada, serbest el tekniği ve
elektromanyetik navigasyon sistemi ile distal kilitleme yapılan intramedüller
çivi ameliyatı yapılan olguları, cerrahi süresi ve radyasyon maruziyeti
açısından karşılaştırmayı amaçladık.

 

Yöntem:  Şubat 2012-Şubat 2013 arasında femur kırığı
olan  40 hasta değerlendirildi. Distal
manyetik kilitlemeli İntramedüller Çivileme (DMK+) ve  distal serbest el kilitli intramedüller
çivileme (DMK-) tekniği ile operasyon yapıldı. Distal kilitleme sırasında
kullanılan floroskopi süresi, radyasyon maruziyeti ve cerrahi süresi
karşılaştırıldı. Alınan radyasyon dozu; TC sivil savunma müdürlüğünden temin
edilen NAB 223 marka radyasyon ölçer ile ölçüldü.

 

Bulgular: DMK (-) grubunda 20
femur kırığı mevcuttu.  Distal kilitleme
sırasında ortalama skopi süresi33,7± 12,6 idi, ameliyat süresi 68.50±7.1dk idi.
Radyasyon dozu femur kırığı için 461,7±172,7 idi.  DMK (+) grubunda 20 hastada femur kırığı
mevcuttu. Distal kilitleme sırasında ortalama skopi süresi  29±17,6 idi, 
ameliyat süresi 66.25±10.1 dk. İdi. Radyasyon dozu ise 397,3±241,1 idi.

 

Sonuç: Uzun kemik
kırıklarına uygulanan İntramedüller Çivileme tekniklerini karşılaştırdığımız bu
çalışmada distal manyetik kilitlemeli İntramedüller civilerin alınan skopi
sayısı, ameliyat süresi ve kanama miktarını kilitsiz intramedüller çivilere
göre anlamlı şekilde azaltmadığı gözlenmiştir (p>0.05).















 

References

  • 1. Asche G. [Results of the treatment of femoral and tibial fractures following interlocking nailing and plate osteosynthesis. A comparative retrospective study]. Zentralbl Chir. Germany; 1989;114(17):1146–54.
  • 2. Oszwald M, Westphal R, Stier R, Gaulke R, Calafi A, Muller CW, et al. Hands-on robotic distal interlocking in intramedullary nail fixation of femoral shaft fractures. Technol Health Care 2010;18(4–5):325–34.
  • 3. Noordeen HH, Sala MJ, Belham GJ. Insertion of distal screws in interlocking intramedullary nails. Injury 1993;24(5):357–8.
  • 4. Hashemi-Nejad A, Garlick N, Goddard NJ. A simple jig to ease the insertion of distal screws in intramedullary locking nails. Injury 1994;25(6):407–8.
  • 5. Uruc V, Ozden R, Dogramaci Y, Kalaci A, Dikmen B, Yildiz OS, et al. The comparison of freehand fluoroscopic guidance and electromagnetic navigation for distal locking of intramedullary implants. Injury 2013;44(6):863–6.
  • 6. Stathopoulos I, Karampinas P, Evangelopoulos DS, Lampropoulou-Adamidou K, Vlamis J. Radiation-free distal locking of intramedullary nails: Evaluation of a new electromagnetic computer-assisted guidance system. Injury 2013;44(6):872–5.
  • 7. Aldemir C, Doğan A, Inci F, Sertkaya O, Duygun F. [Distal locking techniques without fluoroscopy in intramedullar nailing]. Eklem Hastalık Cerrahisi 2014;25(2):64–9.
  • 8. Sancaktutar AA, Söylemez H. The Use of Fluoroscopy and Radiation Protection During Percutaneous Nephrolithotomy. Turk Urol Sem 2011; 2: 325-30 Turkish.
  • 9. Lee YS, Lee HK, Cho JH, Kim HG. Analysis of radiation risk to patients from intra-operative use of the mobile X-ray system (C-arm). J Res Med Sci. 2015 Jan;20(1):7-12.
  • 10. Ehlinger M, Dillman G, Czekaj J, Adam P, Taglang G, Brinkert D et al. Distal targeting device for long Gamma nail®. Monocentric observational study. Orthopaedics & Traumatology: Surgery & Research (2013) 99, 799-804
  • 11. Kim KP, Miller DL, Berrington de Gonzalez A, Balter S, Kleinerman RA, Ostroumova E et al. Occupational radiation doses to operators performing fluoroscopically-guided procedures. Health Phys. 2012;103(1):80-99.
  • 12. Kesavachandran CN, Haamann F, Nienhaus A. Radiation exposure of eyes, thyroid gland and hands in orthopaedic staff: a systematic review. Eur J Med Res. 2012;17(1):28.
  • 13. Winquist R. Locked Femoral Nailing. J Am Acad Orthop Surg. 1993;1(2):95–105.
  • 14. Abdlslam KM, Bonnaire F. Experimental model for a new distal locking aiming device for solid intramedullary tibia nails. Injury 2003;34(5):363–6.
  • 15. Atay T, Aydoğan FC, Kırdemir V, Baykal YB, Aslan A, Baydar ML. Femur Diafiz Kırıklarında Genişleyebilir İntramedüller Çivi Sonuçlarımız. Kocatepe Tıp Dergisi 2008;9(2):9-13.
  • 16. Sanders R, Koval KJ, DiPasquale T, Schmelling G, Stenzler S, Ross E. Exposure of the orthopaedic surgeon to radiation. J Bone Joint Surg Am. 1993 ;75(3):326-30.
  • 17. Tasbas BA, Yagmurlu MF, Bayrakci K, Ucaner A, Heybeli M. Which one is at risk in intraoperative fluoroscopy? Assistant surgeon or orthopaedic surgeon? Arch Orthop Trauma Surg.2003;123(5):242–4
  • 18. Kamarianakis Z, Buliev I, Pallikarakis N. Robust identification and localization of intramedullary nail holes for distal locking using CBCT: A simulation study. Med Eng Phys. 2011;33(4):479–89.
  • 19. Maqungo S, Horn A, Bernstein B, Keel M, Roche S. Distal interlocking screw placement in the femur: free-hand versus electromagnetic assisted technique (sureshot). J Orthop Trauma. 2014;28(12):e281-3.
  • 20. Langfitt MK, Halvorson JJ, Scott AT, Smith BP, Russell GB, Jinnah RH, et al. Distal locking using an electromagnetic field-guided computer-based real-time system for orthopaedic trauma patients. J Orthop Trauma. 2013;27(7):367–72.
  • 21. Anastopoulos G, Ntagiopoulos PG, Chissas D, Loupasis G, Asimakopoulos A, Athanaselis E, et al. Evaluation of the Stryker S2TM IM Nail Distal Targeting Device for reduction of radiation exposure: A case series study. Injury 2008;39(10):1210–5.
  • 22. Suhm N, Messmer P, Zuna I, Jacob LA, Regazzoni P. Fluoroscopic guidance versus surgical navigation for distal locking of intramedullary implants: A prospective, controlled clinical study. Injury 2004;35(6):567–74.
  • 23. Boraiah S, Barker JU, Lorich D. Efficacy of an aiming device for the placement of distal interlocking screws in trochanteric fixation nailing. Arch Orthop Trauma Surg. 2009;129(9):1177–82.
There are 23 citations in total.

Details

Primary Language Turkish
Subjects Surgery
Journal Section Research Article
Authors

Mehmet Nuri Konya

Ömer Ali Kaya This is me

Publication Date April 23, 2017
Submission Date December 16, 2016
Acceptance Date January 16, 2017
Published in Issue Year 2017 Volume: 1 Issue: 1

Cite

Vancouver Konya MN, Kaya ÖA. Femur kırıklarının intrameduller çivi ile tedavisinde radyasyon maruziyeti azaltılabilir mi?. Acta Med. Alanya. 2017;1(1):20-3.

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