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[1]吳青松,孫鵬,李立,等.數(shù)字骨科技術(shù)輔助切開復(fù)位內(nèi)固定術(shù)治療 跟骨骨折的臨床研究[J].中醫(yī)正骨,2015,27(12):20-23.
 WU Qingsong,SUN Peng,LI Li,et al.Clinical study on open reduction internal fixation assisted by digital orthopaedic technique in the treatment of calcaneal fractures[J].The Journal of Traditional Chinese Orthopedics and Traumatology,2015,27(12):20-23.
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數(shù)字骨科技術(shù)輔助切開復(fù)位內(nèi)固定術(shù)治療 跟骨骨折的臨床研究()
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《中醫(yī)正骨》[ISSN:1001-6015/CN:41-1162/R]

卷:
第27卷
期數(shù):
2015年12期
頁碼:
20-23
欄目:
臨床研究
出版日期:
2015-12-30

文章信息/Info

Title:
Clinical study on open reduction internal fixation assisted by digital orthopaedic technique in the treatment of calcaneal fractures
作者:
吳青松孫鵬李立韓明濤
山東省文登整骨醫(yī)院,山東 文登 264400
Author(s):
WU QingsongSUN PengLI LiHAN Mingtao
Wendeng Osteopath Hospital,Wendeng 264400,Shandong,China
關(guān)鍵詞:
跟骨 數(shù)字骨科 3D打印 骨折固定術(shù)內(nèi) 治療臨床研究性
Keywords:
calcaneus digital orthopedics 3D printing fracture fixationinternal therapiesinvestigational
摘要:
目的:探討數(shù)字骨科技術(shù)在跟骨骨折切開復(fù)位內(nèi)固定術(shù)中的應(yīng)用價值。方法:將44例符合要求的跟骨骨折患者隨機分為數(shù)字技術(shù)組和傳統(tǒng)手術(shù)組,每組22例。數(shù)字技術(shù)組術(shù)前利用Mimics 15.0軟件及跟骨3D打印模型進(jìn)行模擬復(fù)位和手術(shù),確定鋼板種類、位置及螺釘?shù)奈恢煤烷L度,同時對鋼板進(jìn)行塑形,術(shù)中按照根據(jù)模擬手術(shù)制定的手術(shù)方案進(jìn)行切開復(fù)位內(nèi)固定手術(shù); 傳統(tǒng)手術(shù)組按照傳統(tǒng)方式進(jìn)行切開復(fù)位內(nèi)固定術(shù)。比較2組患者的切口長度、手術(shù)時間、出血量、術(shù)中X線透視次數(shù)、住院時間及骨折復(fù)位情況。結(jié)果:數(shù)字技術(shù)組的術(shù)中X線透視次數(shù)和手術(shù)時間均少于傳統(tǒng)手術(shù)組[(7.4±3.6)次,(10.4±2.6)次,t=3.144,P=0.003;(51.0±7.7)min,(57.8±9.6)min,t=2.580,P=0.013],2組患者的出血量、切口長度、住院時間比較,組間差異均無統(tǒng)計學(xué)意義[(25.4±3.8)mL,(26.6±4.3)mL,t=1.043,P=0.303;(12.4±1.3)cm,(13.0±1.2)cm,t=1.831,P=0.074;(10.5±2.3)d,(10.4±1.7)d,t=0.226,P=0.823]。按照Burwell-Charnley放射學(xué)評價標(biāo)準(zhǔn),數(shù)字技術(shù)組解剖復(fù)位15例、復(fù)位一般3例、復(fù)位差4例,傳統(tǒng)手術(shù)組解剖復(fù)位12例、復(fù)位一般2例、復(fù)位差8例; 2組患者的復(fù)位情況比較,差異無統(tǒng)計學(xué)意義(Z=-1.113,P=0.266)。結(jié)論:數(shù)字骨科技術(shù)輔助下行切開復(fù)位內(nèi)固定術(shù)治療跟骨骨折,可獲得較好的骨折復(fù)位,而且能減少術(shù)中X線透視次數(shù)、縮短手術(shù)時間,值得臨床推廣應(yīng)用。
Abstract:
Objective:To explore the applied value of digital orthopaedic technique in open reduction internal fixation(ORIF)for treatment of calcaneal fractures.Methods:Forty-four patients with calcaneal fracture enrolled in the study were randomly divided into digital technique group and conventional surgery group,22 cases in each group.Simulated ORIF were performed on patients in digital technique group before the surgery by using Mimics 15.0 software and calcaneal 3D printing model to determine type and location of the steel plate and location and length of the screws,and the steel plates were reshaped.During the surgery ORIF were performed in digital technique group according to the operation plan which was formulated on the basis of simulated surgery,while conventional ORIF were performed in conventional surgery group.The incision length,operative time,blood loss,frequency of intraoperative X-ray exposure,hospital stays and fracture reduction results were compared between the 2 groups.Results:The frequency of intraoperative X-ray exposure and operative time were less in digital technique group compared to conventional surgery group(7.4+/-3.6 vs 10.4+/-2.6,t=3.144,P=0.003; 51.0+/-7.7 vs 57.8+/-9.6 min,t=2.580,P=0.013).There was no statistical difference in the blood loss,incision length and hospital stays between the 2 groups(25.4+/-3.8 vs 26.6+/-4.3 ml,t=1.043,P=0.303; 12.4+/-1.3 vs 13.0+/-1.2 cm,t=1.831,P=0.074; 10.5+/-2.3 vs 10.4+/-1.7 days,t=0.226,P=0.823).According to Burwell-Charnley radiological evaluation standard,15 patients obtained anatomical reduction,3 fair and 4 poor in digital technique group; while 12 patients obtained anatomical reduction,2 fair and 8 poor in conventional surgery group.There was no statistical difference in the fracture reduction results between the 2 groups(Z=-1.113,P=0.266).Conclusion:In the treatment of calcaneal fractures,ORIF assisted by digital orthopaedic technique leads to better fracture reduction results,less intraoperative X-ray exposure and shorter operative time,so it is worthy of popularizing in clinic.

參考文獻(xiàn)/References:

[1] Beaupre GS.Effect of fracture gap on stability of compression plate fixation:a finite element study[J].J Orthop Res,2011,29(1):152.
[2] 國家中醫(yī)藥管理局.中醫(yī)病證診斷療效標(biāo)準(zhǔn)[M].南京:南京大學(xué)出版社,1994:173.
[3] Burwell HN,Charnley AD.The treatment of displaced fractures at the ankle by rigid internal fixation and early joint movement[J].J Bone Joint Surg Br,1965,47(4):634-660.
[4] Bevill G,Keaveny TM.Trabecular bone strength predictions using finite element analysis of micro-scale images at limited spatial resolution[J].Bone,2009,44(4):579-584.
[5] 潘朝暉,王劍利,蔣萍萍,等.三種不同骨瓣重建跟骨缺損的有限元及臨床分析[J].中華創(chuàng)傷骨科雜志,2005,7(6):529-532, 500. 中醫(yī)正骨2015年12月第27卷第12期 J Trad Chin Orthop Trauma,2015,Vol.27,No.12(總903) (總904)中醫(yī)正骨2015年12月第27卷第12期 J Trad Chin Orthop Trauma,2015,Vol.27,No.12
[6] Ochs BG,Gonser C,Shiozawa T,et al.Computer-assisted periacetabular screw placement: Comparison of different fluoroscopy-based navigation procedures with conventional technique[J].Injury,2010,41(12):1297-1305.
[7] Amin S,Kopperdhal DL,Melton LJ,et al.Association of hip strength estimates by finite-element analysis with fractures in women and men[J].J Bone Miner Res,2011,26(7):1593-1600.
[8] Bagaria V,Deshpande S,Rasalkar DD,et al.Use of rapid prototyping and three-dimensional Reconstruction modeling in the management of complex fractures[J].Eur J Radiol,2011,80(3):814-820.
[9] 郝東升,尹蕓生,李棟,等.螺旋CT三維重建在跟骨骨折手術(shù)治療中的價值[J].中國現(xiàn)代醫(yī)學(xué)雜志,2006,16(23):3611-3614.
[10] 尹慶水,章瑩,王成燾,等.臨床數(shù)字骨科學(xué)——創(chuàng)新理論體系與臨床應(yīng)用[M].北京:人民軍醫(yī)出版社,2011:191.
[11] Yettram AL,Camilleri NN.The forces acting on the human calcaneus[J].J Biomed Eng,1993,15(1):46-50.
[12] Rübberdt A,Hofbauer VR,Herbort M,et al.3D navigated osteosynthesis of calcaneal fractures. Open and minimally invasive techniques[J].Unfallchirurg,2009,112(1):15-22.
[13] Kim KK,Heo YM,Won YY,et al.Navigation-assisted total knee arthroplasty for the knee retaining femoral intramedullary nail, and distal femoral plate and screws[J].Clin Orthop Surg,2011,3(1):77-80.
[14] Hung SS,Lee MY.Functional assessment of a surgical robot for reduction of lower limb fractures[J].Int J Med Robot,2010,6(4):413-421.
[15] Blumenfeld TJ,Bargar WL,et al.Surgical technique:a cup-in-cup technique to restore offset in severe protrusio acetabular defects[J].Clin Orthop Relat Res,2012,470(2):435-441.
[16] 溫建民.跟骨骨折的治療策略[J].中醫(yī)正骨,2013,25(4):3-6.

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備注/Memo

備注/Memo:
2015-09-06收稿 2015-10-29修回
更新日期/Last Update: 2015-12-30