Bonnevialle P, Mansat P, Cariven P, Bonnevialle N, Ayel J, Mansat M
Service d'Orthopédie-Traumatologie, CHU Toulouse-Purpan, place du Docteur-Baylac, 31052 Toulouse Cedex.
Rev Chir Orthop Reparatrice Appar Mot. 2005 Sep;91(5):446-56. doi: 10.1016/s0035-1040(05)84362-4.
External fixation has not been widely used for femoral fractures and few series are reported in the literature. External fixation is generally reserved for severe open fractures, for vessel injury or multiple trauma with life threatening. We present a retrospective analysis of a serie treated in a single center in order to detail the indications of this fixation technique.
From 1984 to Jun 2002, 49 patients with femoral fractures were treated by external fixation. The series included 36 men and 13 women, mean age 31 years. All were victims of high-energy trauma: traffic accident (n = 40), fall from high level (n = 4), firearm wound (n = 5). Multiple fractures were present in all patients except seven and 24 patients had multiple injuries. Forty fractures were open fractures: two type 1, ten type 2, four type 3a, 23 type 3b and five type 3c in the Gustilo classification. Twenty-seven were shaft fractures and 26 involved the distal metaphyseoepiphyseal portion of the femur. Loss of cortical stock was noted in five cases and total loss of a segment in four. Surgery was deferred in 19 patients, mean six days. A single-plane external fixation was used (Orthofix) with a femorofemoral frontolatateral assembly. Transepiphyseal screw fixation was also used to stabilize the distal fracture in eleven cases.
One patient with a bifocal fracture of the femur died from head trauma. Three patients required above knee amputation after failure of a vessel bypass or due to septic necrosis of the reconstruction flap. Five patients required a second reduction within days of external fixation. On the AP view, femoral alignment was successfully reestablished at +/- 5 degrees in 45 cases, ranged from 5 degrees to 10 degrees in seven and was greater than 10 degrees in one. On the lateral view, alignment was between 5 degrees and 10 degrees in 42 cases and greater than 10 degrees in one. Femur length was equal to the healthy side in 23 cases, and was shortened 1-2 cm in 26. Four metaphyseal fractures resulted in a 3 cm shortening. Bone healing time was available for 42 patients (1 death, 3 amputations, 3 lost to follow-up). Elective conversion to internal fixation was performed in ten patients (five lateral cortical plates and five centromedullary nailings). These patients all achieved first-intention bone healing with a mean time of 7.4 months. Exclusive external fixation was planned for 34 fractures. First-intention healing was achieved in 25 (17 shaft and 8 distal) without bone graft with an average time of 7.3 months. Ten patients had one or more osteitis foci on pin tracts. Two patients in this group developed recurrent fracture after removal of the external fixator. Nine fractures did not heal and required revision with centromedullary nailing (n = 5) or plate fixation with autograft (n = 4). Nailings for nonunion were successful but plate fixation was compromised by infection in one patient and recurrent fracture after plate removal in another. Fourteen patients underwent joint mobilization under general anesthesia and 14 had open arthrolysis. Mean follow-up was 2.8 years. Mean active flexion was 90 degrees (30-130 degrees). Ten patients exhibited flexion between 30 degrees and 60 degrees and 19 between 70 degrees and 100 degrees. Knee flexion was greater than 110 degrees in 15 patients. Residual 10 degrees flexion was noted in six knees. Mean leg length discrepancy was 0.4 +/- 0.6 after distal fracture and 0.8 +/- 1.3 after diaphyseal fracture.
The indications and results of external fixation in this series are in line with reports in the literature. For diaphyseal fractures, healing is long and difficult, partly because of the insufficient mechanical properties of external fixation. The rate of infection and stiff knee is high, particularly for distal fractures of the femur.
External fixation remains the only solution to stabilize certain open diaphyseal fractures or for patients with life-threatening multiple injuries. This techniques allows control of the other traumatic lesions while waiting for internal fixation. For fractures of the distal femur, external fixation can only be advocated for metaphyseodiaphyseal fractures with an intact or reconstructed epiphyseal portion.
外固定在股骨骨折中的应用尚未广泛开展,文献报道的病例系列较少。外固定一般用于严重开放性骨折、血管损伤或伴有危及生命的多发伤。我们对在单一中心治疗的一组病例进行回顾性分析,以详细阐述这种固定技术的适应证。
1984年至2002年6月,49例股骨骨折患者接受了外固定治疗。该组包括36例男性和13例女性,平均年龄31岁。所有患者均为高能创伤受害者:交通事故(n = 40)、高处坠落(n = 4)、火器伤(n = 5)。除7例患者外,所有患者均有多处骨折,24例患者有多发伤。40例为开放性骨折:根据Gustilo分类,2例为1型,10例为2型,4例为3a型,23例为3b型,5例为3c型。27例为骨干骨折,26例累及股骨远端干骺端-骨骺部分。5例出现皮质骨缺损,4例出现节段性完全缺损。19例患者手术延期,平均6天。采用单平面外固定(Orthofix),使用股-股前外侧固定装置。11例患者还采用经骨骺螺钉固定以稳定远端骨折。
1例股骨双焦点骨折患者死于头部创伤。3例患者因血管搭桥失败或重建皮瓣感染坏死而需要行膝上截肢。5例患者在外固定后数天内需要再次复位。在前后位X线片上,45例患者股骨对线成功重建在±5度以内,7例在5度至10度之间,1例大于10度。在侧位X线片上,42例患者对线在5度至10度之间,1例大于10度。23例患者股骨长度与健侧相等,26例缩短1 - 2 cm。4例干骺端骨折导致缩短3 cm。42例患者(1例死亡、3例截肢、3例失访)有骨愈合时间记录。10例患者择期转为内固定(5例采用外侧皮质钢板,5例采用髓内钉)。这些患者均一期愈合,平均时间为7.4个月。计划对34例骨折单纯采用外固定。25例(17例骨干骨折和8例远端骨折)未植骨一期愈合,平均时间为7.3个月。10例患者针道有一处或多处骨炎病灶。该组2例患者在拆除外固定器后发生再骨折。9例骨折未愈合,需要采用髓内钉翻修(n = 5)或钢板固定加自体骨移植(n = 4)。髓内钉治疗骨不连成功,但1例患者钢板固定因感染而失败,另1例患者钢板取出后发生再骨折。14例患者在全身麻醉下进行关节活动,14例进行开放性关节松解术。平均随访2.8年。平均主动屈曲度为90度(30 - 130度)。10例患者屈曲度在30度至60度之间,19例在70度至100度之间。15例患者膝关节屈曲大于110度。6个膝关节有10度的残余屈曲。远端骨折后平均下肢长度差异为0.4±0.6,骨干骨折后为0.8±1.3。
本系列中外固定的适应证和结果与文献报道一致。对于骨干骨折,愈合时间长且困难,部分原因是外固定的力学性能不足。感染率和膝关节僵硬率高,尤其是股骨远端骨折。
外固定仍然是稳定某些开放性骨干骨折或伴有危及生命的多发伤患者的唯一解决办法。该技术在等待内固定期间可控制其他创伤性损伤。对于股骨远端骨折,外固定仅适用于骨骺部分完整或重建的干骺端-骨干骨折。
