Ipsilateral femoral neck and shaft fractures: a retrospective analysis of two treatment methods

Background No consensus exists regarding the optimal treatment of ipsilateral femoral neck and shaft fractures. The three major issues related to these fractures are the optimal timing of surgery, which fracture to stabilize first, and the optimal implant to use. In an effort to find answers to these three key issues, we report our experience of managing 27 patients with ipsilateral femoral neck and shaft fractures by using two different treatment methods, i.e., reconstruction-type intramedullary nailing and various plate combinations. Materials and methods We divided patients into two groups. Group I included 15 patients (13 males and 2 females) who were operated with cancellous lag screws or dynamic hip screws (DHS) for fractured neck and compression plate fixation for fractured shaft of the femur. Group II included 12 patients (11 males and 1 female) who were operated with reconstruction-type intramedullary nailing. Results Mean age was 33.2 and 37.9 years in group I and II, respectively. Mean delay in surgery was 5.9 and 5.4 days in group I and II, respectively. Average union time for femoral neck fracture in groups I and II were 15.2 and 17.1 weeks, respectively; and for shaft fracture these times were 20.3 and 22.8 weeks, respectively. There were 13 (86.6%) good, 1 (6.7%) fair and 1 (6.7%) poor functional results in group I. There were 10 (83.3%) good, 1 (8.3%) fair and 1 (8.3%) poor functional results in group II. Conclusions Both of the treatment methods used in the present study achieved satisfactory functional outcome in these complex fractures. Fixation with plate for shaft and screws or DHS for hip is easy from a technical point of view. Choice of the treatment method should be dictated primarily by the type of femoral neck fracture and the surgeon’s familiarity with the treatment method chosen. The femoral neck fracture should preferably be stabilized first, and a delay of 5–6 days does not affect the ultimate functional outcome.


Introduction
Ipsilateral femoral neck and shaft fractures occur in 2.5-9% of femur fractures [6,12,14]. Most are encountered in high-energy trauma [5,6,14]. Victims are usually young, with multiple associated injuries [12,14]. The diagnosis of the neck fracture is delayed in 19-31% of patients [14]. The treatment of ipsilateral femoral neck and shaft fractures is difficult, and there are many protocols for the management of these fractures. Treatment options include: (1) antegrade femoral nailing of the shaft with cancellous screws placed anterior to the nail for fixation of the neck [1,14]; (2) reconstruction-type intramedullary nailing [6,10]; (3) various plate combinations [including a dynamic hip screw (DHS) and long side plate configuration, a hip screw with a short side plate for the neck and separate plate for the shaft, or cancellous screws for femoral neck and a plate for the shaft] [5,14]; (4) retrograde intramedullary nailing of the shaft and screw fixation of the neck [8]. Each method has its own advantages and disadvantages. No consensus exists regarding the optimal treatment of these complex fractures [5]. The three major issues related to these fractures are optimal timing of surgery, which fracture to stabilize first, and the optimal implant to use [6]. This retrospective study reports our experience of managing 27 patients with ipsilateral femoral neck and shaft fractures using two different treatment methods, i.e., reconstruction-type intramedullary nailing and various plate combinations, in order to address these three key issues.  [4], three of the diaphyseal fractures were type I, seven were type II, one was type III, and four were type IV. As per AO classification, three fractures were type 32A, seven were 32B, and five fractures were 32C. Group II included 12 patients (11 males and 1 female) who were operated with reconstruction-type intramedullary nailing. Mean age was 37.9 years (range, 22-51 years; SD, 11.6 years). Ten patients had basicervical, one had transcervical, and one had subcapital femoral neck fractures. Ten patients had Garden type II and two had Garden type III fractures. Nine patients had a femoral shaft fracture in the middle third, one in the proximal third and two in the distal third. According to Hansen-Winquist classification, five of the diaphyseal fractures were type I, five were type II; one was type III, and one was a segmental fracture. As per AO classification, eight fractures were type 32A, three were 32B, and one was 32C. All patients were initially managed in the Accident and Emergency Department. Life-threatening conditions were evaluated and managed first by general surgeons and neurosurgeons. Vital signs were stabilized. Temporary skeletal traction via a Steinmann pin was used in patients who could not be operated on immediately. We stabilized femoral neck fracture first in patients operated with various plate combinations. A temporary stabilization with guide wires was done in patients with displaced neck fractures in order to prevent further displacement, and this was followed by stabilization of the shaft and definitive fixation of the neck fracture. In reconstruction nailing, we temporarily stabilized the neck fracture with two guide wires; this was followed by the insertion of the nail, proximal locking and distal locking.

Between
All patients received perioperative antibiotic prophylaxis in the form of inj. cefoperazone + sulbactam 1 gm from 1 h before surgery until the seventh postoperative day. On the second postoperative day, range of movement exercises were started. Touch-toe weight bearing was allowed using a frame or crutches after stitch removal. NS not significant, SD standard deviation Patients were followed at monthly intervals up to six months, then at three monthly intervals up to one year, and then every six months up to the last follow-up. The followup study included both clinical and radiological evaluations. Progressive weight bearing was allowed after the appearance of callus on radiographs. Union was defined as painless full weight bearing on the affected limb with the presence of radiologic consolidation in both anteroposterior and lateral views. Delayed union was defined as a fracture that was not united after 24 weeks. The functional results of the patients were assessed with the system used by Friedman and Wyman [3]. A good result required no limitation in the activities of daily living (ADL), no pain, and a \20% loss of hip or knee motion. A fair result indicated mild limitation of ADL, mild-to-moderate pain, and a 20-50% loss of motion. A poor result was associated with moderate limitation of ADL, severe pain, and a[50% loss of motion.
Ethical and legal procedure

Group I
Operations were performed within a mean of 5.9 days (range, 2-11 days) following trauma on an ordinary operation  (Fig. 2a-d). Avascular necrosis of the head of the femur developed in one patient at one year ( Fig. 3a- \0.05 was considered significant. Chi-square testing showed no significant differences between groups I and II with respect to gender, type of femoral neck fracture, type of femoral shaft fracture, functional outcome, and complications. An unpaired t-test revealed no preoperative significant differences between groups I and II with respect to the patient's age (Table 1).

Discussion
Ipsilateral femoral neck and shaft fractures are rare and challenging. The majority of the patients in the present series were young males with high-energy trauma, as also reported in the literature [1,5,6]. Femoral neck fractures were most often basilar in the present series and in other series [1,6]. Femoral neck fracture is unrecognized in the initial examinations of 20-30% of patients [13]. However, we did not observe any missed femoral neck fractures, probably because of our standard protocol of roentgenographic evaluation of the pelvis and both hips in all femoral shaft fractures. Operations were performed within 2-11 days following trauma. The timing of operative fixation was often dictated by the patient's status as a multiple trauma victim in the present series. Delay in treatment was generally because of the associated injuries (head, chest or abdominal) [6]. The rate of avascular necrosis of the femoral head was 4%, and a delay of 5-6 days in fixation of the neck fracture did not seem to increase this complication rate in the present series. The patient who developed AVN was operated eight days after trauma (Fig. 3a-c). The rate of avascular necrosis of femoral head was lower (3%) in ipsilateral neck fractures than in solitary neck fractures (10%), and was not associated with the delay in diagnosis or the time of operation in a meta-analysis by Alho [1]. Emergency fixation of the fractured neck of femur in this combined injury pattern, unlike isolated femoral neck fractures, may be unnecessary [16]. Though there is confusion regarding which fracture should be managed first, there appears to be a general consensus regarding the seriousness of the complications involving femoral neck fractures [5,6,11]. In a series utilizing a standard protocol of plate fixations for diaphyseal fractures and lag screws or DHS fixations for the hip fractures, Hung et al. reported that the order of fixation of the fractures may not be very important [5]. We stabilized femoral neck fractures first in patients operated with various plate combinations. This protocol is satisfactory in patients with undisplaced neck fractures, as further displacement of the neck fracture is prevented. However, in displaced neck fractures, this protocol may result in unsatisfactory reduction of the neck fracture due to inadequate control over the distal fragment at the neck fracture site. Moreover, if the neck fracture is not reduced anatomically, the anatomical reduction at the shaft fracture site during plating may result in unacceptable rotational deformity of the limb. A temporary stabilization with guide wires is recommended in patients with displaced neck fractures in order to prevent further displacement, and this should be followed by stabilization of the shaft and definitive fixation of the neck fracture. Prior stabilization of the shaft aids in reducing the displaced neck fracture. During reconstruction nailing, we temporarily stabilized the neck fracture with two guide wires, and followed this with the insertion of the nail, proximal locking and distal locking. There is still no consensus on the optimal treatment method for these complex fractures. In a meta-analysis of the reports published in the literature, the locked intramedullary nails or reconstruction nails yielded results that were superior to those for combinations of plates [1]. The plate series was associated with more frequent infections and nonunions, while the nail fixations were complicated by rotatory malalignments and shortenings [1]. However, the difference between the two treatment methods with respect to union, complications and functional outcome was not significant in the present series. The average time for femoral neck and shaft union in the present series was consistent with that reported in other series [2,6]. The choice of the implant in the present series was influenced by the surgeon's preference. We have found reconstruction nailing to be technically demanding. We experienced technical difficulties in four patients undergoing reconstruction nailing. It is difficult to achieve reductions in displaced femoral neck fractures in such complex injuries with reconstruction nailing, and varus nonunion or malunion can occur, as observed in one patient in the present series. The stability of neck fixation may be insufficient [7]. In a retrospective analysis of 13 patients with ipsilateral neck and femoral shaft fractures who had healing complications, Watson and Moed reported that 75% of the femoral neck nonunions that occurred in these 13 patients developed after the use of reconstruction-type intramedullary nails [12]. The biomechanical advantage of reconstruction nailing is outweighed by the technical difficulties involved in accurately placing the proximal screws into the head and neck [11]. In the present series, we also had similar problems in two patients. We are of the opinion that, from a technical point of view, it is much easier to fix with plate and screws or plate and DHS for ipsilateral neck and shaft fracture than with intramedullary nailing with screws or reconstruction nails. Other authors have also had similar opinions [2,5].
We performed intertrochanteric valgus osteotomy to correct varus setting of the neck fracture in one complicated case of reconstruction nailing. Watson and Moed also reported union after intertrochanteric valgus osteotomy in femoral neck nonunions in patients with ipsilateral neck and femoral shaft fractures who had healing complications [12]. In a series of 16 patients of ununited ipsilateral femoral neck and shaft fractures, the author advocated subtrochanteric valgus osteotomy with sliding compression screws for neck fractures, and dynamic compression plating with supplementary cancellous bone grafting for shaft fracture stabilization [15]. The author considered the surgical procedure to be relatively simple [15].
The goal of any treatment plan should be anatomic reduction of neck fracture and stable fixation of both fractures, so the patient can be mobilized early [6]. Both of the treatment methods used in the present study achieved satisfactory functional outcome in these complex fractures. A reconstruction nail is advantageous in terms of possible closed antegrade nailing with minimal incision, and reduced blood loss and biological fixation of both fractures with a single implant [6,9]. Fixation with plates for the shaft and screws or DHS for the hip is easy from a technical perspective [2,5]. The limitations of the present study include the small number of patients in each group and the potential for user bias, because the surgeon could not be blinded with respect to the method used. These limitations notwithstanding, this retrospective study showed that both treatment methods are reliable options in the management of ipsilateral femoral neck and shaft fractures. In our opinion, the choice of the treatment method should be dictated primarily by the type of femoral neck fracture and the surgeon's familiarity with the treatment method chosen. Reconstruction nailing should not be preferred in displaced femoral neck fractures, because of difficulties in reducing the fracture and its maintenance during nail insertion. We are of the opinion that the femoral neck fracture should preferably be stabilized first. A short delay of 5-6 days in stabilizing ipsilateral femoral neck and shaft fractures does not seem to affect the ultimate functional outcome.