Twenty-two patients presented with an intracapsular fracture of the femur. These fractures were treated with internal fixation in 8 patients and joint replacement in 14, with the decision being personalised and based on the fracture line and the patient's age.

When the joint was replaced, the decision to perform partial or total arthoplasty was taken by the practising physician individually based on patient age and the degree of functional deficit of the affected limb. Thus, 3 bipolar arthroplasties and 11 total arthroplasties were performed.

In the preoperative study, the presence of a narrow canal and osteoporosis (in accordance with the established definitions in the section relating to methods) were the main characteristics observed in the majority of patients. This poor bone quality, together with a certain level of acetabular dysplasia presented complications in achieving stability of the acetabular component in 3 patients, with the use of 3 or more screws required for fixation.

In turn, on the femoral side, this poor bone quality led to the appearance of both periprosthetic intraoperative fractures in 2 patients, one at greater trochanter level with (Vancouver AG) and another at calcar level (Vancouver AL), both of which were treated using cerclage.

The presence of weakened hip abductors (fatty degeneration) produced a certain degree of intraoperative instability in 3 patients. In one of them, after the reduction of the trial implant, clear instability was observed on insertion of the stem in its anatomical position. In the preoperative planning neither a long stem nor a restrictive implant was included, resulting in the femoral stem being cemented into a higher position to obtain greater tension of the soft tissues and a stable reduction (Fig. 1A–C).

Figure 1.

Neck of the femur fracture treated with total hip replacement with intraoperative instability (A–C). Periprosthetic fracture treated with plate (D–H). Intraoperative iatrogenic fracture (E, arrow).

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Fifteen patients suffered from an extracapsular fracture of the proximal femur (five 31-A1, nine 31-A2 and one 31-A3). Extramedullary fixation was chosen for 4 patients, either due to preoperative observation of a narrow canal or the presence of a previous implant which made pinning impossible. In all of them a plate with a sliding hip screw was used, and in all of them the implant was larger than the bone size. The main intraoperative complications recorded were the need for a very short cephalic screw (55mm), the protrusion of the cephalic screw and the inability to remove prior osteosynthesis material (Fig. 2A–F).

Figure 2.

Petrochanteric fracture (A, B). The problems observed were: deformity secondary to osteotomy of the proximal femur (B, I), presence of an implant (A, B), suprachondylar osteotomy (G), and osteoporosis (A), small bone (observe over dimension of the implant) (C, D, H, I). Posterior suprachondylar fracture (G–I).

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Of the 11 patients treated with the intramedullary implant, we used Ender screws in 4 and intramedullary screws in the remaining 7. Fracture 31-A3 was fixed with a long intramedullary screw after removal of a short supracondylar screw implanted for a previous supracondylar fracture. There were no intraoperative complications in the group of endomedullary screwing, although slightly over-sized implants were observed.

This was present in 10 patients, with pinning as the treatment of choice in 7 cases with a normal diameter of the intramedullary canal, although 2 patients required a prior implant to be removed (short supracondylar screw and proximal femur screw) before surgery.

The plate was the implant of choice in 3 patients, either due to the existence of a previous implant (hip arthoplasty in one patient), or the existence of too narrow a canal.

In the first, a periprosthetic femoral fracture (Vancouver B1) required fixation with a long precontoured plate. A complication occurred as during handling of the limb an iatrogenic transversal fracture presented, bridged by the plate (Fig. 1D–H).

In 2 patients with diaphyseal fractures with too narrow a canal for pinning a sliding screw hip plate was chosen as treatment. In one of them a highly flat, slim femur prevented the use of a sliding screw hip plate or a long screw and a standard 3.5 locking plate was used (Fig. 3).

Figure 3.

Subtrochanteric fracture treated with 3.5 plates. Observe the small width of the femur.

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Eighteen patients presented with a distal femur fracture. One unicondylar fracture (AO 33-B1) was treated with cannulated spongy screws.

Nine supracondylar fractures (AO 33-A1 and AO 33-A2) were treated with the use of supracondylar retrograde screws and 8 supracondylar and supraintercondylar fractures (AO/OTA 33-A and 33-C) were treated with locking plates. In7 patients precontoured distal femur locking plates were used, over-sized in all cases, which led to postoperative irritation of soft tissues (Fig. 4, left). Due to the failed adaptation of the distal femur plate and its large size, in one case a recontoured plate of distal tibia was used in the distal lateral femur. This enabled better adaptation in the small bone, whilst the locking screws enabled sound fixation in the osteoporotic bone (Fig. 4, right).

Figure 4.

Left: over-sized standard distal plate of the femur. Right: suprachondylar fracture is fixed with a precontoured 3.5 locking plate of the distal tibia, which matches the bone size perfectly.

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Three patients were treated with standard locking plates, and there were no intraoperative complications.

Of the 5 patients who presented with a diaphyseal fracture of the tibia, pinning was used in 3 of them, with no intraoperative complications. In the other 2, the main problem was a narrow, deformed canal bone from previous fractures, which forced us to use a monolateral external fixator in one patient and a precontoured proximal tibia plate in the other (Fig. 5).

Figure 5.

Observe the deformed bone due to previous fractures, the narrow canal, which did not allow for the use of an intramedullary screw and the over sized plate compared with the bone size.

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These were treated with standard procedures and there were no intraoperative complications.

Very few studies have been published on total hip arthroplasty (THA) in patients with poliomyelitis. Available evidence is limited mostly to small series and isolated cases.9–14 However, in one of the largest studies on THA in patients with post polio syndrome,12 the authors recorded the data of 8 patients prospectively with 9 THA; there were no dislocation episodes and no significant changes were mentioned regarding postoperative muscular strength.

Table 2 summarises the available data published on THA in patients with residual poliomyelitis. Current evidence reports a lower complication rate than expected.

In our series, instability is the main complication, and was observed in 3 of 11 patients, together with intraoperative periprosthetic fractures. Current evidence reports that modular, constricted or dual mobility implants, associated with liberation from soft tissues when appropriate must be considered for these patients.14

The main problem found on treating fractures of the peritrochanteric region was the presence of a very narrow canal, which prevented the use of a proximal femoral screw. To resolve this problem treatment of these fractures has been described in the references, both with plates and external fixation. Catagni et al.15 defended the benefits of external fixation as a fixation option in proximal femur fractures in patients with polio. The main advantage is the possibility of inserting Schanz screws at different angles and number, depending on the width of the femoral neck and the width of the canal. The main disadvantage in this specific group is the potential interference when the patient is a regular use of orthotics (Fig. 2G).

There are several authors16 who defend the use of locking compression plates in these fractures, since they may be adjusted to the shape of the bone and are indicated in osteoporotic bone.

Current evidence17 supports the use of sliding screw hip plates for fixing the most common extracapsular hip fractures. In our experience, the main problem for use is the discrepancy in size between the femur and plate and the need for shorter than usual cephalic screws. Since one of the most common problems is this discrepancy, internal fixation devices designed for the paediatric patient could be included in the preoperative planning. In this way, several plates designed for paediatric hip surgery available in different angulations (from 100° to 140°), would be a good treatment option for internal fixation of extracapsular hip fractures in these patients.18

Although intramedullary screwing was possible in our series for the majority of patients, it may be technically impossible or contraindicated in this population due to the presence of previous deformities or a narrow canal. In these cases, excessive reaming intended to make the standard femoral screw smaller may lead to heat-induced necrosis of the bone.19

In these cases, paediatric screws, designed for use in teenagers and adult patients small in stature, may be recommended.20

When these paediatric screws are not available, the new generations of intramedullary screws with multiple locking options in different planes in the proximal and distal end may be indicated in selected cases. Lee et al.21 reported the use of a tibia screw as a treatment option for femur fractures with a narrow medullary canal, highlighting the importance of a preoperative assessment of the medullary canal.

In cases of extremely narrow canals, Gupta et al.22 match the long bones of the patient with polio to long paediatric bones, and describe the use of elastic endomedullary nailing systems in the femur as a reasonable option in these patients.

Although osteosynthesis with minimally invasive precontoured locking plates in a patient with too narrow an intramedullary canal has gained popularity in recent years with satisfactory clinical results,23,24 in our experience, the main problem is the adaptation of the plate to the bone. The plates precontoured for an anatomical region are generally too large for these patients, and surgeons are forced to use smaller non-specific plates and to contour them. Wang et al.25 describes a series of 19 patients treated with precontoured locking plates, with no major complications. El-Sayed Khalil,16 in a series of 13 patients, describes complications to adapt the plates. In 6 cases, the small size of the femur only permitted the use of straight locking plates instead of those specifically designed for the proximal or distal femur, and in 6 cases the plate had to be moulded to fit around the bone shape.

Although osteosynthesis with a plate is technically more demanding than screwing, due to these problems, it has to be considered as a viable alternative in all of these patients if screwing is not possible.

Our study had several limitations. Firstly, it was a retrospective descriptive study, with no group control, and our results would need confirming through a more extensive series. Secondly, the sample of each fracture types is small, due to the low rate of these fractures. However, compared with the current literature this series was large, and met its objective in describing the main complications of surgical treatment of fractures in this population group.

The authors declare that no experiments have been conducted on humans or animals for this research study.

The authors declare that no patient data appear in this article.

The authors declare that no patient data appear in this article.