Neck of femur fracture

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Neck of femur fractures (NOF) are common injuries sustained by older patients who are both more likely to have unsteadiness of gait and reduced bone mineral density, predisposing to fracture. Elderly osteoporotic women are at greatest risk.

Epidemiology

Incidence is increasing as the proportion of the elderly population in many countries increases ⁴. In patients aged between 65 and 99, femoral neck and intertrochanteric fractures occur with approximately the same frequency ⁷.

Pathology

Classification

Femoral neck fractures are a subset of proximal femoral fractures. The femoral neck is the weakest part of the femur.

Since disruption of blood supply to the femoral head is ~~dependant~~dependent on the type of fracture and causes significant morbidity, the diagnosis and classification of these fractures is important. There are three types:

subcapital: femoral head/neck junction
transcervical: midportion of femoral neck
basicervical: base of femoral neck

~~Most significantly, subcapital~~Subcapital and transcervical fractures are considered intracapsular ~~while~~fractures. While there is disagreement in the literature as to whether basicervical fractures are ~~considered~~truly intracapsular or extracapsular, they should usually be treated like extracapsular fractures ¹⁴.

Further, severity of a subcapital fracture is graded by the Garden classification of hip fractures.

Mechanism

Most commonly ⁹:

falls in the elderly
significant trauma (e.g. motor vehicle collisions) in younger patients

In elderly patients, the mechanism of injury various from falls directly onto the hip to a twisting mechanism in which the patient’s foot is planted and the body rotates. There is generally deficient elastic resistance in the fractured bone ⁸.

The mechanism in young patients is predominantly axial loading during high force trauma ⁹, with an abducted hip during injury causing a neck of femur fracture and an adducted hip causing a hip fracture-dislocation.

Radiographic features

Plain radiographs (sensitivity 93-98%) is the first-line investigation for suspected NOF fractures. In patients with a suspected occult NOF fracture, MRI (sensitivity 99-100%) is recommended by many institutions as the second-line test if available within 24 hours, with CT or nuclear medicine bone scan third-line ^17,18. However, a recent study reports that thin-slice MDCT is as sensitive as MRI ¹⁹.

Plain radiograph

Shenton’s line disruption: loss of contour between normally continuous line from medial edge of femoral neck and inferior edge of the superior pubic ramus
lesser trochanter is more prominent due to external rotation of femur
femur often positioned in flexion and external rotation (due to unopposed iliopsoas)
asymmetry of lateral femoral neck/head
sclerosis in fracture plane
smudgy sclerosis from impaction
bone trabeculae angulated
nondisplaced fractures may be subtle on x-ray

Report checklist

AP pelvis and lateral hip should be viewed because pelvic fractures can mimic clinical features of hip fracture
trace Shenton’s line
assess for symmetry, particularly note lesser trochanter (may indicate external rotation)
bone trabeculae
sclerosis
smudge

Treatment and prognosis

Treatment of neck of femur fractures is important. Significant complications such as avascular necrosis and non-union are very common without surgical intervention. The treatment options include non-operative management, internal fixation or prosthetic replacement.

Internal fixation can be performed with multiple pins, intramedullary hip screw (IHMS), crossed screw-nails or compression with a dynamic screw and plate ⁹. Replacing the femoral head is achieved with either hemiarthroplasty and total hip arthroplasty.

The high morbidity and mortality associated with hip and pelvic fractures after trauma has been well documented. Prognosis is varied but is complicated by advanced age, as hip fractures increase the risk of death and major morbidity in the elderly ^5-6,8.

The risk of avascular necrosis (AVN) depends on the type of fracture. The Delbet classification correlates with the risk of AVN ^12,13:

type 1 (transphyseal): ~90% risk of AVN
type 2 (subcapital): ~50% risk of AVN
type 3 (basicervical/transcervical): ~25% risk of AVN
type 4 (intertrochanteric): ~10% risk of AVN

As a general rule, internal fixation is recommended for young, otherwise, fit patients with small risk for AVN. While prosthetic replacement is reserved for fractures with a high risk of AVN and the elderly ¹⁰.

-</h5>Femoral neck fractures are a subset of <a href="/articles/proximal-femoral-fractures">proximal femoral fractures</a>. The <a href="/articles/femoral-neck">femoral neck</a> is the weakest part of the <a href="/articles/femur">femur</a>.Since disruption of blood supply to the <a href="/articles/femoral-head">femoral head</a> is dependant on the type of fracture and causes significant morbidity, diagnosis and classification of these fractures is important. There are three types:<ul>
+</h5>Femoral neck fractures are a subset of <a href="/articles/proximal-femoral-fractures">proximal femoral fractures</a>. The <a href="/articles/femoral-neck">femoral neck</a> is the weakest part of the <a href="/articles/femur">femur</a>.Since disruption of blood supply to the <a href="/articles/femoral-head">femoral head</a> is dependent on the type of fracture and causes significant morbidity, the diagnosis and classification of these fractures is important. There are three types:<ul>
-</ul>Most significantly, subcapital and transcervical fractures are considered intracapsular while basicervical fractures are considered extracapsular 14.Further, severity of a subcapital fracture is graded by the <a href="/articles/garden-classification-of-hip-fractures">Garden classification of hip fractures</a>.<h5>Mechanism</h5>Most commonly 9:<ul>
+</ul>Subcapital and transcervical fractures are considered intracapsular fractures. While there is disagreement in the literature as to whether basicervical fractures are truly intracapsular or extracapsular, they should usually be treated like extracapsular fractures 14.Further, severity of a subcapital fracture is graded by the <a href="/articles/garden-classification-of-hip-fractures">Garden classification of hip fractures</a>.<h5>Mechanism</h5>Most commonly 9:<ul>
-</ul>In elderly patients, the mechanism of injury various from falls directly onto the hip to a twisting mechanism in which the patient’s foot is planted and the body rotates. There is generally deficient elastic resistance in the fractured bone 8.The mechanism in young patients is predominantly axial loading during high force trauma 9, with an abducted hip during injury causing a neck of femur fracture and an adducted hip causing a hip fracture-dislocation. <!--[if gte mso 9]><xml>
+</ul>In elderly patients, the mechanism of injury various from falls directly onto the hip to a twisting mechanism in which the patient’s foot is planted and the body rotates. There is generally deficient elastic resistance in the fractured bone 8.The mechanism in young patients is predominantly axial loading during high force trauma 9, with an abducted hip during injury causing a neck of femur fracture and an adducted hip causing a hip fracture-dislocation.<!--[if gte mso 9]><xml>
~~-<li>femur often positioned in flexion and external rotation (due to unopposed iliopsoas) </li>~~
+<li>femur often positioned in flexion and external rotation (due to unopposed iliopsoas)</li>
~~-<li>smudgy sclerosis from impaction </li>~~
+<li>smudgy sclerosis from impaction</li>
-</ul><h4>Treatment and prognosis</h4>Treatment of neck of femur fractures is important. Significant complications such as avascular necrosis and non-union are very common without surgical intervention. The treatment options include non-operative management, internal fixation or prosthetic replacement.Internal fixation can be performed with multiple pins, <a href="/articles/intramedullary-hip-screw">intramedullary hip screw</a> (IHMS), crossed screw-nails or compression with a <a href="/articles/dynamic-hip-screw">dynamic screw and plate</a> 9. Replacing the femoral head is achieved with either <a href="/articles/hip-hemiarthroplasty">hemiarthroplasty</a> and <a href="/articles/total-hip-arthroplasty">total hip arthroplasty</a>.The high morbidity and mortality associated with hip and pelvic fractures after trauma has been well documented. Prognosis is varied but is complicated by advanced age, as hip fractures increase the risk of death and major morbidity in the elderly 5-6,8.The risk of <a title="Avascular necrosis of the hip" href="/articles/avascular-necrosis-of-the-hip">avascular necrosis</a> (AVN) depends on the type of fracture. The <a href="/articles/delbet-classification-of-proximal-femoral-fractures">Delbet classification</a> correlates with the risk of AVN 12,13:<ul>
+</ul><h4>Treatment and prognosis</h4>Treatment of neck of femur fractures is important. Significant complications such as avascular necrosis and non-union are very common without surgical intervention. The treatment options include non-operative management, internal fixation or prosthetic replacement.Internal fixation can be performed with multiple pins, <a href="/articles/intramedullary-hip-screw">intramedullary hip screw</a> (IHMS), crossed screw-nails or compression with a <a href="/articles/dynamic-hip-screw">dynamic screw and plate</a> 9. Replacing the femoral head is achieved with either <a href="/articles/hip-hemiarthroplasty">hemiarthroplasty</a> and <a href="/articles/total-hip-arthroplasty">total hip arthroplasty</a>.The high morbidity and mortality associated with hip and pelvic fractures after trauma has been well documented. Prognosis is varied but is complicated by advanced age, as hip fractures increase the risk of death and major morbidity in the elderly 5-6,8.The risk of <a href="/articles/avascular-necrosis-of-the-hip">avascular necrosis</a> (AVN) depends on the type of fracture. The <a href="/articles/delbet-classification-of-proximal-femoral-fractures">Delbet classification</a> correlates with the risk of AVN 12,13:<ul>

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