Hip fracture

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This article is about proximal femoral fractures. For fractures of the hip bone, see Pelvic fracture.
Hip fracture
Classification and external resources
File:Rt NOF.jpg
AP hip radiograph demonstrating an intertrochanteric fracture
ICD-10 S72.0
AO 31-A1 - 31-C3
eMedicine 825363
MeSH 68006620

A hip fracture is a femoral fracture[1] that occurs in the proximal end of the femur (the long bone running through the thigh), near the hip.

The term "hip fracture" is commonly used to refer to four different fracture patterns and is often due to osteoporosis; in the vast majority of cases, a hip fracture is a fragility fracture due to a fall or minor trauma in someone with weakened osteoporotic bone. Most hip fractures in people with normal bone are the result of high-energy trauma such as car accidents, falling from heights, or sports injuries.

In the UK, the mortality following a fractured neck of femur is between 20% and 35% within one year in people aged 82, ± 7 years, of whom 80% were women.[2]

Signs and symptoms

The classic clinical presentation of a hip fracture is an elderly patient who sustained a low-energy fall and now has pain and is unable to bear weight. On examination, the affected extremity is often shortened and unnaturally, externally rotated compared to the unaffected leg.

Risk factors

Hip fracture following a fall is likely to be a pathological fracture. The most common causes of weakness in bone are:

Mechanism

X-ray of the hip joint.

Functional Anatomy

The hip joint, an enarthrodial joint, can be described as a ball and socket joint. The femur connects at the acetabulum of the pelvis and projects laterally before angling medially and inferiorly to form the knee. Although this joint has three degrees of freedom, it is still stable due to the interaction of ligaments and cartilage. The labrum lines the circumference of the acetabulum to provide stability and shock absorption. Articular cartilage covers the concave area of acetabulum, providing more stability and shock absorption. Surrounding the entire joint itself is a capsule secured by the tendon of the psoas muscle and three ligaments. The iliofemoral, or Y, ligament is located anteriorly and serves to prevent hip hyperextension. The pubofemoral ligament is located anteriorly just underneath the iliofemoral ligament and serves primarily to resist abduction, extension, and some external rotation. Finally the ischiofemoral ligament on the posterior side of the capsule resists extension, adduction, and internal rotation. When considering the biomechanics of hip fractures, it is important to examine the mechanical loads the hip experiences during low energy falls.

Biomechanics

The hip joint is unique in that it experiences combined mechanical loads. An axial load along the shaft of the femur results in compressive stress. Bending load at the neck of the femur causes tensile stress along the upper part of the neck and compressive stress along the lower part of the neck. While osteoarthritis and osteoporosis are associated with bone fracture as we age, these diseases are not the cause of the fracture alone. In a study conducted in Umea, Sweden, Bergsten et al. discovered that low energy falls from heights of one meter or less were the leading cause of hip fracture in the elderly adult population [3] . Taking into account that falls were the leading cause of hip fracture, Hwang et al. studied how the manner in which a fall occurs affects the chances of hip fracture. In their study, they found three contributing factors, with fall direction being the strongest predictor.[4] During a sideways fall, the chances of hip fracture see a 15-fold and 12-fold increase in elderly males and females, respectively. This is likely due to a mechanical load experienced by bones weakened by osteoporosis.

Diagnosis

Intertrochanteric hip fracture in a 17-year-old male
File:Shf ohne dislokation medial ap.jpg
Medial fracture in a 92-year-old woman

X-rays of the affected hip usually make the diagnosis obvious; AP (anteroposterior) and lateral views should be obtained.

In situations where a hip fracture is suspected but not obvious on x-ray, an MRI is the next test of choice. If an MRI is not available or the patient can not be placed into the scanner a CT may be used as a substitute. MRI sensitivity for radiographically occult fracture is greater than CT. Bone scan is another useful alternative however substantial drawbacks include decreased sensitivity, early false negative results, and decreased conspicuity of findings due to age related metabolic changes in the elderly.

As the patients most often require an operation, full pre-operative general investigation is required. This would normally include blood tests, ECG and chest x-ray.

Types

Capsule Area Classification
Intracapsular femoral head AO 31-C1 - 31-C3 Pipkin classification
femoral neck Subcapital AO 31-B1 - 31-B3 Garden classification, Pauwel's classification
Transcervical
Basicervical
Extracapsular Intertrochanteric AO 31-A1 - 31-A3 Evans' classification (1949), Ramadier's classification (1956), Boyd and Griffin's classification (1949), Decoulx & Lavarde's classification (1969), Ender's classification (1970), Tronzo's classification (1973), Evans-Jensen classification (1975), Deburge's classification (1976), Briot's classification (1980)
Subtrochanteric AO 32 Seinsheimer classification

Prevention

Hip protectors appear to decrease the number of hip fractures among the elderly.[5] They; however, are not often used.[5]

Management

Most hip fractures are treated by implanting an orthosis. The surgery is a major stress, particularly in the elderly. Pain is significant, resulting in immobilization. Since prolonged immobilization can be more of a health risk than the surgery itself, post-op people are encouraged to become mobile as soon as possible, often with the assistance of physical therapy. Skeletal traction pending surgery is not supported by the evidence.[6] Regional nerve blocks are useful for pain management in hip fractures.[7]

If operative treatment is refused or the risks of surgery are considered to be too high the main emphasis of treatment is on pain relief. Skeletal traction may be considered for long term treatment. Aggressive chest physiotherapy is needed to reduce the risk of pneumonia and skilled rehabilitation and nursing to avoid pressure sores and DVT/pulmonary embolism Most people will be bedbound for several months. Non-operative treatment is no longer an alternative in developed countries with modern health care.[citation needed]

Intracapsular fractures

Fracture treated with cannulated screws

For low-grade fractures (Garden types 1 and 2), standard treatment is fixation of the fracture in situ with screws or a sliding screw/plate device. This treatment can also be offered for displaced fractures after the fracture has been reduced...

In elderly patients with displaced or intracapsular fractures many surgeons prefer to undertake a hemiarthroplasty, replacing the broken part of the bone with a metal implant. The advantage is that the patient can mobilize without having to wait for healing.

In elderly patients who are medically well and still active, a total hip replacement may be indicated.

Traction is contraindicated in femoral neck fractures due to it affecting blood flow to the head of the femur.[8]

Intertrochanteric fracture

Fracture supported by dynamic hip screw

An intertrochanteric fracture, below the neck of the femur, has a good chance of healing. Treatment involves stabilizing the fracture with a lag screw and plate device to hold the two fragments in position. A large screw is inserted into the femoral head, crossing through the fracture; the plate runs down the shaft of the femur, with smaller screws securing it in place.

The fracture typically takes 3–6 months to heal. As it is only common in elderly, removal of the dynamic hip screw is usually not recommended to avoid unnecessary risk of second operation and the increased risk of re-fracture after implant removal. The most common cause for hip fractures in the elderly is osteoporosis; if this is the case, treatment of the osteoporosis can well reduce the risk of further fracture. Only young patients tend to consider having it removed; the implant may function as a stress riser, increasing the risk of a break if another accident occurs.

Subtrochanteric fractures

Subtrochanteric fractures may be treated with an intramedullary nail or a screw-plate construction and may require traction pre-operatively, though this practice is uncommon. It is unclear if any specific type of nail results in different outcomes than any other type of nail.[9]

Rehabilitation

Rehabilitation has been proven to increase daily functional status. It is unclear if the use of anabolic steroids effects recovery.[10]

Complications

Nonunion, failure of the fracture to heal, is common (20%) in fractures of the neck of the femur, but much more rare with other types of hip fracture. The rate of nonunion is increased if the fracture is not treated surgically to immobilize the bone fragments.

Malunion, healing of the fracture in a distorted position, is very common. The thigh muscles tend to pull on the bone fragments, causing them to overlap and reunite incorrectly. Shortening, varus deformity, valgus deformity, and rotational malunion all occur often because the fracture may be unstable and collapse before it heals. This may not be as much of a concern in patients with limited independence and mobility.

Avascular necrosis of the femoral head occurs frequently (20%) in fractures of the neck of femur, because the blood supply is interrupted. It is rare after intertrochanteric fractures.

Hip fractures rarely result in neurological or vascular injury.

Surgical

Deep or superficial wound infection has an approximate incidence of 2%. It is a serious problem as superficial infection may lead to deep infection. This may cause infection of the healing bone and contamination of the implants. It is difficult to eliminate infection in the presence of metal foreign bodies such as implants. Bacteria inside the implants are inaccessible to the body's defence system and to antibiotics. The management is to attempt to suppress the infection with drainage and antibiotics until the bone is healed. Then the implant should be removed, following which the infection may clear up.

Implant failure may occur; the metal screws and plate can break, back out, or cut out superiorly and enter the joint. This occurs either through inaccurate implant placement or if the fixation does not hold in weak and brittle bone. In the event of failure, the surgery may be redone, or changed to a total hip replacement.

Mal-positioning: The fracture can be fixed and subsequently heal in an incorrect position; especially rotation. This may not be a severe problem or may require subsequent osteotomy surgery for correction.

Medical

Many people are unwell before breaking a hip; it is common for the break to have been caused by a fall due to some illness, especially in the elderly. Nevertheless, the stress of the injury, and a likely surgery, increases the risk of medical illness including heart attack, stroke, and chest infection.

Blood clots may result. Deep venous thrombosis (DVT) is when the blood in the leg veins clots and causes pain and swelling. This is very common after hip fracture as the circulation is stagnant and the blood is hypercoagulable as a response to injury. DVT can occur without causing symptoms. A pulmonary embolism (PE) occurs when clotted blood from a DVT comes loose from the leg veins and passes up to the lungs. Circulation to parts of the lungs are cut off which can be very dangerous. Fatal PE may have an incidence of 2% after hip fracture and may contribute to illness and mortality in other cases.

Mental confusion is extremely common following a hip fracture. It usually clears completely, but the disorienting experience of pain, immobility, loss of independence, moving to a strange place, surgery, and drugs combine to cause delirium or accentuate pre-existing dementia.

Urinary tract infection (UTI) can occur. Patients are immobilized and in bed for many days; they are frequently catheterised, commonly causing infection.

Prolonged immobilization and difficulty moving make it hard to avoid pressure sores on the sacrum and heels of patients with hip fractures. Whenever possible, early mobilization is advocated; otherwise, alternating pressure mattresses should be used.

References:[11][12][13]

Prognosis

Hip fractures are very dangerous episodes especially for elderly and frail patients. The risk of dying from the stress of the surgery and the injury in the first thirty days is about 10%. At one year after fracture this may reach 30%.[14] If the condition is untreated the pain and immobility imposed on the patient increase that risk. Problems such as pressure sores and chest infections are all increased by immobility. The prognosis of untreated hip fractures is very poor.

Post operation

Among those affected over the age of 65, 40% are transferred directly to long-term care facilities, long-term rehabilition facilities, or nursing homes; most of those affected require some sort of living assistance from family or home-care providers. 50% permanently require walkers, canes, or crutches for mobility; all require some sort of mobility assistance throughout the healing process.

Among those affected over the age of 50, approximately 25% die within the next year due to complications such as blood clots (deep venous thrombosis, pulmonary embolism), infections, and pneumonia.[citation needed]

Patients with hip fractures are at high risk for future fractures including hip, wrist, shoulder, and spine. After treatment of the acute fracture, the risk of future fractures should be addressed. Currently, only 1 in 4 patients after a hip fracture receives treatment and work up for osteoporosis, the underlying cause of most of the fractures. Current treatment standards include the starting of a bisphosphonate to reduce future fracture risk by up to 50%.

Epidemiology

Hip fractures are seen globally and are a serious concern at the individual and population level. By 2050 it is estimated that there will be 6 million cases of hip fractures worldwide.[15] One study published in 2001 found that in the US alone, 310,000 individuals were hospitalized due to hip fractures, which can account for 30% of Americans who were hospitalized that year.[16] Another study found that in 2011, femur neck fractures were among the most expensive conditions seen in US hospitals, with an aggregated cost of nearly $4.9 billion for 316,000 inpatient hospitalizations.[17] Falling, poor vision, weight and height are all seen as risk factors. Falling is one of the most common risk factors for hip fractures. Approximately 90% of hip fractures are attributed to falls from standing height.[18]

Given the high morbidity and mortality associated with hip fractures, and the cost to the health system, in England and Wales the National hip fracture database is a mandatory nationwide audit of care and treatment of all hip fractures.

Population

All populations experience hip fractures but numbers vary with race, gender, and age. Women suffer three times as many hip fractures as men.[19] In a lifetime, men have an estimated 6% risk whereas postmenopausal women have an estimated 14% risk of suffering a hip fracture.[20] These statistics provide insight over a lifespan and conclude that women are twice as likely to suffer a hip fracture. The overwhelming majority of hip fractures occur in white individuals while blacks and Hispanics have a lower rate of them. This may be due to their generally greater bone density and also because whites have longer overall lifespan and higher likelihood of reaching an advanced age where the risk of breaking a hip goes up.[20] Deprivation is also a key factor: in England it has been found that people in the poorest parts of the country are more likely to fracture a hip and less likely to recover well than those in the least deprived areas.[21]

Age related

Age is the most dominant factor in hip fracture injuries, with most cases occurring in people over 75. The increase of age is related to the increase of hip fractures incidences.[15] Falls are the most common cause of hip fractures, around 30-60% of older adults fall each year. This increases the risk for hip fracture and leads to the increase risk of death in older individuals, the rate of one year mortality is seen from 12-37%.[22] For those remaining patients who do not suffer from mortality, half of them need assistance and cannot live independently. Also, older adults sustain hip fractures because of osteoporosis, which is a degenerative disease due to age and decrease in bone mass. The average age for suffering a hip fracture is 77 years old for women and 72 years old for men.[23] This shows how closely age is related to hip fractures.

References

  1. TheFreeDictionary > hip fracture Citing: McGraw-Hill Concise Dictionary of Modern Medicine. Copyright 2002
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  17. Torio CM, Andrews RM. National Inpatient Hospital Costs: The Most Expensive Conditions by Payer, 2011. HCUP Statistical Brief #160. Agency for Healthcare Research and Quality, Rockville, MD. August 2013. [1]
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  23. Baumgaertner MR, Higgins TF. (2002) Femoral Neck Fractures. Rockwood & Green’s Fractures in Adults. 1579-1586

External links

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