Most hip fractures are treated surgically by
implanting a
prosthesis. Surgical treatment outweighs the risks of nonsurgical treatment which requires extensive bedrest.
Regional nerve blocks are useful for pain management in hip fractures. Peripheral nerve blocks may reduce pain on movement and delirium, may improve time to first mobilisation, and may reduce the risk of postoperative lower respiratory tract infection. Surgery can be performed under general anaesthesia or with neuraxial techniques (spinal anaesthesia) – choice is based on surgical and patient factors, as outcomes such as mortality and post-procedure complications including pneumonia, MI, stroke or delirium, are not affected by anaesthetic technique. This has led to a 2025 evidence update finding that there is no significant difference between spinal and general anesthesia for hip fracture surgery outcomes, including death, walking recovery, delirium, or hospital stay, contradicting earlier studies that suggested spinal anesthesia was superior.
Red blood cell transfusion is common for people undergoing hip fracture surgery due to the blood loss sustained during surgery and from the injury. The benefits of giving blood when the hemoglobin is less than 10 g/dL versus less than 8 g/dL are not clear. Waiting until the hemoglobin was less than 8 g/dL or the person had symptoms may increase the risk of heart problems. Intravenous iron is used in some centres to encourage an increase in haemoglobin levels, but it not known whether this makes a significant difference to outcomes that matter to patients. 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 now limited to only the most medically unstable or demented patients or those who are nonambulatory at baseline with minimal pain during transfers.
Intracapsular fractures s 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. Fractures managed by
closed reduction can possibly be treated by percutaneously inserted screws. In elderly patients with displaced or intracapsular fractures surgeons may decide to perform a
hemiarthroplasty, replacing the broken part of the bone with a metal implant. However, in elderly people who are medically well and still active, a
total hip replacement may be indicated. Independently mobile older adults with hip fractures may benefit from a total hip replacement instead of hemiarthroplasty. Traction is contraindicated in femoral neck fractures due to it affecting blood flow to the head of the femur. The latest evidence suggests that there may be little or no difference between screws and fixed angle plates as internal fixation implants for intracapsular hip fractures in older adults. The findings are based on low quality evidence that can't firmly conclude major difference in hip function, quality of life, and additional surgery.
Trochanteric fracture A trochanteric fracture, below the neck of the femur, has a good chance of healing.
Closed reduction may not be satisfactory and
open reduction then becomes necessary. The use of open reduction has been reported as 8-13% among pertrochanteric fractures, and 52% among intertrochanteric fractures. Both intertrochanteric and pertrochanteric fractures may be treated by a
dynamic hip screw and plate, or an
intramedullary rod. A lateral incision over the trochanter is made and a cerclage wire is placed around the fracture for reduction. Once reduction has been achieved a guide canal for the nail is made through the proximal cortex and medullary. The nail is inserted through the canal and is fixated proximally and distally with screws. X-rays are obtained to ensure proper reduction and placement of the nail and screws are achieved.
Rehabilitation Rehabilitation has been proven to increase
daily functional status. Forty percent of individuals with hip fractures are also diagnosed with
dementia or
mild cognitive impairment which often results in poorer post-surgical outcomes. In such cases enhanced rehabilitation and care models have been shown to have limited positive effects in reducing delirium and hospital length of stay. A updated Cochrane review (2022) involving over 4000 patients found evidence that gait training, balance and functional tasks training to be particularly effective when compared to conventional care. There is also moderate-certainty evidence that rehabilitation after hip fracture surgery, when delivered by a multidisciplinary team and supervised by an appropriate medical specialist, results in fewer cases of 'poor outcome', like death and deterioration in residential status. There is evidence early mobilisation helps. A UK study analysing data on over 135,000 people who had surgery for hip fracture found that people who get out of bed on the day of hip surgery, or the day after, were twice as likely to leave hospital within 30 days.
Nutrition supplementation Oral supplements with non-protein energy, protein, vitamins and minerals started before or early after surgery may prevent complications during the first year after hip fracture in aged adults; without seemingly effects on mortality.
Surgical complications 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. ==Prognosis==