Posterior Hip Dislocation – Causes, Symptoms, Treatment

Posterior Hip Dislocation – Causes, Symptoms, Treatment

Posterior Hip Dislocation in approximately 90% of hip dislocation patients, the thighbone is pushed out of the socket in a backward direction. This is called a posterior dislocation. A posterior dislocation leaves the lower leg in a fixed position, with the knee and foot rotated in toward the middle of the body.

What Is Hip Dislocations?/Hip Dislocations after trauma are frequently encountered in the emergency setting. A significant force is generally required to dislocate a hip as this ball and socket joint is quite stable due to its bony structure and the associated muscular and ligamentous attachments. Due to the required force, hip dislocations often are associated with other significant injuries; for example, fractures are found in over 50% of these patients. The majority of all hip dislocations are due to motor vehicle accidents. Posterior hip dislocations are the most common type, with anterior occurring only about 10% of the time. These injuries are true orthopedic emergencies and should be reduced expediently. The majority will resolve with a closed reduction in the emergency department.

Hip instability is a loose or wobbly hip joint that’s usually caused by problems with the ligaments (the bands of connective tissue that hold bones or joints together).

Anatomy

The hip is a ball-and-socket joint that is inherently stable because of its bony geometry and strong ligaments, allowing it to resist significant increases in mechanical stress. Anatomic components contributing to the hip’s stability include the depth of the acetabulum, the labrum, joint capsule, muscular support, and surrounding ligaments. The major ligaments stabilizing the joint from directional forces include the iliofemoral ligament located anteriorly and the iliofemoral ligament located posteriorly. Because the anterior ligaments are stronger, trauma to the hip commonly presents as a posterior dislocation when discovered (90% of cases). Dynamic muscular support includes the rectus femoris, gluteal muscles, and short external rotators. An understanding of the vasculature is important because trauma to the hip can displace the femoral head and interrupt the blood supply, leading to avascular necrosis (AVN). Branches from the external iliac artery form a ring around the neck of the femur, with the lateral femoral circumflex artery going anteriorly and the medial femoral circumflex artery going posteriorly. The major blood supply to the femoral head is the medial femoral circumflex artery.

Furthermore, the hip joint capsule is composed of dense fibers that preclude extreme hip extension. The main blood supply to the femoral head arises from the medial and lateral femoral circumflex arteries, which are branches of the profound femoral artery. Branches off of this supply enter the bone just inferior to the femoral head after ascending along the femoral neck. This arrangement allows for a plentiful but tenuous blood supply to the femoral neck, especially when considering a traumatic hip injury to the femoral head. The sciatic nerve exits the pelvis at the greater sciatic notch and lays just inferno-posterior to the hip joint. The femoral nerve lies just anterior to the hip joint.

Types of Hip Dislocations

There are three types of anterior hip dislocations: obturator, an inferior dislocation due to simultaneous abduction; hip flexion; and external rotation.

When there is a hip dislocation, the femoral head is pushed either backward out of the socket, or forward.

  • Posterior dislocation – In approximately 90% of hip dislocation patients, the thighbone is pushed out of the socket in a backward direction. This is called a posterior dislocation. A posterior dislocation leaves the lower leg in a fixed position, with the knee and foot rotated in toward the middle of the body.
  • Anterior dislocation – When the thighbone slips out of its socket in a forward direction, the hip will be bent only slightly, and the leg will rotate out and away from the middle of the body. Anterior hip dislocation (~10%)
    • inferior (obturator) hip dislocation
    • superior (pubic/iliac) hip dislocation (rare)
  • Central dislocation – Central dislocation is an outdated term for a medial displacement of the femoral head into a displaced acetabular fracture.[rx] It is no longer used.
  • Superior dislocations – due to simultaneous abduction, hip extension, and external rotation.
  • Superior anterior dislocations  – classically present with the hip extended and externally rotated while inferior anterior dislocations generally present with the hip abducted and externally rotated.

Epstein classification of anterior hip dislocations

Type 1: Superior dislocations

  • 1A: No associated fracture
  • 1B: Associated fracture or impaction of the femoral head
  • 1C: Associated fracture of the acetabulum

Type 2: Inferior dislocations

  • 2A: No associated fracture
  • 2B: Associated fracture or impaction of the femoral head
  • 2C: Associated fracture of the acetabulum

A comprehensive classification of hip dislocations

This system includes both anterior and posterior dislocations and incorporated pre- and –post findings.

  • Type I – No significant associated fracture, no clinical instability after reduction
  • Type II – Irreducible dislocation (after attempting under general anesthesia) without significant femoral head or acetabular fracture
  • Type III – Unstable hip after reduction or with incarcerated fragments of cartilage, labrum, or bone
  • Type IV – Associated acetabular fracture requiring reconstruction to restore hip stability or joint congruity
  • Type V – Associated femoral head or neck injury

Causes of Hip Dislocations

  • Acquired – Acquired hip dislocation is normally associated with high-speed trauma, with motor vehicle collisions account half of the dislocation with other causes such as falls and sports injuries, less common. Hip dislocation is the second most common complication of hip joint replacements and occurs in ~5% (range 0.5-10%) of patients with ~60% of dislocations being recurrent.
  • Congenital – Congenital hip dislocation is now considered part of the spectrum of developmental dysplasia of the hip (see the article for further information).
  • Forceful thrust – Anterior hip dislocations are usually the result of a significant force, such as trauma, or from a poorly positioned total hip arthroplasty.
  • In a traumatic setting – the hip is forced into abduction with external rotation of the thigh and often related to a motor vehicle accident or fall.
  • Falls – Falling onto an outstretched hand is one of the most common causes of hip dislocation.
  • Sports injuries – Many hip dislocation occurs during contact sports or sports in which you might fall onto an outstretched hand — such as in-line skating or snowboarding.
  • Motor vehicle crashes – Motor vehicle crashes can cause dislocation of the hip.
  • Have osteoporosis –  a disease that weakens your bones
  • Eave low muscle mass or poor muscle strength – or lack agility and have poor balance (these conditions make you more likely to fall)
  • Walk or do other activities in the snow or on the ice – or do activities that require a lot of forwarding momenta, such as in-line skating and skiing
  • Wave an inadequate intake of calcium or vitamin D
  • Football or soccer, especially on artificial turf
  • Rugby
  • Horseback riding
  • Hockey

Symptoms of Hip Dislocations

In an accident victim, a traumatic hip dislocation can cause the following symptoms

  • There is severe hip pain, especially when the leg is moved.
  • The injured leg is shorter than the uninjured leg.
  • The injured leg lies in an abnormal position. In most cases, the leg is bent at the hip, turned inward and pulled toward the middle of the body.
  • There can be swelling at the site of the injury. The surrounding skin is puffy.
  • Hip immobility Patients can experience difficulty moving the affected hip and so the inability to walk because of the pain and swelling.
  • Hear snapping, clicking or popping sounds or sensations (crepitus) in any part of the hip
  • Experience hip pain or pain in the groin
  • Can’t put weight on your hip
  • Can no longer walk normally
  • The affected limb is shortened, adducted, and internally rotated, with the hip and knee in slight flexion
  • Pain in the hip, buttock, and posterior leg
  • Loss of sensation in posterior leg and foot
  • Loss of dorsiflexion (peroneal branch) or plantar flexion (tibial branch)
  • Loss of deep tendon reflexes (DTRs) at the ankle
  • Local hematoma

Open Reduction

Diagnosis of Hip Dislocations

History and Physical

Patients with hip dislocations generally arrive in severe pain in the hip area; however, reports of pain in the knee, lower back, thigh, or even lower abdomen or pelvis are not uncommon. It is important to note that additional bony leg injuries may alter this classic presentation.

  • Neurovascular exam –  is also required. Injuries to the femoral artery, vein, or nerve may rarely occur with anterior dislocations and should also be sought out. Femoral nerve motor function may be difficult to assess fully due to pain and the nature of this injury; however, sensory deficits over the anteromedial aspect of the thigh and medial side of the leg and foot should raise suspicion. Sciatic nerve injuries occur more often with posterior dislocations; however, they should be ruled out in any hip dislocation or fracture. Due to the required mechanism of injury related to these dislocations, a full trauma evaluation for other associated injuries should be considered.
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Imaging

  • X-raysHip dislocations usually are obvious on standard AP (anteroposterior) images of the pelvis. However, complete imaging usually includes a cross-table lateral of the affected joint.  On a normal AP pelvis, the femoral heads should appear similar in size with symmetric joint spaces. The joint with an anterior dislocation will project a larger-appearing femoral head. A femoral neck fracture should be ruled out by this image prior to attempting reduction. Judet views (45 degree internal and external oblique views) may be of some help in evaluating for bone fragments and occult acetabular and femoral head and neck fractures.
  • Arthrogram – An arthrogram uses dye injected into the hip joint before X-rays or other scans. This dye helps your doctor clearly see details of the joint’s condition.
  • Computed tomography – CT (Computed tomography) is recommended after a successful, closed hip reduction to evaluate for occult fractures. It may also further elucidate the cause of postreduction joint space widening and find intra-articular bone fragments or soft tissue injury that may prevent appropriate joint articulation. Moreta et al. found loose bodies in 20% of the hips that underwent post-reduction CT.
  • MRI – MRI may be indicated to evaluate for soft tissue injuries and cartilaginous bodies that continue to cause issues after the acute period. Osteonecrosis also may be seen in the subacute period (4 to 8 weeks), and some have suggested that MRI is superior to CT for children with hip injuries as CT may miss unossified labrum and acetabular fractures.
  • Other Testing – Laboratory studies should be tailored to the individual patient; however, if significant blood loss is suspected due to femoral vessel injury, serial hemoglobin/hematocrit and a type and screen may be requested.

Treatment of Hip Dislocations

Non – Pharmacological

Immediately following the injury, the RICE method is recommended

  • Rest – Activities that cause hip pain, such as running or walking for long periods of time, should be avoided until pain and swelling go away. The activity that caused the injury should be avoided until fully recovered.
  • Ice – A person may wish to apply ice packs to the area to help reduce pain and swelling. Ice packs can be applied several times throughout the day for about 10 to 20 minutes at a time.
  • Compression – Swelling can be managed by wearing an elastic bandage around the affected hip.
  • Elevation – Keeping the knee elevated and supported above the waist—for example, sitting in a recliner or lying down with the knee propped up on pillows—may help with swelling.
  • Use crutches – to avoid weight-bearing. Crutches are not needed in all cases. Dispense crutches; allow weight-bearing as tolerated.

Medication

If pain is severe and intolerable following medicine may be considered to prescribe to control pain and healing.

Open Reduction

Indications for Open Reduction

  • A nonconcentric reduction (indicating a retained loose body or significant soft tissue injury preventing proper reduction)
  • An associated acetabular or femoral head fracture that will require an open repair
  • Femoral neck fracture
  • A dislocation that is not reducible by closed reduction techniques

Patients who do not warrant an open reduction should have an urgent closed reduction in the emergency department under procedural sedation.

Anterior Hip Dislocation Reduction Techniques

Allis Maneuver

The Allis Maneuver is the most common method performed and differs slightly from the Allis maneuver used for posterior hip reductions. The patient lies supine with the practitioner standing over them. An assistant stabilizes the pelvis by applying pressure over the bilateral anterior superior iliac spines. The practitioner holds the affected leg just below the knee and, while slightly flexing the hip, applies constant traction to the hip joint along the long axis. The hip may be internally rotated and adducted. A gentle lateral force to the thigh may be of some assistance. The reduction is performed until an audible click is heard, suggesting a successful reduction.

“Captain Morgan” Technique

The “Captain Morgan” Technique is a more novel approach named after the character on the spirit bottle. The patient lies supine with both the knee and hip flexed. The practitioner positioned their foot on the patient’s stretcher with their knee bent (hence the “Captain Morgan” moniker) and positioned behind the patient’s knee. The practitioner places a hand under the patient’s knee and the other on their ankle. With the first hand, the practitioner lifts the patient’s femur while plantar flexing their ankle to raise the patient’s femur. The practitioner then applies gentle downward pressure over the patient’s ankle. This “leverages” the hip back into place. Stabilization of the pelvis by a strap or an assistant may be helpful.

Reverse Bigelow Maneuver

The patient is positioned supine with the hip partially flexed and abducted. A firm jerk is then applied to the thigh. Another variation has the practitioner apply traction longitudinally with hip adducted and apply abrupt internal rotation and extension of the hip

Stimson Maneuver

This technique also is less frequently used due to difficult patient positioning; however, it is often suggested to be a less traumatic process. The patient is placed in the prone position with the affected leg allowed to hang from the side of the bed; the knee and hip are flexed while an assistant stabilizes the patient’s lower back. Traction is applied downward by the practitioner who is holding the leg just below the knee. This allows gravity to assist with the traction. Internal and external rotation are applied until a successful reduction is felt.

Closed Reduction for Posterior Dislocations

Allis Maneuver

The patient is in a supine position with the physician standing above the patient. The physician applies inline traction on the ipsilateral leg, flexing the ipsilateral knee to 90° while an assistant stabilizes the pelvis against the stretcher for counter traction. Gentle extension of the ipsilateral leg with external rotation as the hip reduces allows the femoral head to enter the acetabulum. An audible sound, or “clunk,” is heard with successful reduction.

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Allis maneuver

Bigelow Maneuver With the patient in the supine position, the physician grasps the ipsilateral limb at the ankle with one hand and places the free hand behind the knee. An assistant applies a downward force on the anterior superior iliac spine for counter traction. The physician applies inline longitudinal traction, flexing the patient’s knee to 90°. As the limb reduces, the physician applies gentle extension, abduction, and external rotation for the femoral head to move into the acetabulum. Physicians should stand on the side of the bed while performing this maneuver to enhance safety.

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Bigelow maneuver

Lefkowitz Maneuver The patient is in the supine position, and the physician stands to the side of the affected limb. The physician places his/her flexed knee under the patient’s ipsilateral knee in the popliteal fossa and his/her foot on the stretcher. With the patient’s knee flexed over the physician’s leg, the physician applies a gentle downward force on the leg until the hip is reduced.

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Lefkowitz maneuver

Captain Morgan Technique: The patient is supine, and the physician stands on the affected side. The pelvis is fixed and stabilized against the stretcher. The patient’s hip and knee are flexed to 90°, and the physician places his/her flexed knee under the ipsilateral knee in the popliteal fossa. The physician grasps the ipsilateral ankle with one hand and places the free hand under the ipsilateral knee, applying an upward force by plantar flexing the foot until the hip is reduced. Although similar to the Lefkowitz maneuver, the Captain Morgan maneuver utilizes the stabilization of the pelvis against the stretcher and the freehand underneath the ipsilateral knee.

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Captain Morgan technique

East Baltimore Lift The patient is supine. The physician stands on the affected side, and an assistant stands on the opposite side. The ipsilateral limb is flexed so the hip and knee are at 90°. With the physician and assistant facing the head of the bed, both place one arm underneath the knee of the ipsilateral hip, hooking their arms under the popliteal fossa and resting their hands on each other’s shoulders. With the physician stabilizing the pelvis with a free hand, a second assistant applies a downward force while the physician and first assistant apply an inline upward force with extension of their knees. As the limb reduces, the physician can also apply adduction, abduction, and internal and external rotation using the ipsilateral ankle. If only 2 people are available, this technique can still be completed. The physician uses the arm closest to the patient’s ipsilateral hip as the pivot and the other arm to grab the ipsilateral leg. The assistant stabilizes the pelvis while helping the physician apply inline traction to the ipsilateral limb by extending the legs until the hip is reduced

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East Baltimore lift

Howard Maneuver: The patient is supine, and both physicians and assistants stand on the affected side. The ipsilateral hip is flexed to 90°. The assistant grasps the thigh and applies a lateral traction force. A second assistant stabilizes the pelvis while the limb reduces. If a second assistant is not available, the first assistant stabilizes the pelvis as the physician holds the ipsilateral lower leg by the knee. The physician applies inline traction with internal and external rotation until the hip is reduced.

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Howard maneuver

Lateral Traction Method With the patient supine, the assistant wraps a cloth or his/her hands around the patient’s ipsilateral inner thigh. The physician applies a longitudinal force along the femur with the knee extended while the assistant pulls on the cloth to apply lateral traction. As the limb reduces, internal rotation can be used if needed

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Lateral traction method

Piggyback Method The patient is supine at the edge of the stretcher, and the ipsilateral hip is flexed to 90°. The physician places the patient’s knee on his/her shoulders and using the shoulder as a fulcrum, applies a downward force on the tibia to create an anteriorly directed force at the hip until it is reduced

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Piggyback method

Tulsa Technique/Rochester Method/Whistler Technique The patient is supine, and the physician stands on the affected side, placing the contralateral knee in 130° of flexion. The physician places his/her arm under the ipsilateral knee so the leg is flexed over the forearm and uses the same hand to grasp the contralateral knee. With the free hand, the physician fixes the ipsilateral ankle against the stretcher and applies downward traction using the ankle along with internal and external rotation until the hip is reduced

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Tulsa technique/Rochester method/Whistler technique

Skoff Maneuver The patient is in the lateral decubitus position with the ipsilateral limb facing up. The physician stands on the side the patient is facing. The limb is placed into 90° of hip flexion, 45° internal rotation, 45° adduction, and 90° of knee flexion. Lateral traction is provided as the assistant leans back in line with the femur. The physician then palpates the protrusion in the gluteal region and pushes the dislocated femoral head until the hip is reduced

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Skoff maneuver

Stimson Gravity Maneuver The patient is prone, with both hip and knees at 90° of flexion over the edge of the stretcher. With an assistant stabilizing the pelvis, the physician holds the ipsilateral knee and ankle and applies a downward pressure to the limb distal to the knee until the limb is reduced. The physician can apply internal and external rotation to assist in reduction. Caution must be taken with this technique, as a sedated patient in the prone position must have his/her airway continually monitored. Further caution must be taken to prevent the patient from falling off the stretcher

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Stimson gravity maneuver

Traction-Countertraction Maneuver This technique is a modification of the Skoff lateral reduction maneuver and requires 2 people. The patient is in the lateral decubitus position with the ipsilateral limb facing up. An assistant moves the affected limb into 90° of hip flexion, 45° internal rotation, 45° adduction, and 90° of knee flexion. Using hospital sheets knotted to form a loop, an assistant stands in the loop and places the strap through the patient’s groin and over the iliac crest. A second loop is placed behind the ipsilateral knee, with the physician standing in the loop. The physician provides lateral traction in line with the femur by leaning back while using his/her free hands to manipulate the lower limb. Simultaneously, the assistant leans back to provide lateral traction against the loop, while using the heels of his/her hands to push on the deformity in the gluteal region until the hip is reduced

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Traction-counter traction maneuver

Flexion Adduction Method With the patient supine, the physician stands on the contralateral side and lifts the ipsilateral leg to 90° of flexion and maximum adduction. The physician applies traction in line with the femur while an assistant stabilizes the pelvis and pushes the head of the femur into the acetabulum until the hip is reduced

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Flexion adduction maneuver

Foot-Fulcrum Maneuver The patient is supine with the physician sitting at the foot of the bed. To reduce the risk of slamming the femoral head against the superior rim of the acetabulum during reduction, the physician gently maneuvers the affected limb to maximum allowed flexion to move the dislocated femoral head into a more posterior position. At the foot of the bed, the physician creates a fulcrum by placing his/her inner foot against the anterior surface of the ipsilateral ankle and placing the outer foot against the posterolateral hip to feel for the dislocation with the sole. The physician then applies longitudinal traction in line with the femur by grasping the ipsilateral flexed knee and leaning backward until the hip is reduced. Internal rotation can be applied as needed by leaning from side to side

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Foot-fulcrum maneuver

Waddell Technique This technique uses elements of the Allis and Bigelow maneuvers and is modified to protect the physician from back strain during reduction. This technique requires 2 people. With an assistant stabilizing the patient’s pelvis against the stretcher, the physician climbs on the stretcher. The physician places the ipsilateral leg between his/her legs and puts his/her forearm underneath the knee for that limb to flex over the arm. To lock the limb safely in place, the physician rests his/her forearm across his/her knees so the elbow is on one knee and the hand on the other. With the ipsilateral knee close to the physician’s chest, the physician maneuvers the hip to 60°-90° of flexion and the knee to 90° of flexion. The physician applies traction on the femur by leaning backward, using his/her feet as a pivot and continuing until the limb is reduced, using adduction and internal rotation by leaning as needed

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Waddell technique

The authors prefer to use the Waddell technique for closed reduction of posterior dislocations. This technique reduces the stress on the treating physician’s back by following the Occupational Safety and Health Administration principles of keeping the heavy load close to the body and using the feet as a lever to apply inline traction to the patient’s leg and hip. Furthermore, this technique allows the treating physician to stay low and maintain stability while on the stretcher with the patient.

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Closed Reduction for Anterior Dislocations

Closed reduction techniques for anterior dislocations require a slight variation in maneuvers, but treatment requires the same inline traction on the femur, hip extension, and external rotation. Unless reducing obturator-type dislocations, hip flexion is not possible as the femoral head rests on the anterior surface of the pelvis. We have not included illustrations of the reductions for anterior dislocations because they are performed with the same setup as posterior dislocations.

  • Allis Leg Extension MethodThe patient is supine, and the physician may either climb on the stretcher or stand on the affected side. With an assistant stabilizing the patient’s pelvis, the physician grasps the ipsilateral knee and applies inline traction until the hip is reduced. For pubic-type dislocations, hyperextension of the hip is required for reduction.
  • Reverse Bigelow Method  The patient is supine, and the physician grasps the ipsilateral limb at the ankle with one hand and places the free hand behind the knee. Traction is applied in line with the deformity, and the hip is adducted, internally rotated, and extended. If climbing on the stretcher is not necessary, standing on the side of the stretcher is preferred for physician safety.
  • Lateral Traction Method  The patient is supine, and the assistant wraps a cloth around the ipsilateral inner thigh. The physician applies a longitudinal force along the femur while the assistant pulls on the cloth to apply lateral traction as the hip is reduced. External rotation is used as needed to assist in reduction.
  • Stimson Gravity Method The patient is prone, with both hip and knees at 90° of flexion over the edge of the stretcher. With an assistant stabilizing the pelvis, the physician holds the ipsilateral knee and ankle and applies downward pressure to the limb distal to the knee until the hip is reduced. The physician can apply internal and external rotation to assist in reduction. Caution must be taken with this technique, as a sedated patient in the prone position must have his/her airway continually monitored. Further, care must be taken to prevent the patient from falling off the stretcher. Because pubic-type dislocations are hyperextension injuries, reduction may not be achieved in such patients because hip flexion is not possible.
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Open Reduction

  • Multiple surgical approaches for reducing an anterior hip joint are possible; however, all require joint irrigation to remove any bony or soft tissue structures that would prevent a concentric reduction. Postoperatively reduced hips should be held in traction for 6 to 8 weeks, until definitive fixation, or until the pain has entirely resolved.

Rehabilitation

Hip dislocation rehabilitation can take anywhere from two to three months, depending on the person. Complications to nearby nerves and blood vessels can sometimes cause loss of blood supply to the bone, also known as osteonecrosis. The protective cartilage on the bone can also be disturbed by this type of injury. For this reason, it is important for people to contact a physician and get treatment immediately following injury.[rx]

  • The first step to recovering from a hip dislocation is a reduction. This refers to putting the bones back into their intended positions. Normally, this is done by a physician while the person is under a sedative. Other times, a surgical procedure is required to reduce the hip bones back into their natural state.[rx]
  • Next, rest, ice, and take anti-inflammatory medication to reduce swelling at the hip.
  • Weight-bearing is allowed for the type one posterior dislocation, but should only be done as pain allows and the person is comfortable.[rx]
  • Within 5–7 days of the injury occurrence, people may perform passive range of motion exercises to increase flexibility.
  • A walking aid should be used until the person is comfortable with both weight-bearing and range of motion.[rx]

Exercises

Modified side plank

Individuals suffering from hip dislocation should participate in physical therapy and receive professional prescriptive exercises based on their individual abilities, progress, and overall range of motion. The following are some typically recommended exercises used as rehabilitation for hip dislocation. It is important to understand that each individual has different capabilities that can best be assessed by a physical therapist or medical professional, and that these are simply recommendations.

  • Bridge- Lie flat on the back. Place arms with palms down beside the body. Keep feet hip-distance apart and bend knees. Slowly lift hips upward. Hold the position for three to five seconds. This helps strengthen the glutes and increase the stability of the hip joint.[rx]
  • Supine leg abduction – Lie flat on the back. Slowly slide leg away from the body and then back in, keeping the knees straight. This exercises the gluteus medius and helps to maintain stability in the hip while walking.[rx]
  • Side-Lying Leg abduction – Lie on one side with one leg on top of the other. Slowly lift the top leg towards the ceiling and then lower it back down slowly.[rx]
  • Standing Hip abduction – Standing up and holding on to a nearby surface, slowly lift one leg away from the midline of the body and then lower it back to starting position. This is simply a more advanced way to do any of the lying hip abduction exercises and should be done as the person progresses in rehab.[rx]
  • Knee raises – While standing and holding onto a chair, slowly lift one leg off the ground and bring it closer to the body while bending the knee. Then lower the leg back down slowly. This helps to strengthen the hip flexor muscles and retain stability in the hip.[rx]
  • Hip flexion and extensions – Standing, hold on to a nearby chair or surface. Swing one leg forwards away from you, and hold the position for three to five seconds. Then swing the leg slowly backward and behind your body. Hold for three to five seconds. This exercise helps to increase range of motion, as well as strengthening the hip flexor and hip extensor muscles that control much of the hip joint.[rx]
  • Adding ankle weights – to any exercises can be done as progress is made in rehabilitation.

Complications

  • Femoral head trauma – Anterior hip dislocations commonly are associated with femoral head trauma and therefore have a higher incidence of long-term decreased functional outcomes and post-traumatic arthritis. Moreta et al. found that 13.3% of patients that suffered a complex dislocation had radiographic signs of osteoarthritis. Approximately 50% of all anterior dislocations have femoral head indentation fractures; however, patients without these associated fractures often have an excellent, long-term outcome.
  • Osteonecrosis – This complication ranges from 5% to 40% of all hip dislocations but is related to the time before the joint’s reduction, with over 6 hours increasing the risk. Up to 20% of all traumatic hip dislocations will suffer osteonecrosis of the hip.
  • Thromboembolism – Patients are at an increased risk of thromboembolism due to both immobility post-injury and due to vascular intima injury related to traction. Rezaie et al. found a 0.5% risk of venous thromboembolism after a surgical hip dislocation. Prophylaxis should be the standard for this group.
  • Recurrent dislocation – This occurs in approximately 2% of patients. Itokawa et al. found that 40% of patients who dislocated after total hip arthroplasty, suffered repeat hip dislocations.
  • Neurovascular injury –  Although the injury to the femoral nerve or vasculature has been reported, it remains relatively rare. Cornwall et al. found 10% of adults and 5% of children will suffer neuropraxia following hip dislocation. Fortunately, 60-70% of patients had partial resolution of symptoms.

References

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